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This study investigates the efficacy of erosion control structures (ECSs) as restoration tools in the context of a watershed rehabilitation and wet meadow (bofedal) restoration program in the Bolivian Andes. In an effort to enhance water security and increase grazing stability, Aymara indigenous communities built over 15,000 check dams, 9,100 terraces, 5,300 infiltration ditches, and 35 pasture improvement trials. Communities built ECSs at different rates, and we compared vegetation change in the highest restoration management intensity, lowest restoration management intensity, and nonproject control communities. We used line transects to measure changes in vegetation cover and standing water in gullies with check dams and without check dams, and related these ground measurements to a time series (1986–2009) of normalized difference vegetation index derived from Landsat TM5 images. Evidence suggests that check dams increase bofedal vegetation and standing water at a local scale, and lead to increased greenness at a basin scale when combined with other ECSs. Watershed rehabilitation enhances ecosystem services significant to local communities (grazing stability, water security), which creates important synergies when conducting land restoration in rural development settings.","publicationDate":"2016-01-01","doi":"10.1111/rec.12402","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/37cf2aa3-ffef-47e3-9bc5-c7a0509ad468","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Hartman","et al."],"keywords":["Environmental science","Watershed","Restoration ecology","Vegetation (pathology)","Erosion control","Hydrology (agriculture)","Ecosystem services","Surface runoff","Ecosystem","Environmental 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Glaciers in the tropical Andes of southern Peru have received limited attention compared to glaciers in other regions (both near and far), yet remain of vital importance to agriculture, fresh water, and hydropower supplies of downstream communities. Little is known about recent glacial-area changes and how the glaciers in this region respond to climate changes, and, ultimately, how these changes will affect lake and water supplies. To remedy this, we have used 158 multi-spectral satellite images spanning almost 4 decades, from 1975 to 2012, to obtain glacial- and lake-area outlines for the understudied Cordillera Vilcanota region, including the Quelccaya Ice Cap. Additionally, we have estimated the snow-line altitude of the Quelccaya Ice Cap using spectral unmixing methods. We have made the following four key observations: first, since 1988 glacial areas throughout the Cordillera Vilcanota (1988 glacial area: 361 km2) have been declining at a rate of 3.99 ± 1.15 km2 yr−1 (22 year average, 1988–2010, with 95% confidence interval (CI), n = 8 images). Since 1980, the Quelccaya Ice Cap (1980 glacial area: 63.1 km2) has been declining at a rate of 0.57 ± 0.10 km2 yr−1 (30 year average, 1980–2010, with 95% CI, n = 14). Second, decline rates for individual glacierized regions have been accelerating during the past decade (2000–2010) as compared to the preceding decade (1988–1999) with an average increase from 37.5 to 42.3 × 10−3 km2 yr−1 km−2 (13%). Third, glaciers with lower median elevations are declining at higher rates than those with higher median elevations. Specifically, glaciers with median elevations around 5200 m a.s.l. are retreating to higher elevations at a rate of ~1 m yr−1 faster than glaciers with median elevations around 5400 m a.s.l. Fourth, as glacial regions have decreased, 77% of lakes connected to glacial watersheds have either remained stable or shown a roughly synchronous increase in lake area, while 42% of lakes not connected to glacial watersheds have declined in area (58% have remained stable). Our new and detailed data on glacial and lake areas over 37 years provide an important spatiotemporal assessment of climate variability in this area. These data can be integrated into further studies to analyze inter-annual glacial and lake-area changes and assess hydrologic dependence and consequences for downstream populations.","publicationDate":"2014-01-01","doi":"10.5194/tc-8-359-2014","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/31b44b7f-0746-40e2-8e62-0d489d45249e","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Hanshaw","Bookhagen","et al."],"keywords":["Glacier","Glacial period","Physical geography","Snow","Geology","Climate change","Altitude (triangle)","Climatology","Geography","Oceanography","Geomorphology"],"topics":["Cryospheric studies and observations","Climate change and permafrost","Geology and Paleoclimatology Research"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2128311680","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.5194/tc-8-359-2014","mag":"2128311680","openalex":"https://openalex.org/W2128311680"},"openalex_open_access_status":"gold"}},{"id":791,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-76.11027081455288,-11.013039886553793]},{"type":"Point","coordinates":[-76.59431621359953,-10.783812324013002]},{"type":"Point","coordinates":[-76.34956005430898,-10.82959434891279]}]},"bbox":[-76.59431621359953,-11.013039886553793,-76.11027081455288,-10.783812324013002],"properties":{"title":"Pollen studies in the Junín area, central Peruvian 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investigations of two post-glacial peat bogs near the boundary of Bolivia and Peru","type":"article","abstract":null,"publicationDate":"1981-01-01","doi":"10.2307/2844756","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/b9394bbd-57cc-4a22-a927-08335f64a180","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Graf"],"keywords":["Bog","Palynology","Peat","Glacial period","Geology","Physical geography","Geography","Boundary (topology)","Archaeology","Paleontology","Pollen","Ecology","Biology"],"topics":["Geology and Paleoclimatology Research","Marine and coastal plant biology","Peatlands and Wetlands Ecology"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2317901250","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.2307/2844756","mag":"2317901250","openalex":"https://openalex.org/W2317901250"},"openalex_open_access_status":null}},{"id":788,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-70.282331,-33.247205]},{"type":"Point","coordinates":[-70.268332,-33.225541]},{"type":"Point","coordinates":[-70.274143,-33.221095]}]},"bbox":[-70.282331,-33.247205,-70.268332,-33.221095],"properties":{"title":"Importance of water quality on plant abundance and diversity in high-alpine meadows of the Yerba Loca Natural Sanctuary at the Andes of north-central 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Studies"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2081076572","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.4067/s0716-078x2008000400003","mag":"2081076572","openalex":"https://openalex.org/W2081076572"},"openalex_open_access_status":"gold"}},{"id":787,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-79.25059488246426,-2.918539192490802]},{"type":"Point","coordinates":[-79.21564027961962,-2.784145019935869]},{"type":"Point","coordinates":[-79.24483884179776,-2.793550880874664]}]},"bbox":[-79.25059488246426,-2.9185391924908024,-79.21564027961962,-2.7841450199358695],"properties":{"title":"Long-term limnological changes in the Ecuadorian páramo: Comparing the ecological responses to climate warming of shallow waterbodies versus deep lakes","type":"article","abstract":"AbstractPáramos are high‐altitude ecosystems of grasslands and shrubs that sustain high levels of biodiversity and contain numerous lakes, ponds and wetlands that are a crucial source of water for millions. In the Andes, limnological data are rare from páramos and particularly so from shallow waterbodies that are prominent features of the landscape.Here, we analyse fossil diatom assemblages using dated sediment cores from three shallow lakes in the páramo of southern Ecuador and document their response to recent climate changes. The two shallowest sites were &lt;0.5 m deep and contained nearly identical diatom assemblages, dominated byAchnanthidium minutissimumand other benthic taxa. The deepest study site, at 4 m depth, differed notably from its shallower counterparts in that the dominant taxa were tychoplanktonicAulacoseiraspecies. All three study sites showed only minor assemblage shifts over the past ˜200 years. This contrasts sharply with paleolimnological data from nearby deep lakes (Zmax &gt; 17 m) that recorded abrupt changes in diatom phytoplankton coincident with the onset of higher temperatures, reduced wind speeds and the onset of thermal stratification in recent decades.In temperate and high‐latitude regions, an overriding factor influencing freshwater ecosystems is the duration and extent of ice cover, which itself is closely linked to climate variables. In contrast, there is no winter ice cover and the growing season is continuous year round in our equatorial Andean sites. Instead, rising temperatures are affecting deep lakes primarily by altering the physical structure of the water column resulting in greater periods of thermal stratification, which in turn drives changes in biota and other lake processes. However, this mechanism of change only affects deep lakes because shallow waterbodies are easily mixed by wind.Our data demonstrate the differential response of large, deep lakes in the páramo compared to the relative complacency of changes in shallow waterbodies, which is in marked contrast to similar sites affected by seasonal ice cover.","publicationDate":"2018-01-01","doi":"10.1111/fwb.13159","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/1f9e8583-75c8-4a06-8914-6f911704a571","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Giles","et al."],"keywords":["Diatom","Ecology","Paleolimnology","Benthic zone","Limnology","Temperate climate","Climate change","Wetland","Environmental science","Freshwater ecosystem","Lake ecosystem","Ecosystem","Oceanography","Phytoplankton","Physical geography","Geography","Geology","Biology","Nutrient"],"topics":["Geology and Paleoclimatology Research","Aquatic Ecosystems and Phytoplankton Dynamics","Marine and coastal ecosystems"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2836467076","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1111/fwb.13159","mag":"2836467076","openalex":"https://openalex.org/W2836467076"},"openalex_open_access_status":null}},{"id":786,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-68.01764545630795,-22.333332558862764]}]},"bbox":[-68.01764545630795,-22.333332558862764,-68.01764545630795,-22.333332558862764],"properties":{"title":"Mineralogical characterization of silica sinters from the El Tatio geothermal field, Chile","type":"article","abstract":null,"publicationDate":"2008-01-01","doi":"10.2138/am.2008.2583","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/6766eaa5-f0b1-4068-a835-214b3fee67f9","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Garcia-Valles","et al."],"keywords":["Cristobalite","Quartz","Mineralogy","Differential thermal analysis","Halite","Geothermal gradient","Fourier transform infrared spectroscopy","Crystallization","Mineral","Phase (matter)","Geology","Analytical Chemistry (journal)","Chemistry","Chemical engineering","Materials 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and Ecosystem Services","Conservation, Biodiversity, and Resource Management"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2346445647","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1016/j.ecoser.2016.04.006","mag":"2346445647","openalex":"https://openalex.org/W2346445647"},"openalex_open_access_status":null}},{"id":784,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-68.56513222738799,-27.63696765992621]},{"type":"Point","coordinates":[-68.6470323194418,-27.567377859486662]}]},"bbox":[-68.6470323194418,-27.63696765992621,-68.56513222738799,-27.567377859486662],"properties":{"title":"Isolation of UV-B resistant bacteria from two high altitude Andean lakes (4,400 m) with saline and non saline conditions","type":"article","abstract":null,"publicationDate":"2009-01-01","doi":"10.2323/jgam.55.447","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/bc7e343d-75ab-4068-844a-9107316533e8","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Flores","et al."],"keywords":["Salinity","Bacteria","Stenotrophomonas","Extremophile","Biology","Saline water","Altitude (triangle)","Botany","16S ribosomal RNA","Food science","Horticulture","Microorganism","Ecology"],"topics":["Microbial Community Ecology and Physiology","Protist diversity and phylogeny","Biocrusts and Microbial Ecology"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W1993318049","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.2323/jgam.55.447","mag":"1993318049","pmid":"https://pubmed.ncbi.nlm.nih.gov/20118609","openalex":"https://openalex.org/W1993318049"},"openalex_open_access_status":"bronze"}},{"id":783,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-67.83732544931337,-22.79413571789342]},{"type":"Point","coordinates":[-67.79437013761336,-22.800478112909538]},{"type":"Point","coordinates":[-67.88379580522096,-22.83405440527514]}]},"bbox":[-67.88379580522096,-22.83405440527514,-67.79437013761336,-22.79413571789342],"properties":{"title":"Characterization of cyanobacterial communities from high ‐ elevation lakes in the Bolivian Andes","type":"article","abstract":"The Bolivian Altiplano is a harsh environment for life with high solar irradiation (visible and UVR), below freezing temperatures, and some of the lowest precipitation rates on the planet. However, microbial life is visibly abundant in small isolated refugia of spring or snowmelt‐fed lakes. In this study, we characterized the cyanobacterial composition of a variety of microbial mats present in three lake systems: Laguna Blanca, Laguna Verde (elevation 4300 m), and a summit lake in the Licancabur Volcano cone (elevation 5970 m). These lakes and their adjacent geothermal springs present an interesting diversity of environments within a geographically small region (5 km2). From these sites, 78 cyanobacterial cultures were isolated in addition to ∼400 cyanobacterial 16S rRNA gene sequences from environmental genomic DNA. Based on microscopy, cultivation, and molecular analyses, these communities contained many heterocytous, nitrogen‐fixing cyanobacteria (e.g., Calothrix, Nostoc, Nodularia) as well as a large number of cyanobacteria belonging to the form‐genus Leptolyngbya. More than a third (37%) of all taxa in this study were new species (≤96% 16S rRNA gene sequence identity), and 11% represented new and novel taxa distantly related (≤93% identity) to any known cyanobacteria. This is one of the few studies to characterize cyanobacterial communities based on both cultivation‐dependent and cultivation‐independent analyses.","publicationDate":"2010-01-01","doi":"10.1029/2008jg000817","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/a6331743-a094-4a22-a57c-d2c954cba4a1","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Fleming","Prufert Bebout"],"keywords":["Cyanobacteria","Biology","Ecology","Extreme environment","Microbial mat","Botany","Heterocyst","Nostoc","Anabaena","Bacteria"],"topics":["Microbial Community Ecology and Physiology","Biocrusts and Microbial Ecology","Aquatic Ecosystems and Phytoplankton Dynamics"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2078277076","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1029/2008jg000817","mag":"2078277076","openalex":"https://openalex.org/W2078277076"},"openalex_open_access_status":"bronze"}},{"id":782,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-68.01764545630795,-22.333332558862764]}]},"bbox":[-68.01764545630795,-22.333332558862764,-68.01764545630795,-22.333332558862764],"properties":{"title":"The hot spring and geyser sinters of El Tatio, Northern Chile","type":"article","abstract":null,"publicationDate":"2005-01-01","doi":"10.1016/j.sedgeo.2005.07.005","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/400aa083-25a2-4ddd-ba6c-920366579cfd","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Fernandez-Turiel","et al."],"keywords":["Microbial mat","Hot spring","Algal mat","Geology","Subaerial","Cyanobacteria","Sponge spicule","Tufa","Sedimentary depositional environment","Geochemistry","Mineralogy","Algae","Paleontology","Ecology","Biology","Bacteria","Chemistry","Structural basin","Carbonate"],"topics":["Lichen and fungal ecology","Diatoms and Algae Research","Geology and Paleoclimatology Research"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W1967860451","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1016/j.sedgeo.2005.07.005","mag":"1967860451","openalex":"https://openalex.org/W1967860451"},"openalex_open_access_status":null}},{"id":781,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-68.53702349154685,-27.56615954041776]},{"type":"Point","coordinates":[-65.99907132696413,-22.352283872839923]}]},"bbox":[-68.53702349154685,-27.56615954041776,-65.99907132696413,-22.352283872839923],"properties":{"title":"Diverse responses to UV-B radiation and repair mechanisms of bacteria isolated from high-altitude aquatic environments","type":"article","abstract":"ABSTRACT\n          \n            Acinetobacter johnsonii\n            A2 isolated from the natural community of Laguna Azul (Andean Mountains at 4,560 m above sea level),\n            Serratia marcescens\n            MF42,\n            Pseudomonas\n            sp. strain MF8 isolated from the planktonic community, and\n            Cytophaga\n            sp. strain MF7 isolated from the benthic community from Laguna Pozuelos (Andean Puna at 3,600 m above sea level) were subjected to UV-B (3,931 J m\n            −2\n            ) irradiation. In addition, a marine\n            Pseudomonas putida\n            strain, 2IDINH, and a second\n            Acinetobacter johnsonii\n            strain, ATCC 17909, were used as external controls. Resistance to UV-B and kinetic rates of light-dependent (UV-A [315 to 400 nm] and cool white light [400 to 700 nm]) and -independent reactivation following exposure were determined by measuring the survival (expressed as CFU) and accumulation of cyclobutane pyrimidine dimers (CPD). Significant differences in survival after UV-B irradiation were observed:\n            Acinetobacter johnsonii\n            A2, 48%;\n            Acinetobacter johnsonii\n            ATCC 17909, 20%;\n            Pseudomonas\n            sp. strain MF8, 40%; marine\n            Pseudomonas putida\n            strain 2IDINH, 12%;\n            Cytophaga\n            sp. strain MF7, 20%; and\n            Serratia marcescens\n            , 21%. Most bacteria exhibited little DNA damage (between 40 and 80 CPD/Mb), except for the benthic isolate\n            Cytophaga\n            sp. strain MF7 (400 CPD/Mb) and\n            Acinetobacter johnsonii\n            ATCC 17909 (160 CPD/Mb). The recovery strategies through dark and light repair were different in all strains. The most efficient in recovering were both\n            Acinetobacter johnsonii\n            A2 and\n            Cytophaga\n            sp. strain MF7;\n            Serratia marcescens\n            MF42 showed intermediate recovery, and in both\n            Pseudomonas\n            strains, recovery was essentially zero. The UV-B responses and recovery abilities of the different bacteria were consistent with the irradiation levels in their native environment.\n          ","publicationDate":"2006-01-01","doi":"10.1128/aem.01333-06","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/9c25bb75-42e2-403c-84d7-c25884030a82","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":"Argentina","country_code":"AR","source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Fernández Zenoff","et al."],"keywords":["Serratia marcescens","Microbiology","Biology","Acinetobacter","Cytophaga","Pseudomonas putida","Pseudomonas","Strain (injury)","Pseudomonadaceae","Bacteria","Serratia","Pseudomonadales","Marine bacteriophage","Escherichia coli","Flavobacterium","Biochemistry","Antibiotics","Gene"],"topics":["Microbial Community Ecology and Physiology","Protist diversity and phylogeny","Marine and coastal ecosystems"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2139597538","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1128/aem.01333-06","mag":"2139597538","pmid":"https://pubmed.ncbi.nlm.nih.gov/17056692","openalex":"https://openalex.org/W2139597538"},"openalex_open_access_status":"green"}},{"id":780,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-68.53702349154685,-27.56615954041776]}]},"bbox":[-68.53702349154685,-27.56615954041776,-68.53702349154685,-27.56615954041776],"properties":{"title":"Diverse UV-B resistance of culturable bacterial community from high-altitude wetland water","type":"article","abstract":null,"publicationDate":"2006-01-01","doi":"10.1007/s00284-005-0241-5","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/3833e796-1373-4348-8484-3fd0575e8314","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":"Municipio de Fiambalá, Catamarca, Argentina","country_code":"AR","source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Fernández Zenoff","et al."],"keywords":["Biology","Bacteria","Microbiology","Enterobacter","Flavobacterium","Bacillus (shape)","Acinetobacter","Extreme environment","Pseudomonas","Escherichia coli"],"topics":["Microbial Community Ecology and Physiology","Algal biology and biofuel production","Protist diversity and phylogeny"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2092563530","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1007/s00284-005-0241-5","mag":"2092563530","pmid":"https://pubmed.ncbi.nlm.nih.gov/16604419","openalex":"https://openalex.org/W2092563530"},"openalex_open_access_status":"green"}},{"id":779,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-68.03573913236222,-22.536614149467844]},{"type":"Point","coordinates":[-67.59868586334657,-23.082159762648633]}]},"bbox":[-68.03573913236222,-23.082159762648633,-67.59868586334657,-22.536614149467844],"properties":{"title":"Spiral vegetation patterns in high-altitude wetlands","type":"article","abstract":null,"publicationDate":"2019-01-01","doi":"10.1016/j.ecocom.2018.12.003","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/b7b18316-ddfa-46f5-8be2-17dbd364709b","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":"San Pedro de Atacama, Provincia de El Loa, Antofagasta Region, Chile","country_code":"CL","source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Fernandes-Oto","et al."],"keywords":["Grazing","Arid","Wetland","Ecology","Vegetation (pathology)","Herbivore","Biomass (ecology)","Spiral (railway)","Environmental science","Habitat","Geography","Physical geography","Biology","Mathematics"],"topics":["Ecosystem dynamics and resilience","Animal Ecology and Behavior Studies","Ecology and Vegetation Dynamics Studies"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2908686229","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1016/j.ecocom.2018.12.003","mag":"2908686229","openalex":"https://openalex.org/W2908686229"},"openalex_open_access_status":null}},{"id":778,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-66.92375122768892,-22.596306104464748]}]},"bbox":[-66.92375122768892,-22.596306104464748,-66.92375122768892,-22.596306104464748],"properties":{"title":"Impact of solar radiation on bacterioplankton in Laguna Vilama, a hypersaline Andean lake (4650 m)","type":"article","abstract":"Laguna Vilama is a hypersaline Lake located at 4660 m altitude in the northwest of Argentina high up in the Andean Puna. The impact of ultraviolet (UV) radiation on bacterioplankton was studied by collecting samples at different times of the day. Molecular analysis (DGGE) showed that the bacterioplankton community is characterized by Gamma‐proteobacteria (Halomonas sp., Marinobacter sp.), Alpha‐proteobacteria (Roseobacter sp.), HGC (Agrococcus jenensis and an uncultured bacterium), and CFB (uncultured Bacteroidetes). During the day, minor modifications in bacterial diversity such as intensification of Bacteroidetes' signal and an emergence of Gamma‐proteobacteria (Marinobacter flavimaris) were observed after solar exposure. DNA damage, measured as an accumulation of Cyclobutane Pyrimidine Dimers (CPDs), in bacterioplankton and naked DNA increased from 100 CPDs MB−1 at 1200 local time (LT) to 300 CPDs MB−1 at 1600 LT, and from 80 CPDs MB−1 at 1200 LT to 640 CPDs MB−1 at 1600 LT, respectively. In addition, pure cultures of Pseudomonas sp. V1 and Brachybacterium sp. V5, two bacteria previously isolated from this environment, were exposed simultaneously with the community, and viability of both strains diminished after solar exposure. No CPD accumulation was observed in either of the exposed cultures, but an increase in mutagenesis was detected in V5. Of both strains only Brachybacterium sp. V5 showed CPD accumulation in naked DNA. These results suggest that the bacterioplankton community is well adapted to this highly solar irradiated environment showing little accumulation of CPDs and few changes in the community composition. They also demonstrate that these microorganisms contain efficient mechanisms against UV damage.","publicationDate":"2009-01-01","doi":"10.1029/2008jg000784","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/94dc33f6-206d-4047-b654-4082d7c56218","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":"Municipio de Cusi Cusi, Jujuy, Argentina","country_code":"AR","source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Farías etal"],"keywords":["Bacterioplankton","Bacteroidetes","Proteobacteria","Biology","Halomonas","Microbiology","Botany","Bacteria","16S ribosomal RNA","Ecology","Phytoplankton","Genetics"],"topics":["Microbial Community Ecology and Physiology","Protist diversity and phylogeny","Marine and coastal ecosystems"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W1980883327","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1029/2008jg000784","mag":"1980883327","openalex":"https://openalex.org/W1980883327"},"openalex_open_access_status":"bronze"}},{"id":777,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-68.20885201597441,-24.535519895162484]}]},"bbox":[-68.20885201597441,-24.535519895162484,-68.20885201597441,-24.535519895162484],"properties":{"title":"The discovery of stromatolites developing at 3570 m above sea level in a high-altitude volcanic lake Socompa, Argentinean Andes","type":"article","abstract":null,"publicationDate":"2013-01-01","doi":"10.1371/journal.pone.0053497","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/6a05e2e0-32a5-4608-abac-3ea65fed0e9f","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":"Municipio de Tolar Grande, Salta, Argentina","country_code":"AR","source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Farías","et al."],"keywords":["Stromatolite","Crater lake","Microbial mat","Phylum","Geology","Volcano","Aragonite","Cyanobacteria","Ecology","Biology","Geochemistry","Paleontology","Carbonate","Bacteria","Chemistry"],"topics":["Microbial Community Ecology and Physiology","Diatoms and Algae Research","Marine and coastal ecosystems"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2141843759","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1371/journal.pone.0053497","mag":"2141843759","pmid":"https://pubmed.ncbi.nlm.nih.gov/23308236","openalex":"https://openalex.org/W2141843759"},"openalex_open_access_status":"gold"}},{"id":776,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-77.6187639865966,-8.842590076683145]},{"type":"Point","coordinates":[-77.62703242897973,-8.887805595078373]},{"type":"Point","coordinates":[-77.673074179185,-8.994891179906146]},{"type":"Point","coordinates":[-77.5494870454265,-9.212043719783098]},{"type":"Point","coordinates":[-77.54446985988231,-9.217130702940844]},{"type":"Point","coordinates":[-77.4116618823707,-9.363556610218398]},{"type":"Point","coordinates":[-77.41535849959102,-9.390441199271507]},{"type":"Point","coordinates":[-77.37680014204223,-9.392901942431948]}]},"bbox":[-77.673074179185,-9.392901942431948,-77.37680014204223,-8.842590076683145],"properties":{"title":"Hazard 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related hazards","Geology and Paleoclimatology Research"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2476778668","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1016/j.catena.2016.07.032","mag":"2476778668","openalex":"https://openalex.org/W2476778668"},"openalex_open_access_status":null}},{"id":774,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-69.20016982504103,-27.47154640531165]}]},"bbox":[-69.20016982504103,-27.47154640531165,-69.20016982504103,-27.47154640531165],"properties":{"title":"Rapid development of an unusual peat-accumulating ecosystem in the Chilean Altiplano","type":"article","abstract":"AbstractStratigraphic relationships, radiocarbon dating, sediment and peat characteristics, and rates of peat and carbon accumulation from a soligenous peatland, or “bofedal,” in the Chilean Altiplano 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The site lies in the National Park Nevado de Tres Cruces in the puna desert grassland at an elevation of 4300 m a.s.l. Eight peat cores were extracted from a 1.75-km transect yielding a maximum of 3.6 m of organic sediment. Organic matter began to accumulate 1700–1100 cal yr B.P. under a progressively arid local climate, after a period when regional climate is believed to have been more humid than at present. Areas of greater relief and better drainage in the valley bottom eventually fostered the growth of a riparian cushion plant community after water flowing down the valley began to diminish. This led to rapid lateral expansion of the riparian peatland communities over open water in topographic depressions at a rate heretofore unprecedented in the peatland literature. It appears that development of the peatland has been encouraged by autoregulation of internal hydrology. The drainage impediment created by organic mass accumulation in lower-relief areas probably reduced the amount of water arriving at the lower reaches of the peatland. These areas have become progressively drier and have since died and oxidized. Through endogenous peat accumulation and a concomitant drainage impediment, the ecosystem has been migrating upstream over the past 50 years.","publicationDate":"2003-01-01","doi":"10.1016/s0033-5894(02)00011-x","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/89fd0cae-2ff1-4be7-b28b-fd5476ea53e8","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Earle","et al."],"keywords":["Peat","Geology","Hydrology (agriculture)","Radiocarbon dating","Riparian zone","Ecosystem","Physical geography","Drainage basin","Water table","Environmental science","Ecology","Groundwater","Geography","Paleontology"],"topics":["Peatlands and Wetlands Ecology","Coastal wetland ecosystem dynamics","Geology and Paleoclimatology Research"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2046896344","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1016/s0033-5894(02)00011-x","mag":"2046896344","openalex":"https://openalex.org/W2046896344"},"openalex_open_access_status":null}},{"id":773,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-68.8471162847576,-20.289402815005996]}]},"bbox":[-68.8471162847576,-20.289402815005996,-68.8471162847576,-20.289402815005996],"properties":{"title":"Unique clusters of Archaea in Salar de Huasco, an athalassohaline evaporitic basin of the Chilean Altiplano","type":"article","abstract":null,"publicationDate":"2010-01-01","doi":"10.1111/j.1574-6941.2010.00891.x","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/d19da40f-e390-4bbf-8cc0-bd1a5943819b","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Dorador","et al."],"keywords":["Biology","Archaea","Library","Halophile","16S ribosomal RNA","Ecology","Benthic zone","Bacteria","Botany","Zoology","Genetics"],"topics":["Microbial Community Ecology and Physiology","Methane Hydrates and Related Phenomena","Genomics and Phylogenetic Studies"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W1892491603","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1111/j.1574-6941.2010.00891.x","mag":"1892491603","pmid":"https://pubmed.ncbi.nlm.nih.gov/20491927","openalex":"https://openalex.org/W1892491603"},"openalex_open_access_status":"bronze"}},{"id":772,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-68.8471162847576,-20.289402815005996]},{"type":"Point","coordinates":[-68.28655123866879,-21.55844606521356]},{"type":"Point","coordinates":[-68.24123960448601,-23.347343269196102]}]},"bbox":[-68.8471162847576,-23.347343269196102,-68.24123960448601,-20.289402815005996],"properties":{"title":"Diversity of Bacteroidetes in high-altitude saline evaporitic basins in northern Chile","type":"article","abstract":"The phylum Bacteroidetes represents one of the most abundant bacterial groups of marine and freshwater bacterioplankton. We investigated the diversity of Bacteroidetes in water and sediment samples from three evaporitic basins located in the highlands of northern Chile. We used both 16S rRNA gene clone libraries created with targeted Bacteroidetes‐specific primers and separation of specifically amplified gene fragments by denaturing gradient gel electrophoresis (DGGE). DGGE analysis revealed a reduced richness of these organisms in samples from Salar de Huasco (two to four DGGE bands) increasing in Salar de Ascotán (two to seven DGGE bands) and Laguna Tebenquiche at Salar de Atacama (four to eight DGGE bands). Cluster analysis (WPGMA) of DGGE bands showed that bands from Salar de Huasco and Salar de Ascotán grouped together and samples from Salar de Atacama formed separate clusters in water and sediment samples, reflecting different Bacteroidetes communities between sites. Most of the sequences analyzed belonged to the family Flavobacteriaceae and clustered with the genera Psychroflexus, Gillisia, Maribacter, Muricauda, Flavobacterium, and Salegentibacter. The most abundant phylotype was highly related to Psychroflexus spp. and was recovered from all three study sites. The similarity of the analyzed sequences with their closest relatives in GenBank was typically &lt;97% and notably lower when compared with type strains, demonstrating the unique character of these sequences. Culture efforts will be necessary to get a better description of the diversity of this group in saline evaporitic basins of northern Chile.","publicationDate":"2009-01-01","doi":"10.1029/2008jg000837","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/fd9368e2-01c9-4bfe-af9d-40a1a030dee4","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Dorador","et al."],"keywords":["Evaporite","Effects of high altitude on humans","Diversity (politics)","Geology","Altitude (triangle)","Oceanography","Geography","Structural basin","Geomorphology","Meteorology","Anthropology"],"topics":["Microbial Community Ecology and Physiology","Genomics and 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regions and ecosystems, we still do not understand how these changes occurred within a broader temporal framework. In this paper, we reconstruct the long-term environmental and vegetation changes experienced by high-altitude wetlands of the southcentral Andes over the last two millennia. Pollen and charcoal analyses of a 5.5-m-long core recovered from the semi-arid puna of northern Chile indicate that while climatic drivers influenced vegetation turnaround, human land use and management strategies significantly affected long-term changes. Our results indicate that the puna vegetation mostly dominated by grasslands and some peatland taxa stabilized during the late Holocene, xerophytic shrubs expanded during extremely dry events, and peatland vegetation persisted in relation to landscape-scale management strategies by Andean pastoralist societies. Environmental changes produced during the post-conquest period included the introduction of exotic taxa, such as clovers, associated with the translocation of exotic herding animals (sheep, cattle, and donkeys) and a deterioration in the management of highland wetlands.","publicationDate":"2018-01-01","doi":"10.3390/quat1030032","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/d18c19e1-6344-4465-97c7-6dae656860ae","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Domic","et al."],"keywords":["Vegetation (pathology)","Geography","Holocene","Wetland","Peat","Ecology","Charcoal","Paleoecology","Arid","Ecosystem","Period 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During winter, Andean Flamingo (Phoenicoparrus andinus) and Chilean Flamingo (Phoenicopterus chilensis) inhabit shallow lakes of southern Santa Fe Province, Argentina. Our objectives were to assess the behavioural patterns of these species during winter at Melincué Lagoon, and to evaluate the influence of weather conditions on these patterns. We selected adult individuals of each species and recorded simultaneously their behaviours and the values of five weather conditions (temperature, wind-chill factor, atmospheric pressure, relative humidity, wind speed). Main behaviours recorded for both species were resting, preening and feeding. There were significant differences between species in their behavioural patterns. Andean Flamingo spent more time walking and in alert, while the Chilean Flamingo spent more time resting. Individuals of both species spent more time feeding during periods of high atmospheric pressure, and resting during strong winds. The Andean Flamingo was more active, being less affected by strong winds. These results highlight the need to do long-term ecoethological studies of these species. Knowledge about flamingo biology should help the design and implementation of action plans for its conservation and the conservation of the wetlands they inhabit.","publicationDate":"2014-01-01","doi":"10.56178/eh.v29i2.611","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/17cb47ec-8ab2-4899-8291-c5b3f6b38a9e","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Derlindati","et al."],"keywords":["Humanities","Geography","Art"],"topics":["Fish biology, ecology, and behavior","Fish Ecology and Management Studies","Avian ecology and behavior"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2209291998","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.56178/eh.v29i2.611","mag":"2209291998","openalex":"https://openalex.org/W2209291998"},"openalex_open_access_status":"diamond"}},{"id":764,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-67.4101927728356,-23.123291604695382]},{"type":"Point","coordinates":[-67.69300142787559,-23.497749669534908]}]},"bbox":[-67.69300142787559,-23.497749669534908,-67.4101927728356,-23.123291604695382],"properties":{"title":"Prokaryotic diversity pattern in high-altitude ecosystems of the Chilean Altiplano","type":"article","abstract":"The Chilean Altiplano is the westernmost part of a large volcanic‐sedimentary plateau in the central Andes. High solar irradiance and rapid increase of temperature have contributed to make it a hot spot of global climatic change. In this study, we describe microbial diversity in the summit lake of the Simba volcano (5,870 m) and the evaporitic basins of Salar de Aguas Calientes (4,200 m) and Laguna Lejía (4,325 m) using both culture and culture‐independent methods. The results obtained were analyzed together with available information from related environments to describe the traits of the microbial community driven by main environmental factors. Isolated cultures exhibit high resistance to all three types of UV radiation, further supporting the adaptation of microorganisms to the high altitude environment. The microbial community structures at Salar de Aguas Calientes and Laguna Lejía are similar to those from other saline systems and cold environments where Bacteroidetes is the major bacterial group. The abundance of sequences related to alphaproteobacteria and methanogenic populations likely reflects the importance of aerobic anoxigenic phothosynthesis and the cycling of one‐carbon compounds in the high altitude lake ecosystems. Geochemistry and microbial communities at Simba as well as those reported in the Licancabur summit lake provide evidence for sulfur‐rich environments but under different conditions. Those differences between neighboring mountain lake ecosystems highlight the effect of volcanic activity on microbial communities. The hypothetical ecosystem model described in this work provides a clue to follow the microbial community responses to geophysical environment coupled with rapid climate change.","publicationDate":"2010-01-01","doi":"10.1029/2008jg000836","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/d2b680b2-3696-488a-98fa-0441a63bbd25","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Demergasso etal"],"keywords":["Ecosystem","Microbial mat","Ecology","Lake ecosystem","Microbial population biology","Volcano","Environmental science","Plateau (mathematics)","Altitude (triangle)","Earth science","Physical 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Fences have been set over two nurse species with different strategies to cope with grazing (direct vs. indirect defenses), which are expected to lead to different intensities of indirect facilitation for the associated communities. We collected functional traits which are known to vary according to grazing pressure (LDMC, leaf thickness, and maximum height), on both the nurse and their associated plant communities in grazed (and therefore indirect facilitation as well) and ungrazed conditions. We found that the effect of indirectly facilitated on the associated plant communities depended on the functional trait considered. Indirect facilitation decreased the effects of grazing on species relative abundance, mean LDMC, and the convergence of the maximum height distribution of the associated communities, but did not affect mean height or cover. The identity of the nurse species and grazing jointly affected the structure of the associated plant community through indirect facilitation. 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Topographic and groundwater elevations in the peatlands demonstrated that the water source of all 10 peatlands was hillslope groundwater flowing from lateral moraines, talus, colluvium, or bedrock aquifers into the peatlands. There was little to no input from streams, whether derived from glacier melt or other sources, and glacier melt could not have recharged the hillslope aquifers supporting peatlands. We measured the stable water isotopes in water samples taken during different seasons, distributed throughout the catchments, and the values are consistent with this interpretation. Our findings indicate that peatlands in the study region are recharged by hillslope groundwater discharge rather than stream water and may not be as vulnerable to glacial decline as other studies have indicated. 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ecology"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2139862752","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1657/1938-4246-42.1.19","mag":"2139862752","openalex":"https://openalex.org/W2139862752"},"openalex_open_access_status":null}},{"id":753,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-68.2856019330177,-16.14718566308561]},{"type":"Point","coordinates":[-68.21944444,-16.21333333]},{"type":"Point","coordinates":[-68.22194444,-16.21861111]},{"type":"Point","coordinates":[-68.30111202972135,-16.06246136879197]},{"type":"Point","coordinates":[-68.32352023715784,-16.09215569587719]},{"type":"Point","coordinates":[-68.33673563721403,-16.099180733650627]},{"type":"Point","coordinates":[-68.32387517180571,-16.15581527202578]},{"type":"Point","coordinates":[-68.32233712166486,-16.15151966155909]},{"type":"Point","coordinates":[-68.3081160734396,-16.15365611440359]},{"type":"Point","coordinates":[-68.2365494172711,-16.200504536759542]},{"type":"Point","coordinates":[-68.2559406802006,-16.21180876022039]},{"type":"Point","coordinates":[-68.25560940786256,-16.214200173655776]},{"type":"Point","coordinates":[-68.25551475862314,-16.21719933997669]},{"type":"Point","coordinates":[-68.2282557776656,-16.219903094720124]},{"type":"Point","coordinates":[-68.14984479837035,-16.30808702567883]},{"type":"Point","coordinates":[-68.15131186158162,-16.300160980167263]},{"type":"Point","coordinates":[-68.15606798586327,-16.296754271818866]},{"type":"Point","coordinates":[-68.11051803938473,-16.281718625045137]},{"type":"Point","coordinates":[-68.11030507859599,-16.285108559968947]},{"type":"Point","coordinates":[-68.11961028194803,-16.317772717376016]},{"type":"Point","coordinates":[-68.11539839079312,-16.31232244571686]},{"type":"Point","coordinates":[-68.1185218156945,-16.311504891879906]},{"type":"Point","coordinates":[-68.31248176960861,-16.135833641205465]},{"type":"Point","coordinates":[-68.32689211631275,-16.088662977408127]},{"type":"Point","coordinates":[-68.30715774989037,-16.0609122991563]}]},"bbox":[-68.33673563721403,-16.317772717376016,-68.11030507859599,-16.0609122991563],"properties":{"title":"Effects of grazing pressure on plant species composition and water presence on bofedales in the Andes mountain range of Bolivia","type":"preprint","abstract":"Bofedales are high-Andean peatland plant communities with high capacity for water retention, which are regarded as oases of biodiversity. These areas have great social and economic value for livestock grazing, which plays an important role in their vegetation dynamics. However, the effects of increased livestock pressure on vegetation composition and surface water have not yet been clarified. The goal of this study was to assess the impact of current grazing practices on bofedal vegetation, species diversity and function. Specifically, the study aimed to (1) quantify carrying capacity and stocking rate in grazed bofedales and (2) quantify the effects of grazing pressure on plant composition and the extents of bare soil and surface water. Biomass and stocking rate estimates for 25 bofedales along the Cordillera Real (Tropical Andes, Bolivia) showed that all bofedales were overgrazed (carrying capacity/stocking rate (CC/SR) &lt;1). Regression analyses showed significant decreases in number of plant species, species dominance, diversity and percent surface water as CC/SR declined (p &lt; 0.05). Bofedales are negatively affected by increased grazing pressure and potentially affected by changes in livestock species. These pressures, combined with land use changes and climate change, could result in long-term negative effects for the ecological functioning and sustainability of bofedales.","publicationDate":"2018-01-01","doi":"10.19189/map.2017.omb.303","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/90806227-edc8-4ec4-8d35-395535dca385","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Cochi Machaca","et al."],"keywords":["Grazing","Grazing pressure","Dominance (genetics)","Biodiversity","Stocking","Vegetation (pathology)","Livestock","Rangeland","Environmental science","Ecology","Geography","Biomass (ecology)","Agroforestry","Biology","Forestry"],"topics":["Peatlands and Wetlands Ecology","Rangeland and Wildlife Management","Coastal wetland ecosystem dynamics"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2954300076","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.19189/map.2017.omb.303","mag":"2954300076","openalex":"https://openalex.org/W2954300076"},"openalex_open_access_status":"diamond"}},{"id":752,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-78.81074996964509,-0.80080359414452]},{"type":"Point","coordinates":[-78.13572464523278,-0.303498847568002]}]},"bbox":[-78.81074996964509,-0.8008035941445197,-78.13572464523278,-0.30349884756800183],"properties":{"title":"Long-term carbon accumulation in two tropical mountain peatlands, Andes Mountains, Ecuador","type":"article","abstract":"\n                    Tropical peatlands form in at least two distinct altitudinal zones, namely lowlands and high mountains. Unlike lowland tropical peatlands, which are typically forested, tropical mountain peatlands are dominated by cushion plants, bryophytes and herbaceous plants. Tropical mountain peatlands are poorly understood and little information is available on their ages, whether their peat bodies are relicts or actively accumulating carbon, the amount of carbon they contain, or the rate at which they can accumulate carbon. Our objective in this paper is to quantify carbon accumulation rates in two peatlands in the Andes Mountains of Ecuador, South America. At each site, we collected peat cores which were analysed for bulk density, mineral content and % C and we calculated the amount of carbon stored. Due to the high amount of mineral sediment in the Cotopaxi peatland, carbon dating was not done at this site. The Cayambre-Coca peat body was 4 m thick, ca. 3,000 years old, and had accumulated 140 kgC m\n                    -2\n                    . The approximate long-term rate of carbon accumulation (LARCA) is 46 gC m\n                    -2\n                    yr\n                    -1\n                    . However, a significant part of the depth of accumulation is due to high levels of mineral sediment input from steep side slopes and volcanic ash input.\n                  ","publicationDate":"2008-01-01","doi":"10.19189/001c.128254","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/b3e4ecf0-63e5-428c-9676-af5400091789","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Chimner","Karberg"],"keywords":["Peat","Carbon fibers","Geology","Environmental science","Tropics","Physical geography","Earth science","Ecology","Geography","Biology"],"topics":["Peatlands and Wetlands Ecology","Coastal wetland ecosystem dynamics","Geology and Paleoclimatology Research"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2145135505","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.19189/001c.128254","mag":"2145135505","openalex":"https://openalex.org/W2145135505"},"openalex_open_access_status":"diamond"}},{"id":751,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-69.16814842627679,-18.52438638022766]},{"type":"Point","coordinates":[-69.42950423982012,-17.786299475407603]},{"type":"Point","coordinates":[-68.06783517794348,-22.598315077038603]}]},"bbox":[-69.42950423982012,-22.598315077038603,-68.06783517794348,-17.786299475407603],"properties":{"title":"A Multiscale Productivity Assessment of High Andean Peatlands across the Chilean Altiplano Using 31 Years of Landsat Imagery","type":"article","abstract":"The high Andean peatlands, locally known as “bofedales”, are a unique type of wetland distributed across the high-elevation South American Altiplano plateau. This extensive peatland network stores significant amounts of carbon, regulates local and regional hydrological cycles, supports habitats for a variety of plant and animal species, and has provided critical water and forage resources for the livestock of the indigenous Aymara communities for thousands of years. Nevertheless, little is known about the productivity dynamics of the high Andean peatlands, particularly in the drier western Altiplano region bordering the Atacama desert. Here, we provide the first digital peatland inventory and multiscale productivity assessment for the entire western Altiplano (63,705 km2) using 31 years of Landsat data (about 9000 scenes) and a non-parametric approach for estimating phenological metrics. We identified 5665 peatland units, covering an area of 510 km2, and evaluated the spatiotemporal productivity patterns at the regional, peatland polygon, and individual pixel scales. The regional assessment shows that the peatland areas and peatlands with higher productivity are concentrated towards the northern part of our study region, which is consistent with the Altiplano north–south aridity gradient. Regional patterns further reveal that the last seven years (2011–2017) have been the most productive period over the past three decades. While individual pixels show contrasting patterns of reductions and gains in local productivity during the most recent time period, most of the study area has experienced increases in annual productivity, supporting the regional results. Our novel database can be used not only to explore future research questions related to the social, biological, and hydrological influences on peatland productivity patterns, but also to provide technical support for the sustainable development of livestock practices and conservation and water management policy in the Altiplano region.","publicationDate":"2019-01-01","doi":"10.3390/rs11242955","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/12ee1105-9b03-400b-9a20-ce3715393f7c","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Chavez","et al."],"keywords":["Peat","Physical geography","Productivity","Wetland","Plateau (mathematics)","Environmental science","Geography","Digital elevation model","Ecology","Remote sensing"],"topics":["Peatlands and Wetlands Ecology","Fire effects on ecosystems","Coastal wetland ecosystem 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Richness in Altiplano Wetlands of Northwestern Argentina","type":"article","abstract":null,"publicationDate":"2001-01-01","doi":"10.2307/1522249","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/35485039-79f5-47e0-a9bd-05b99fd96ae6","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":"Jujuy, Argentina","country_code":"AR","source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Caziani","et al."],"keywords":["Species richness","Wetland","Geography","Ecology","Grazing","Biology"],"topics":["Avian ecology and behavior","Wildlife-Road Interactions and Conservation","Wildlife Ecology and Conservation"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2333481039","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.2307/1522249","mag":"2333481039","openalex":"https://openalex.org/W2333481039"},"openalex_open_access_status":"green"}},{"id":749,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-66.92375122768892,-22.596306104464748]},{"type":"Point","coordinates":[-66.79797926410808,-22.554809014417927]},{"type":"Point","coordinates":[-66.68929040605762,-22.510973721180125]},{"type":"Point","coordinates":[-70.61666666666666,-15.833333333333334]},{"type":"Point","coordinates":[-66.79497313382421,-22.688655733286673]},{"type":"Point","coordinates":[-66.71895746230177,-22.61214725352092]},{"type":"Point","coordinates":[-66.69867894119983,-22.66275306030847]},{"type":"Point","coordinates":[-66.76292731864322,-22.5481139388313]},{"type":"Point","coordinates":[-66.8602511705793,-22.665926737729556]}]},"bbox":[-70.61666666666666,-22.688655733286673,-66.68929040605762,-15.833333333333334],"properties":{"title":"Abundance and Habitat of High Andes Flamingos in Northwestern Argentina","type":"article","abstract":"Three flamingo species occur in the High Andes wetlands of Argentina, Bolivia, Chile, and Peru: James (Phoenicoparrusjamesi), Andean (P. andinus), and Chilean, (Phoenicopterus chilensis). During summer, the Vilama Lakes concentrate 30% of the James and Andean Flamingo populations of Argentina. These 9 lakes differ in size, depth, water composition, plankton, and submergent vegetation. We studied flamingo populations and wetlands of the Vilama Lakes region from 1995 through 1998. Species abundance was related to habitat variables. Shallow and highly saline lakes, rich in diatoms and cyanophytes but poor in zooplankton, concentrated the James Flamingo. Deep lakes with macrophytes and dense zooplankton provided habitat for the Chilean Flamingo and had more diverse waterbird communities than the shallow lakes. The Andean Flamingo occurred in almost every lake but in generally low numbers; however, it was more abundant in intermediate-character lakes and shallow lakes. Overall, shallow lakes sustained great numbers of flamingos, but changes in lake size did not explain abundance variations. The Vilama Lakes are complementary habitat patches for these species of flamingo, and for other vulnerable species (e.g., Horned Coot [Fulica cornuta]). This biological information contributed to the design of Vilama National Reserve (160,000 ha) with its 9 lakes under the management category of Natural Monument. The planned Vilama Reserve would contribute to a 3-nation reserve proposal formed by the present Eduardo Avaroa National Wildlife Reserve in Bolivia and Flamingos National Reserve in Chile, thus protecting the whole area of highest conservation value for Andean andJames F","publicationDate":"2000-01-01","doi":"10.2307/1522157","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/7826331a-ffec-49bd-bd0d-73a2b2224895","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Caziani and Derlindati"],"keywords":["Abundance (ecology)","Habitat","Geography","Ecology","Biology"],"topics":["Avian ecology and behavior","Fish Ecology and Management Studies","Wildlife Ecology and Conservation"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2315606122","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.2307/1522157","mag":"2315606122","openalex":"https://openalex.org/W2315606122"},"openalex_open_access_status":null}},{"id":748,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-65.99907132696413,-22.352283872839923]},{"type":"Point","coordinates":[-66.92375122768892,-22.596306104464748]},{"type":"Point","coordinates":[-65.86417503728231,-23.251714687306677]},{"type":"Point","coordinates":[-68.6470323194418,-27.567377859486662]},{"type":"Point","coordinates":[-68.41301038973985,-27.67430297966803]},{"type":"Point","coordinates":[-68.15165578939641,-25.10650213525654]},{"type":"Point","coordinates":[-67.04781827424203,-25.43197346048363]},{"type":"Point","coordinates":[-67.04410997351921,-26.01956889549532]},{"type":"Point","coordinates":[-67.8012213710915,-25.84077716448269]},{"type":"Point","coordinates":[-67.4645062871805,-26.47342531504211]},{"type":"Point","coordinates":[-66.91167061017542,-26.636083008198174]},{"type":"Point","coordinates":[-68.15160428521979,-26.963328303766037]},{"type":"Point","coordinates":[-68.8303778300229,-27.905708743933737]},{"type":"Point","coordinates":[-68.83552824769346,-28.294796732367264]},{"type":"Point","coordinates":[-68.99261598664555,-28.592060037519392]}]},"bbox":[-68.99261598664555,-28.592060037519392,-65.86417503728231,-22.352283872839923],"properties":{"title":"Interannual lake fluctuations in the Argentine Puna: relationships with its associated peatlands and climate change","type":"article","abstract":"High elevation ecosystems are likely more sensitive to climate change. But, due to paucity of instrumental records, such effects are poorly studied, particularly in mountains outside Europe and North America. Here, we quantified water body area fluctuations for the last 32 years in 15 lakes spread over an area of 14.3 million ha in the Argentine Puna, through the classification of Landsat images; and we quantified peatlands NDVI (a proxy of vegetation productivity) from MODIS images. We evaluated the pairwise similarity between lakes interannual fluctuations and their relationship with climate models (TRMM 3B43 v7; CRU TS 4.10) and potential controls (ENSO index); and the correlations between water body area and the NDVI variation of its associated peatlands. Lakes were grouped in two clusters defined by their synchronic water body area variability and these clusters define two main geographic zones: NE and SW. Consistent with previous observations of an overall aridization trend, water body area generally decreased but showed large variability among lakes. Peatlands productivity was more correlated with lake variability than with modeled precipitation, and lake water body area was weakly related to indices of ENSO, providing an additional tool to relate local climate with continental and global climate models. The analysis shows that lake behavior is highly variable spatially and temporally, and that satellite-based monitoring is a valuable tool for assessing ecological conditions of wetlands in the region, characterized by the lack of climatic instrumental records; and to explore the vulnerability of wetlands to climate change.","publicationDate":"2019-01-01","doi":"10.1007/s10113-019-01514-7","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/56aa8093-1e9b-4b97-b256-03c916387f66","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Casagranda","et al."],"keywords":["Peat","Wetland","Cru","Environmental science","Physical geography","Climate change","Normalized Difference Vegetation Index","Precipitation","Lake ecosystem","Vegetation (pathology)","Climatology","Ecosystem","Hydrology (agriculture)","Geography","Ecology","Geology"],"topics":["Peatlands and Wetlands Ecology","Climate variability and models","Hydrology and Watershed Management Studies"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2947164770","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1007/s10113-019-01514-7","mag":"2947164770","openalex":"https://openalex.org/W2947164770"},"openalex_open_access_status":"bronze"}},{"id":747,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-68.30397835688937,-23.539188356282335]}]},"bbox":[-68.30397835688937,-23.539188356282335,-68.30397835688937,-23.539188356282335],"properties":{"title":"Solute inputs in the Salar de Atacama (N. Chile)","type":"article","abstract":"The provenance of saline inputs to the Salar de Atacama has been studied by means of the isotopic composition of sulphates dispersed in drilling core samples and the analysis of the water of surface inflows. The pattern shown by the ratios of 87Sr/86Sr and the isotopic composition of sulphur and oxygen in sulphates, suggests a mixing of two water inputs: one coming from the north-east of the basin, higher in 87Sr/86Sr, d34S and d18O and the other from the south-west, lower in 87Sr/86Sr, d34S and d18O. Analysis of the recent inflows to the Salar have confirmed the existence of two solute sources: northern and eastern inputs show an enrichment in those elements related to hydrothermalism and volcanism, in relation to water present in the west of the basin.","publicationDate":"2000-01-01","doi":"10.1016/s0375-6742(00)00128-x","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/d828f3d0-8f14-42e9-b628-5ceea22fd330","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Carmona etal"],"keywords":["δ34S","δ18O","Provenance","Geology","Structural basin","Sulfur","Plateau (mathematics)","Geochemistry","Isotope analysis","Stable isotope ratio","Oceanography","Geomorphology","Paleontology","Chemistry","Fluid inclusions"],"topics":["Geology and Paleoclimatology Research","Geological and Geophysical Studies Worldwide","Groundwater and Isotope Geochemistry"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2017848704","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1016/s0375-6742(00)00128-x","mag":"2017848704","openalex":"https://openalex.org/W2017848704"},"openalex_open_access_status":null}},{"id":746,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-77.5494870454265,-9.212043719783098]}]},"bbox":[-77.5494870454265,-9.212043719783098,-77.5494870454265,-9.212043719783098],"properties":{"title":"An integrated socio-environmental framework for glacier hazard management and climate change adaptation: lessons from Lake 513, Cordillera Blanca, Peru","type":"book-chapter","abstract":"Glacier hazards threaten societies in mountain regions worldwide. Glacial lake outburst floods (GLOFs) pose risks to exposed and vulnerable populations and can be linked in part to long-term post-Little Ice Age climate change because precariously dammed glacial lakes sometimes formed as glaciers generally retreated after the mid-1800s. This paper provides an interdisciplinary and historical analysis of 40 years of glacier hazard management on Mount Hualcán, at glacial Lake 513, and in the city of Carhuaz in Peru’s Cordillera Blanca mountain range. The case study examines attempted hazard zoning, glacial lake evolution and monitoring, and emergency engineering projects to drain Lake 513. It also analyzes the 11 April 2010 Hualcán rock-ice avalanche that triggered a Lake 513 GLOF; we offer both a scientific assessment of the possible role of temperature on slope stability and a GIS spatial analysis of human impacts. Qualitative historical analysis of glacier hazard management since 1970 allows us to identify and explain why certain actions and policies to reduce risk were implemented or omitted. We extrapolate these case-specific variables to generate a broader socio-environmental framework identifying factors that can facilitate or impede disaster risk reduction and climate change adaptation. Facilitating factors are technical capacity, disaster events with visible hazards, institutional support, committed individuals, and international involvement. Impediments include divergent risk perceptions, imposed government policies, institutional instability, knowledge disparities, and invisible hazards. This framework emerges from an empirical analysis of a coupled social-ecological system and offers a holistic approach for integrating disaster risk reduction and climate change adaptation.","publicationDate":"2012-01-01","doi":"10.1007/978-3-642-31110-9_34","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/ae4ea8c4-1fd0-444b-8218-050d4d94028f","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Carey","et al."],"keywords":["Adaptation (eye)","Vulnerability (computing)","Livelihood","Supply chain","Climate change","Scale (ratio)","Adaptive capacity","Business","Disaster risk reduction","Environmental resource management","Environmental economics","Agriculture","Risk analysis (engineering)","Computer science","Geography","Economics","Marketing","Ecology"],"topics":["Climate change impacts on agriculture","Agricultural Innovations and Practices","Agricultural risk and resilience"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W23057450","openalex_match_info":null,"openalex_fulltext_origin":"book series","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1007/978-3-642-31110-9_34","mag":"23057450","openalex":"https://openalex.org/W23057450"},"openalex_open_access_status":null}},{"id":745,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-77.673074179185,-8.994891179906146]},{"type":"Point","coordinates":[-77.62877095246509,-9.061735050494194]},{"type":"Point","coordinates":[-77.64533187163184,-9.074655406775266]}]},"bbox":[-77.673074179185,-9.074655406775266,-77.62877095246509,-8.994891179906146],"properties":{"title":"Living and dying with glaciers: people's historical vulnerability to avalanches and outburst floods in Peru","type":"article","abstract":"Human populations worldwide are vulnerable to natural disasters. Certain conditions—such as geographical location or people’s income level—can affect the degree to which natural disasters impact people’s homes and livelihoods. This paper suggests that vulnerability to natural disasters increases when local people, scientists, and policymakers do not communicate and trust each other. Additionally, a breakdown in interaction and confidence among these groups can disrupt the implementation of sound science or well-intentioned policies. This case study analyzes how local people, scientists, and government officials responded to glacier hazards in Peru’s Cordillera Blanca mountain range. Cordillera Blanca glacier retreat since the late-19th century has triggered some of the world’s most deadly avalanches and glacial lake outburst floods. Although a Peruvian glaciology and lakes security office has bcontrolledQ 35 Cordillera Blanca glacial lakes, 30 glacier disasters have killed nearly 30,000 people in this region since 1941. A lack of local faith in government officials and scientists as well as the State’s failure to follow scientists’ warnings about potential disasters have endangered or led to the death of thousands of local residents, many of which remain living in hazard zones today","publicationDate":"2005-01-01","doi":"10.1016/j.gloplacha.2004.10.007","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/c3bce904-3319-4308-88e0-12ae7960df00","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Carey"],"keywords":["Glacier","Vulnerability (computing)","Glacial period","Natural hazard","Natural disaster","Geography","Glacial lake","Livelihood","Hazard","Government (linguistics)","Physical geography","Geology","Archaeology","Computer security","Meteorology"],"topics":["Cryospheric studies and observations","Environmental and Cultural Studies in Latin America and Beyond","Landslides and related hazards"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2028206836","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1016/j.gloplacha.2004.10.007","mag":"2028206836","openalex":"https://openalex.org/W2028206836"},"openalex_open_access_status":null}},{"id":744,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-69.088195,-30.999946]},{"type":"Point","coordinates":[-69.12864,-30.929117]},{"type":"Point","coordinates":[-69.083187,-30.978021]},{"type":"Point","coordinates":[-69.098145,-31.009645]},{"type":"Point","coordinates":[-69.081789,-30.949]},{"type":"Point","coordinates":[-69.081462,-30.960349]},{"type":"Point","coordinates":[-69.090186,-31.10412]},{"type":"Point","coordinates":[-69.103407,-31.058843]},{"type":"Point","coordinates":[-69.15360013019148,-31.004488081906285]}]},"bbox":[-69.15360013019148,-31.10411999999999,-69.081462,-30.929117000000005],"properties":{"title":"Guanacos in the Desert Puna: A trade-off between drinking and the risk of being predated","type":"article","abstract":"Habitats vary not only in resource availability and quality but also in predation risk, among other factors. The Desert Puna of Argentina comprises two habitats: the shrub steppe and the vegas. The former, the most abundant habitat, is a topographically simple area with unavailable free water and poor food quality; the latter is a very scarce and topographically complex habitat and with water available year round and high quality food. Guanaco relies heavily on vision to detect predators and narrow and complex habitats would be risky. Hence, we expected that guanacos would use the vegas in lowest proportion and would increase the time devoted to vigilance. Guanacos spent more time in the shrubsteppe than in the vegas, where the highest percentage of vigilant guanacos was recorded. A positive and significant relationship between time devoted to foraging and number of animals per herd was observed in both habitats. In the shrub-steppe the opposite was observed for vigilance, whereas in the vegas, no relationship was observed. Despite the low availability of vegas and the high predation risk, they represent a critical habitat for guanacos in the Desert Puna, because they representing the only areas with free water available throughout year for wildlife.","publicationDate":"2014-01-01","doi":"10.1016/j.jaridenv.2014.04.004","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/b4267518-504b-4351-8219-9c516df88b8f","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Cappa etal"],"keywords":["Habitat","Wildlife","Ecology","Predation","Foraging","Geography","Shrub","Biology"],"topics":["Wildlife Ecology and Conservation","Primate Behavior and Ecology","Animal Behavior and Reproduction"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2040180642","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1016/j.jaridenv.2014.04.004","mag":"2040180642","openalex":"https://openalex.org/W2040180642"},"openalex_open_access_status":"bronze"}},{"id":743,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-67.68282341541898,-23.363157898593403]},{"type":"Point","coordinates":[-68.98710379897014,-18.74813816378782]},{"type":"Point","coordinates":[-67.4101927728356,-23.123291604695382]},{"type":"Point","coordinates":[-67.88379580522096,-22.83405440527514]},{"type":"Point","coordinates":[-67.83732544931337,-22.79413571789342]},{"type":"Point","coordinates":[-67.69300142787559,-23.497749669534908]},{"type":"Point","coordinates":[-67.79437013761336,-22.800478112909538]},{"type":"Point","coordinates":[-67.8829579982505,-22.612983617409768]}]},"bbox":[-68.98710379897014,-23.497749669534908,-67.4101927728356,-18.74813816378782],"properties":{"title":"The High-Lakes Project","type":"book-chapter","abstract":"The High Lakes Project is a multidisciplinary astrobiological investigation studying high-altitude lakes between 4200 m and 6000 m elevation in the Central Andes of Bolivia and Chile. Its primary objective is to understand the impact of increased environmental stress on the modification of lake habitability potential during rapid climate change as an analogy to early Mars. Their unique geophysical environment and mostly uncharted ecosystems have added new objectives to the project, including the assessment of the impact of low-ozone/high solar irradiance in nonpolar aquatic environments, the documentation of poorly known ecosystems, and the quantification of the impact of climate change on lake environment and ecosystem. Data from 2003 to 2007 show that UV flux is 165% that of sea level with maximum averaged UVB reaching 4 W/m2. Short UV wavelengths (260–270 nm) were recorded and peaked at 14.6 mW/m2. High solar irradiance occurs in an atmosphere permanently depleted in ozone falling below ozone hole definition for 33–36 days and between 30 and 35% depletion the rest of the year. The impact of strong UVB and UV erythemally weighted daily dose on life is compounded by broad daily temperature variations with sudden and sharp fluctuations. Lake habitat chemistry is highly dynamical with notable changes in yearly ion concentrations and pH resulting from low and variable yearly precipitation. The year-round combination of environmental variables define these lakes as end-members. In such an environment, they host ecosystems that include a significant fraction of previously undescribed species of zooplankton, cyanobacterial, and bacterial populations.","publicationDate":"2009-01-01","doi":"10.1515/9780791477120-013","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/d2fe7a3d-a1b6-4c13-b8fe-bed815e90cb9","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Cabrol etal"],"keywords":["Cloud computing","Environmental science","Geography","Computer science","Operating system"],"topics":["Atmospheric and Environmental Gas Dynamics","Water Quality and Resources Studies"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W4393016567","openalex_match_info":null,"openalex_fulltext_origin":"ebook platform","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1515/9780791477120-013","openalex":"https://openalex.org/W4393016567"},"openalex_open_access_status":null}},{"id":742,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-79.0211268534874,-2.658331132368594]}]},"bbox":[-79.0211268534874,-2.658331132368594,-79.0211268534874,-2.658331132368594],"properties":{"title":"Models as multiple working hypotheses: hydrological simulation of tropical alpine wetlands","type":"article","abstract":"Tropical alpine grasslands, locally known as p ́ aramos, are the water towers of the northern Andes. They are an essential water source for drinking water, irrigation schemes and hydropower plants. But despite their high socio-economic relevance, their hydrological processes are very poorly understood. Since environmental change, ranging from small scale land-use changes to global climate change, is expected to have a strong impact on the hydrological behaviour, a better understanding and hydrological prediction are urgently needed. In this paper, we apply a set of nine hydrological models of different complexity to a small, well monitored upland catchment in the Ecuadorian Andes. The models represent different hypotheses on the hydrological functioning of the p ́ aramo ecosystem at catchment scale. Interpretation of the results of the model prediction and uncertainty analysis of the model parameters reveals important insights in the evapotranspiration, surface runoff generation and base flow in the p ́ aramo. However, problems with boundary conditions, particularly spatial variability of precipitation, pose serious constraints on the differentiation between model representations.","publicationDate":"2011-01-01","doi":"10.1029/2010wr009827","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/174111b4-75fb-4dd7-8afa-b43728568ed7","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Buytaert","Beven"],"keywords":["Conceptualization","Flexibility (engineering)","Computer science","Process (computing)","Representation (politics)","Fidelity","Management science","Scale (ratio)","Component (thermodynamics)","Data science","Temporal scales","Risk analysis (engineering)","Artificial intelligence","Ecology","Mathematics","Geography","Engineering"],"topics":["Hydrology and Watershed Management Studies","Flood Risk Assessment and Management","Hydrological Forecasting Using AI"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W1537396274","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1029/2010wr009827","mag":"1537396274","openalex":"https://openalex.org/W1537396274"},"openalex_open_access_status":"bronze"}},{"id":741,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-73.79998966609784,4.683763944793046]}]},"bbox":[-73.79998966609784,4.683763944793046,-73.79998966609784,4.683763944793046],"properties":{"title":"Ecology of a paramo cushion mire","type":"article","abstract":"A pollen diagram of a 225 cm long core from a small Plantago rigida cushion mire (Turbera de Calostros) in the grassparamo belt at 3730m altitude in the Paramo de Chingaza, Eastern Cordillera of Colombia, records the last 8500 years of Holocene vegetational history. Three radiocarbon dates (8410 &plusmn; 160 BP, 7230 &plusmn; 1340 BP and 5980 &plusmn; 75 BP) provide a time frame. Pollen of taxa of zonal grassparamo and subparamo vegetation are dominant and pollen of subandean (lower montane) forest elements are overrepresented due to upslope aeolian pollen supply to this high-elevation site. Eight pollen zones were recognized and reflect, on a regional scale, a sequence of altitudinal shifts of the upper forest line (oscillating between 3000-3100 and 3500m) and synchronous changes in the composition of the Andean (upper montane) forest. Based on the radiocarbon dates and using the pollen density record, dates of changes in environmental conditions are estimated c. 8700, 8600, 7800, 7500, 6650, 5200, 300 and 100BP. Correlation with other palaeoecological records from this part of the Eastern Cordillera is discussed. Each pollen zone represents a characteristic phase in the local development of the Plantago rigida mire.","publicationDate":"1993-01-01","doi":"10.2307/3236128","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/8e33bb6f-c28c-4565-8a11-02d47f3fa025","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Bosman","et al."],"keywords":["Mire","Sphagnum","Peat","Bog","Vegetation (pathology)","Canonical correspondence analysis","Ecology","Environmental science","Vegetation type","Biology","Habitat"],"topics":["Peatlands and Wetlands Ecology","Geology and Paleoclimatology Research","Botany and Plant Ecology Studies"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W1988234707","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.2307/3236128","mag":"1988234707","openalex":"https://openalex.org/W1988234707"},"openalex_open_access_status":null}},{"id":740,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-73.79998966609784,4.683763944793046]}]},"bbox":[-73.79998966609784,4.683763944793046,-73.79998966609784,4.683763944793046],"properties":{"title":"Holocene mire development and climatic change from a high Andean Plantago rigida cushion mire","type":"article","abstract":"A pollen diagram of a 225 cm long core from a small Plantago rigida cushion mire (Turbera de Calostros) in the grassparamo belt at 3730m altitude in the Paramo de Chingaza, Eastern Cordillera of Colombia, records the last 8500 years of Holocene vegetational history. Three radiocarbon dates (8410 &plusmn; 160 BP, 7230 &plusmn; 1340 BP and 5980 &plusmn; 75 BP) provide a time frame. Pollen of taxa of zonal grassparamo and subparamo vegetation are dominant and pollen of subandean (lower montane) forest elements are overrepresented due to upslope aeolian pollen supply to this high-elevation site. Eight pollen zones were recognized and reflect, on a regional scale, a sequence of altitudinal shifts of the upper forest line (oscillating between 3000-3100 and 3500m) and synchronous changes in the composition of the Andean (upper montane) forest. Based on the radiocarbon dates and using the pollen density record, dates of changes in environmental conditions are estimated c. 8700, 8600, 7800, 7500, 6650, 5200, 300 and 100BP. Correlation with other palaeoecological records from this part of the Eastern Cordillera is discussed. Each pollen zone represents a characteristic phase in the local development of the Plantago rigida mire.","publicationDate":"1994-01-01","doi":"10.1177/095968369400400302","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/d26630a1-26a2-485a-a069-5808d0c390a2","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Bosman"],"keywords":["Mire","Pollen","Holocene","Geology","Radiocarbon dating","Palynology","Physical geography","Peat","Paleontology","Ecology","Geography","Archaeology"],"topics":["Geological and Tectonic Studies in Latin America","Environmental and Ecological Studies"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2106343035","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1177/095968369400400302","mag":"2106343035","openalex":"https://openalex.org/W2106343035"},"openalex_open_access_status":null}},{"id":739,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-77.42583551284562,-9.779559085889389]},{"type":"Point","coordinates":[-77.52758476012576,-9.756396699235292]}]},"bbox":[-77.52758476012576,-9.779559085889389,-77.42583551284562,-9.756396699235292],"properties":{"title":"A phytoremediation approach using Calamagrostis ligulata and Juncus imbricatus in Andean wetlands of Peru","type":"article","abstract":"Emergent plant species growing in Andean natural wetlands have shown efficient phytoremediation capabilities in wetlands polluted by acid mine drainage. However, the types and amounts of heavy metals accumulated by native plant species are not well understood. In this study, we focused on determining heavy metal concentrations and bioaccumulation factors in Calamagrostis ligulata and Juncus imbricatus. Two acid wetlands located above 3,500 m a.s.l. in Ancash, Peru were assessed. Physico-chemical parameters and heavy metals concentrations in control and experimental plant samples were measured in dry and rainy seasons. Results indicated that C. ligulata and J. imbricatus aerial parts accumulated higher amounts of Fe, Zn, As and Al. Also, bioaccumulation factors revealed notable increases in As, Pb and Al, but less so in Cd, Fe and Zn. On the other hand, physico-chemical parameters of water quality (pH, temperature, dissolved oxygen, sulphides) between inflow and outflow of wetlands indicated significant differences in the presence of metals in comparison with their maximum permissible limits. Both emergent plant species showed an accumulation of heavy metals and thus the ability to recovery of water quality in wetland outflows.","publicationDate":"2013-01-01","doi":"10.1007/s13157-013-0407-z","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/0bcf57bb-38e3-4c1f-a66a-0592ed2b7ae2","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Bobadilla","et al."],"keywords":["Topsoil","Subsoil","Soil carbon","Chemistry","Litter","Agronomy","Sanjiang Plain","Soil organic matter","Environmental chemistry","Marsh","Animal science","Environmental science","Soil water","Wetland","Ecology","Biology","Soil science"],"topics":["Peatlands and Wetlands Ecology","Soil Carbon and Nitrogen Dynamics","Agriculture, Soil, Plant Science"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W1990911352","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1007/s13157-013-0407-z","mag":"1990911352","openalex":"https://openalex.org/W1990911352"},"openalex_open_access_status":null}},{"id":738,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-71.13021416900283,-16.36822838931928]}]},"bbox":[-71.13021416900283,-16.36822838931928,-71.13021416900283,-16.36822838931928],"properties":{"title":"Using Foresight to Gain a Local Perspective on the Future of Ecosystem Services in a Mountain Protected Area in Peru","type":"article","abstract":"Ecosystem services in the mountainous Salinas and Aguada Blanca National Reserve in Peru are under pressure, and perspectives on possible solutions depend on the different stakeholders’ understanding of these services and their interests in them. We describe the application of the foresight approach to integrate various stakeholders’ perspectives on the future of ecosystem services in the reserve. Ultimately, the purpose of this approach is to achieve an inclusive and viable plan for conservation and management of existing resources. The participatory analysis provided local people’s perceptions of bofedal (wetland) and tolar (shrubland) ecosystem services, as well as their assessment of likely scenarios for the future. We identified 2 important factors in the hypotheses the local people provided: extreme events such as water scarcity and drought, and participation of the private sector in water distribution. Participants estimated that water storage and fuel for cooking were likely to have the strongest effects on current and future ecosystem services. Based on this, we jointly developed hypotheses using a stepwise approach and used software to calculate probabilities in a systematic way and produce a series of scenarios. The likelihood of these scenarios was also assessed by groups of stakeholders, yielding 5 scenarios for consideration in designing management plans. Future scenarios are highly dependent on proper management of the bofedal. We conclude that foresight helps to involve local people better in the process of developing viable strategies for the future of the reserve and for the conservation of the natural resources that it harbors.","publicationDate":"2018-01-01","doi":"10.1659/mrd-journal-d-17-00090.1","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/eb3bca99-4b4b-4357-8d7a-421638258ba1","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Blancas","et al."],"keywords":["Ecosystem services","Futures studies","Environmental resource management","Business","Ecosystem","Scenario analysis","Environmental planning","Environmental economics","Environmental science","Ecology","Computer science","Economics"],"topics":["Land Use and Ecosystem Services","Conservation, Biodiversity, and Resource Management","Economic and Environmental Valuation"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2896018625","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1659/mrd-journal-d-17-00090.1","mag":"2896018625","openalex":"https://openalex.org/W2896018625"},"openalex_open_access_status":"gold"}},{"id":737,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-72.28933653568669,6.497502517174405]},{"type":"Point","coordinates":[-72.27844191689233,6.476974101837528]},{"type":"Point","coordinates":[-75.34265794082854,4.859408811500626]}]},"bbox":[-75.34265794082854,4.859408811500626,-72.27844191689233,6.497502517174405],"properties":{"title":"The influence of climate change on recent peat accumulation patterns of Distichia muscoides cushion bogs in the high-elevation tropical Andes of Colombia","type":"article","abstract":"extensive cushions of Distichia muscoides found at high elevations in the Andes form deep deposits of peat and function as peatland. The location of Distichia peatlands at the highest elevations makes them susceptible to the effects of global change including global warming. Accumulation rates of organic matter are the key function of peatland ecosystems and are highly susceptible to changes in climate. This study used 210Pb chronologies to infer the recent dynamics of three Distichia muscoides peatlands located above 4000 m in elevation. Chronological markers from dated volcanic eruptions were correlated to the 210Pb chronologies of Distichia peat and validated the 210Pb chronologies. Changes in 210Pb activity with depth indicated rapid accumulation in recent times. Organic matter had a mean accumulation rate of 1400 g m_x0001_2 yr_x0001_1 during the past 10 years, with values well above the observed regional accumulation rate of 300–400 g m_x0001_2 yr_x0001_1. The same pattern was observed in peat accretion rates, with growth rates of 1–2 cm per year during the last 10 years. Cushion plants engineer their own environment, allowing the system to be less susceptible to direct changes in climate. However, the high rates of peat accretion in recent times may be originated from increasing temperatures and excess water from nearby glacier melt. However, glaciers are predicted to disappear during the next 20 years in the northern Andes, reducing water inputs in tropical high-elevation ecosystems.","publicationDate":"2013-01-01","doi":"10.1002/2013jg002419","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/1a528093-02cd-4b7c-a2e8-f80168a31f55","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Benavides","et al."],"keywords":["Peat","Glacier","Climate change","Physical geography","Geology","Ecosystem","Bog","Global warming","Water table","Elevation (ballistics)","Accretion (finance)","Environmental science","Organic matter","Hydrology (agriculture)","Ecology","Geomorphology","Oceanography","Geography","Groundwater"],"topics":["Peatlands and Wetlands Ecology","Geology and Paleoclimatology Research","Coastal wetland ecosystem dynamics"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W1558632136","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1002/2013jg002419","mag":"1558632136","openalex":"https://openalex.org/W1558632136"},"openalex_open_access_status":"bronze"}},{"id":736,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-75.0,0.0]},{"type":"Point","coordinates":[-72.661910048034,7.358248889913305]},{"type":"Point","coordinates":[-72.68569691130482,6.611848085623589]},{"type":"Point","coordinates":[-72.29792881479,6.452236825569937]},{"type":"Point","coordinates":[-73.43069020889213,5.65052100787539]},{"type":"Point","coordinates":[-73.27755347966955,5.150574627178138]},{"type":"Point","coordinates":[-73.59621299709595,5.379153715650078]},{"type":"Point","coordinates":[-74.01846500781996,5.180413769269302]},{"type":"Point","coordinates":[-73.76511380138551,4.485668460958033]},{"type":"Point","coordinates":[-74.19074382819532,4.260467388571881]},{"type":"Point","coordinates":[-74.28645428395944,4.24470331350485]},{"type":"Point","coordinates":[-74.2188939622436,4.093818595006131]},{"type":"Point","coordinates":[-75.33589128127889,4.933818595006463]},{"type":"Point","coordinates":[-75.34827734026014,4.803201973022497]},{"type":"Point","coordinates":[-75.30661514186869,4.646687227714123]},{"type":"Point","coordinates":[-75.50929610701623,6.709529050771242]},{"type":"Point","coordinates":[-75.6770709059439,6.604810552111683]},{"type":"Point","coordinates":[-75.64216473972405,6.455051838974894]},{"type":"Point","coordinates":[-75.26270093275336,5.150011624497167]},{"type":"Point","coordinates":[-76.50581085232487,4.028510284014144]}]},"bbox":[-76.50581085232487,0.0,-72.29792881479,7.3582488899133045],"properties":{"title":"Response curves and the environmental limits for peat-forming species in the northern Andes","type":"article","abstract":"Peatlands, with organic soils, are usually dominated by one or a few species. Above and belowground ecological processes are regulated by the characteristics of the dominant species in the peat. Understanding how these species relate to climatic or water chemistry gradients will help to predict the fate of those ecosystems under current climate change. The patterns of abundance and occurrence of 12 major peat-forming species from different structural plant groups were quantified along gradients of elevation, precipitation, and water chemistry. The species were distributed in four major structural groups: cushion plants, true mosses, sedges, and Sphagnum mosses. A response curve for each species was built with Generalized Additive Models. Niche breadths, species tolerances, and species optima were estimated using bootstrap resampling. Our results showed that species were limited in their elevational ranges; Sphagnum species were biased toward low to intermediate elevations, sedges, and true mosses to intermediate elevations and cushion plants to very high elevations. Sphagnum species were more likely to occur in sites with low precipitation, while sedges preferred wet sites. Sphagnum species preferred habitats with acidic pH. The species tolerances and optimum distributions are an indication to the vulnerability of the species to changes in their environment. Species with limited tolerances are more vulnerable, such as the narrow elevational distribution of cushion plants or the low pH and narrow tolerances observed for Sphagnum species. Climate and hydrological changes will very possibly affect the distribution of those species forcing changes on ecosystem functioning.","publicationDate":"2014-01-01","doi":"10.1007/s11258-014-0346-7","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/3802f2db-3066-4ce3-9067-9df43d88675c","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Benavides","Vitt"],"keywords":["Sphagnum","Peat","Ecology","Ombrotrophic","Species distribution","Abundance (ecology)","Ecosystem","Indicator species","Environmental science","Bog","Biology","Habitat"],"topics":["Peatlands and Wetlands Ecology","Coastal wetland ecosystem dynamics","Botany and Plant Ecology Studies"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2048154645","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1007/s11258-014-0346-7","mag":"2048154645","openalex":"https://openalex.org/W2048154645"},"openalex_open_access_status":null}},{"id":735,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-73.431,5.69318]},{"type":"Point","coordinates":[-73.43,5.69245]},{"type":"Point","coordinates":[-73.431,5.69396]},{"type":"Point","coordinates":[-73.432,5.69373]},{"type":"Point","coordinates":[-73.431,5.69476]},{"type":"Point","coordinates":[-73.429,5.69317]},{"type":"Point","coordinates":[-73.424,5.69772]},{"type":"Point","coordinates":[-73.432,5.69528]},{"type":"Point","coordinates":[-73.424,5.69939]},{"type":"Point","coordinates":[-73.423,5.69838]},{"type":"Point","coordinates":[-73.426,5.70092]},{"type":"Point","coordinates":[-73.425,5.70004]},{"type":"Point","coordinates":[-73.426,5.70307]},{"type":"Point","coordinates":[-73.426,5.70215]},{"type":"Point","coordinates":[-73.44,5.68906]},{"type":"Point","coordinates":[-73.439,5.68963]},{"type":"Point","coordinates":[-73.439,5.69247]},{"type":"Point","coordinates":[-73.439,5.69092]},{"type":"Point","coordinates":[-73.439,5.69342]},{"type":"Point","coordinates":[-73.44,5.69087]},{"type":"Point","coordinates":[-73.426,5.69817]},{"type":"Point","coordinates":[-73.425,5.69898]},{"type":"Point","coordinates":[-73.426,5.70481]},{"type":"Point","coordinates":[-73.426,5.69801]},{"type":"Point","coordinates":[-73.428,5.70706]},{"type":"Point","coordinates":[-73.428,5.71151]}]},"bbox":[-73.44,5.6890599999999925,-73.423,5.711510000000001],"properties":{"title":"The effect of drainage on organic matter accumulation and plant communities of high-altitude peatlands in the Colombian tropical Andes","type":"article","abstract":"The tropical Andes store and regulate water outflow that serves nearly 60 million people. Most of the water is for un-managed agricultural irrigation. In this work I report how the drainage of peatlands has adversely affected the development of plant communities and recent carbon accumulation in a páramo massif at 2500 to 3800 m altitude in the northern Andes. I surveyed vegetation and water chemistry in 26 peatlands with differing intensities of drainage. Peat cores to 50 cm from two sites with contrasting drainage histories were dated using 210Pb, and used to compare historical vegetation changes and carbon accumulation rates. (A) Species composition was much affected by drainage, which resulted in a reduction in cover of Sphagnum and other peat-forming species, and the encroachment of sedges and Juncus effusus. The ability of peat to store water and carbon was also reduced in drained peatlands. Vegetation records show a shift towards sedge-Juncus communities around 50 years ago when agricultural use of water increased. (B) Peat and carbon accumulation rates were lower in drained sites, indicating either greater decomposition rates of the upper peat column or lower production by the changed plant communities. The ecological services offered by peatlands to agrarian communities downstream are important. Measures to prevent peatland destruction are needed urgently.","publicationDate":"2014-01-01","doi":"10.19189/001c.128510","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/727a0a67-6a07-4388-b9d0-08c9814c6660","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Benavides"],"keywords":["Peat","Altitude (triangle)","Drainage","Environmental science","Organic matter","Hydrology (agriculture)","Physical geography","Geography","Agroforestry","Geology","Ecology","Biology","Archaeology"],"topics":["Peatlands and Wetlands Ecology"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W4301265300","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.19189/001c.128510","openalex":"https://openalex.org/W4301265300"},"openalex_open_access_status":"diamond"}},{"id":734,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-69.83902836166386,-32.64444694656113]},{"type":"Point","coordinates":[-69.89807506305972,-32.638685314616]},{"type":"Point","coordinates":[-69.83832758312651,-32.63050176698046]}]},"bbox":[-69.89807506305972,-32.64444694656113,-69.83832758312651,-32.63050176698046],"properties":{"title":"Short-Term Effects of Pack Animal Grazing Exclusion from Andean Alpine Meadows","type":"article","abstract":"Grazing by livestock can have positive, neutral, and/or negative effects on vegetation depending on the intensity and type of grazing. This includes grazing by pack animals used for tourism in mountain protected areas. We assessed the response of vegetation to the exclusion of grazing by pack animals over one growing season in the highest park in the Southern Hemisphere, Aconcagua Provincial Park, dry Central Andes. Twenty pairs of exclosures and unfenced quadrats were established in three high-altitude Andean alpine meadows that are intensively grazed by horses and mules used by commercial operators to transport equipment for tourists. Vegetation parameters, including height, cover, and composition were measured in late spring when exclosures were established and ~120 days later at the end of the growing season along with above-ground biomass. Data was analyzed using mixed models and ordinations. Vegetation responded rapidly to the removal of grazing. Vegetation in exclosures was more than twice as tall, had 30% more above-ground biomass, a greater cover of grasses including the dominant Deyeuxia eminens, and less litter than grazed quadrats. These changes in the vegetation from short-term exclusion of grazing are likely to increase the habitat quality of the meadows for native wildlife.","publicationDate":"2014-01-01","doi":"10.1657/1938-4246-46.2.333","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/8fb5e365-e877-49b9-aa53-f2f6643a6039","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Barros","et al."],"keywords":["Grazing","Vegetation (pathology)","Quadrat","Exclosure","Biomass (ecology)","Grazing pressure","Ecology","Geography","Environmental science","Livestock","Grassland","Forestry","Biology","Shrub"],"topics":["Wildlife Ecology and Conservation","Ecology and Vegetation Dynamics Studies","Rangeland and Wildlife Management"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2059698574","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1657/1938-4246-46.2.333","mag":"2059698574","openalex":"https://openalex.org/W2059698574"},"openalex_open_access_status":"bronze"}},{"id":733,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-69.22392099735556,-18.188672848013784]}]},"bbox":[-69.22392099735556,-18.188672848013784,-69.22392099735556,-18.188672848013784],"properties":{"title":"Evolution of High Andean Puna Ecosystems: Environment, Climate, and Culture Change over the Last 12,000 Years in the Central Andes","type":"article","abstract":"In the High Andes, much of the traditional knowledge related to natural resource utilization and agricultural practices was lost with the arrival of the Spaniards. That which has survived has been transformed, together with the landscape. Based upon ongoing research on the paleoecology and archaeology of the central High Andes, this paper presents the first results of pollen analysis from late-Pleistocene/early Holocene Laguna Seca (latitude 18'11' South, longitude 69\"14'30\" West) in the ChungaraCotacotani lake district of Lauca National Park. The Laguna Seca record covers two crucial events in the evolution of high Andean puna ecosystems: (1) the period preceding the earliest human occupation, and (2) the period of change from a food-gathering to a food-producing economy. The results, though preliminary, indicate the contribution that these studies can make to the management and preservation of fragile mountain ecosystems.","publicationDate":"1993-01-01","doi":"10.2307/3673632","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/a88d9783-0606-4bb9-a6ec-35610f9172e5","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Baied","Wheeler"],"keywords":["Ecosystem","Geography","Climate change","Physical geography","Ecology","Biology"],"topics":["Environmental and Cultural Studies in Latin America and Beyond","Archaeology and ancient environmental studies","Pleistocene-Era Hominins and Archaeology"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2328293359","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.2307/3673632","mag":"2328293359","openalex":"https://openalex.org/W2328293359"},"openalex_open_access_status":null}},{"id":732,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[-70.01349012137493,-33.79317602586782]},{"type":"Point","coordinates":[-70.00415854900943,-33.79947368800611]},{"type":"Point","coordinates":[-70.00351499229457,-33.803358012463654]}]},"bbox":[-70.01349012137493,-33.803358012463654,-70.00351499229457,-33.79317602586782],"properties":{"title":"Monitoring Andean high altitude wetlands in central Chile with seasonal optical data: A comparison between Worldview-2 and Sentinel-2 imagery","type":"article","abstract":"In the Maipo watershed, situated in central Chile, mining activities are impacting high altitude Andean wetlands through the consumption and exploitation of water and land. As wetlands are vulnerable and particularly susceptible to changes of water supply, alterations and modifications in the hydrological regime have direct effects on their ecophysiological condition and vegetation cover. The aim of this study was to evaluate the potential of Worldview-2 and Sentinel-2 sensors to identify and map Andean wetlands through the use of the one-class classifier Bias support vector machines (BSVM), and then to estimate soil moisture content of the identified wetlands during snow-free summer using partial least square regression.\nThe results obtained in this research showed that the combination of remote sensing data and a small sample of ground reference measurements enables to map Andean high altitude wetlands with high accuracies. BSVM was capable to classify the meadow areas with an overall accuracy of over ∼78% for both sensors. Our results also indicate that it is feasible to map surface soil moisture with optical remote sensing data and simple regression approaches in the examined environment. Surface soil moisture estimates reached r2 values of up to 0.58, and normalized mean square errors of 19% using Sentinel-2 data, while Worldview-2 estimates resulted in non-satisfying results. The presented approach is particularly valuable for monitoring high-mountain wetland areas with limited accessibility such as in the Andes.","publicationDate":"2018-01-01","doi":"10.1016/j.isprsjprs.2018.04.001","url":"https://andes.mountain-wetlands-repository.info/api/v1/items/71bbf73d-4811-40bd-ac3a-b4b3ebd69a77","timeperiod_startdate":null,"timeperiod_enddate":null,"placename":null,"country_code":null,"source_details":{"id":7,"name":"Mountain Wetlands Repository","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":"Mountain Wetlands Repository (MaRESS)","works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Araya Lopez","et al."],"keywords":["Wetland","Environmental science","Altitude (triangle)","Watershed","Remote sensing","Hydrology (agriculture)","Vegetation (pathology)","Land cover","Water content","Physical geography","Land use","Geography","Ecology","Geology"],"topics":["Soil Moisture and Remote Sensing","Remote Sensing in Agriculture","Soil erosion and sediment transport"],"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":"https://openalex.org/W2797446964","openalex_match_info":null,"openalex_fulltext_origin":"journal","openalex_is_retracted":false,"openalex_ids":{"doi":"https://doi.org/10.1016/j.isprsjprs.2018.04.001","mag":"2797446964","openalex":"https://openalex.org/W2797446964"},"openalex_open_access_status":null}},{"id":18,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Polygon","coordinates":[[[7.849731445312501,50.94804539355076],[8.135375976562502,50.90649688226162],[8.388061523437502,51.07937094724242],[8.651733398437502,51.16212186002124],[8.486938476562502,51.2928411273273],[8.695678710937502,51.51216124955517],[8.610534667968752,51.6469983484713],[8.324890136718752,51.681070878869825],[7.962341308593751,51.64018076739535],[7.775573730468751,51.56170488911645],[7.748107910156251,51.31516382328001],[7.594299316406251,51.29455864325789],[7.759094238281251,51.04657442107223],[7.849731445312501,50.94804539355076]]]}]},"bbox":[7.594299316406251,50.90649688226162,8.695678710937502,51.681070878869825],"properties":{"title":"The Digitalization of Local Owner-Operated Retail Outlets: How environmental and organizational factors drive the use of digital tools and applications","type":"article","abstract":"The digitalization of the retail industry is a disruptive innovation process which endangers the very existence of Local Owner Operated Retail Outlets (LOOROs). Despite the manifold digital options to regain competitive power, LOOROs struggle in their digital transformation and persist often in their traditional business behaviour. As their customers get more and more used to buying via digital channels, they more and more expect the provision of digital services. This paper and the presented survey among 223 LOORO owners from 26 cities in Germany aim to understand why the LOOROs are so hesitant. Our findings show high insecurity among LOOROs about what to do and where to begin the digitalization route. The owners of LOOROs are often decoupled from their near and far business environment. This leads to a wrong self-assessment and implies the risk that the services provided do neither match the competitive environment nor customer expectations.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/41","timeperiod_startdate":["2016-05-01"],"timeperiod_enddate":["2016-07-31"],"placename":"Sundern, Hochsauerlandkreis, North Rhine-Westphalia, Germany","country_code":"DE","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Bollweg","Lars"],"keywords":["TIB"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":17,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Polygon","coordinates":[[[14.7658159,51.359064],[14.7658159,53.5590907],[11.2657725,53.5590907],[11.2657725,51.359064],[14.7658159,51.359064]]]}]},"bbox":[11.2657725,51.359064,14.7658159,53.5590907],"properties":{"title":"German Renewable Energy Policies and Their Implications for Local Land Use – Maize for Biogas From 2008 - 2018 in Brandenburg","type":"article","abstract":"This study investigates the spatiotemporal dynamics of maize cultivation for biogas production in Brandenburg, Germany, from 2008 to 2018, employing a spatially explicit multicriteria analysis. By combining plot-level land-use data from the Integrated Administration and Control System (IACS) with biogas pnt information, we analyze the likelihood of maize cultivation for biogas at the plot level and find that maize for biogas accounts for over 5% of the total arable land in Brandenburg. We identify patterns of high concentration, particularly in the northwest of the region. The analysis also reveals a steady increase in maize cultivation, aligning with regulatory changes in the Renewable Energy Sources Act (EEG). These findings offer valuable insights into the spatial patterns and drivers of biogas maize production, providing a basis for future environmental and economic research. The study highlights the need for plot-level information to evaluate the effects of renewable energy policies on local land use.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/40","timeperiod_startdate":["2008-01-01"],"timeperiod_enddate":["2018-12-31"],"placename":"Potsdam, Brandenburg, Germany","country_code":"DE","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Lakes","Tobia"],"keywords":["TIB"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":16,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[]},"properties":{"title":"A shape-based heuristic for the detection of urban block artifacts in street networks","type":"article","abstract":"Street networks are ubiquitous components of cities, guiding their development and enabling movement from place to place; street networks are also the critical components of many urban analytical methods. However, their graph representation is often designed primarily for transportation purposes. This representation is less suitable for other use cases where transportation networks need to be simplified as a mandatory pre-processing step, e.g., in the case of morphological analysis, visual navigation, or drone flight routing. While the urgent demand for automated pre-processing methods comes from various fields, it is still an unsolved challenge. In this article, we tackle this challenge by proposing a cheap computational heuristic for the identification of ``face artifacts, i.e., geometries that are enclosed by transportation edges but do not represent urban blocks. The heuristic is based on combining the frequency distributions of shape compactness metrics and area measurements of street network face polygons. We test our method on 131 globally sampled large cities and show that it successfully identifies face artifacts in 89% of analyzed cities. Our heuristic of detecting artifacts caused by data being collected for another purpose is the first step towards an automated street network simplification workflow. Moreover, the proposed face artifact index uncovers differences in structural rules guiding the development of cities in different world regions.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/39","timeperiod_startdate":[null],"timeperiod_enddate":[null],"placename":null,"country_code":null,"source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Fleischmann","Martin"],"keywords":["JOSIS"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":15,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Polygon","coordinates":[[[107.6349989,13.9096752],[107.6349989,22.5086717],[100.0843247,22.5086717],[100.0843247,13.9096752],[107.6349989,13.9096752]]]}]},"bbox":[100.0843247,13.9096752,107.6349989,22.5086717],"properties":{"title":"Goods and Ethnicity: Trade and Bazaars in Laos from a Gift Perspective; A Discussion","type":"article","abstract":"Drawing on ethnographic observations in Lao markets and bazaars, this article proposes a new and experimental framework for the analysis of multi-ethnic trading. It explores bazaars and trade as sites of the (re-)production of ethnicity through the perspective of gift exchange theory. On markets, transcultural differences can be identified and stabilized through the exchange of goods and money. This draws attention to the role of trade items as foci – and perhaps even as non-human agents – in the emergence of ethnicity and other forms of local identity. The value of items’ specific origins is thus linked to social structure. This helps us to see how the shaping of group identity can be better understood by considering how the goods they bring to market carry with them some features of the gift.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/34","timeperiod_startdate":[null],"timeperiod_enddate":[null],"placename":"Mueang Bueng Kan District, Thailand","country_code":"TH","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Sprenger","Guido"],"keywords":["heiJOURNALS"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":14,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"LineString","coordinates":[[8.356475830078127,49.65029270174143],[6.671447753906251,49.78569757629149],[5.884552001953126,48.68597418988793],[6.197662353515625,48.64606680622687],[7.586059570312501,47.57837853860192],[9.177703857421877,47.65660048985082],[9.989318847656252,48.40823770414508],[10.86822509765625,48.36081156428019],[12.076721191406252,49.00995159747052],[8.258972167968752,50.01568168937738]]}]},"bbox":[5.884552001953126,47.57837853860192,12.076721191406252,50.01568168937738],"properties":{"title":"Herrschaft vom Pferderücken – Reisekönigtum zur Zeit Heinrichs IV.","type":"article","abstract":"Die Hauptstadt und das Land gehören für moderne Menschen untrennbar zusammen. Eines geht ohne das andere nicht. Bereits in der Grundschule lernen wir die entsprechenden Begriffspaare auswendig. In Hauptstädten wird Politik gemacht, sie sind die Schaltzentrale ihres Landes und der Ort, an dem das Parlament, viele wichtige Ministerien sowie ausländische Konsulate und Botschaften zu finden sind; meistens in einem eigenen Regierungsviertel. Für uns ist die Hauptstadt heute selbstverständlich ein Synonym für das Zentrum der Macht und für diejenigen, die politische Entscheidungen treffen. Demnach „entscheidet Berlin“, man fragt, „was Washington eigentlich denkt“, „welche Zusicherungen Moskau gemacht hat“ und was „Peking dazu sagt“.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/33","timeperiod_startdate":["1065-01-01"],"timeperiod_enddate":["1065-12-31"],"placename":"Ulm, Baden-Württemberg, Germany","country_code":"DE","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Tschiedel","Torben"],"keywords":["UNIMS e-Journals"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":13,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[121.34369641542438,-3.911831854458216]}]},"bbox":[121.34369641542438,-3.9118318544582156,121.34369641542438,-3.9118318544582156],"properties":{"title":"Survival of the brightest: pIRIR dating of volcanic sediments in Sulawesi, Indonesia, using micro-aliquots of K-rich feldspar","type":"article","abstract":"Volcanic sediments are challenging to date with luminescence-based methods. Both main minerals used for dating—quartz and K-rich feldspar—commonly have suboptimal luminescence properties when of volcanic origins, primarily a low signal intensity and, for K-rich feldspars, high rates of anomalous fading. The present work provides a case study of the Leang Bulu Bettue (LBB) archaeological site in Indonesia, a key site in our understanding of the early human occupation of the island of Sulawesi, showing that currently available state-of-the-art methods can provide robust chronologies for volcanic sediments. Through various reliability tests, we establish the suitability of a post-IR IR stimulated luminescence (pIRIR) standardised growth curve (SGC) procedure for De estimation of ‘micro-aliquots’ containing 5–10 grains of K-rich feldspar and apply these methods together with dose rate estimates to determine 10 new reliable finite ages for the sedimentary deposits at LBB. Further, by applying the LnTn method to circumvent truncation of the De distribution caused by the non-linearity of the dose response curve in the higher dose range, we could extend the site’s chronology to span ~20–210 ka. The new chronology is in keeping with previous radiocarbon and U-series ages for the site’s upper layers. We show that the low fading rate of micro-aliquots relative to using large aliquots composed of hundreds of grains lies in a brightness-based selection. By targeting bright grains with low fading rates, the need for fading corrections is greatly reduced and they can be made with a smaller uncertainty propagated through into the final age estimate, resulting in optical ages of improved accuracy and precision for volcanic sediments.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/32","timeperiod_startdate":[null],"timeperiod_enddate":[null],"placename":"Kolaka, Sulawesi, Southeast Sulawesi, Indonesia","country_code":"ID","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Sontag-González","Mariana"],"keywords":["EarthArXiv"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":12,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Polygon","coordinates":[[[8.300314,56.5631286],[8.300314,56.6031286],[8.260314,56.6031286],[8.260314,56.5631286],[8.300314,56.5631286]]]}]},"bbox":[8.260314,56.5631286,8.300314,56.6031286],"properties":{"title":"Beach-ridge formation as a possible indicator for an open Limfjord – North Sea connection","type":"article","abstract":"Raised beach ridges are prograded sequences of wave-built deposits that may provide valuable information about past relative sea-level changes, climate change and coastal evolution. In the Limfjord in northern Denmark, the Early and Middle Holocene sea-level changes are well-constrained. However, our understanding of Late Holocene sea-level fluctuations is limited, and the exact period when the coastal barrier between the Limfjord and the North Sea formed remains uncertain. In this study, we use optically stimulated luminescence (OSL) dating to determine the age of raised beach ridges at Gjellerodde in the western part of the Limfjord. The OSL ages presented here indicate that the beach ridges formed during three periods at 3.3–2.7, 1.4–1.0, 0.2–0.1 ka. In addition our data suggest a&nbsp;c.&nbsp;0.2 mm/yr relative sea-level fall during the Late Holocene. The three distinct periods of beach-ridge formation coincide with periods when the Limfjord was open towards the North Sea as documented in historical records and marine records. This suggests that OSL dating of beach ridges can be used as a potential indicator for determining when the connection between the Limfjord and the North Sea was open in the Late Holocene.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/31","timeperiod_startdate":[null],"timeperiod_enddate":[null],"placename":"Central Denmark Region, Denmark","country_code":"DK","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Freiesleben","Trine"],"keywords":["GEUS Bulletin"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":11,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Polygon","coordinates":[[[25.4878919,36.3321735],[25.4878919,36.482206],[25.3538553,36.482206],[25.3538553,36.3321735],[25.4878919,36.3321735]]]}]},"bbox":[25.3538553,36.3321735,25.4878919,36.482206],"properties":{"title":"A record of magmatic differentiation in plutonic xenoliths from Santorini (Greece)","type":"article","abstract":"Plutonic xenoliths from volcanic arcs provide unique insights into transcrustal magmatic systems in subduction zone settings. At Santorini volcano in the Central Aegean Volcanic Arc (Greece), plutonic xenoliths occur throughout a sequence of lavas and pyroclastic rocks erupted within the last ~360 ka. They are mineralogically variable, ranging from troctolites to olivine gabbros, gabbros, gabbronorites, and diorites. Thermobarometric calculations based on mineral and melt inclusion compositions indicate equilibration over a range of temperatures (1100 to 750 °C) at shallow to mid-crustal depths (P &lt;400 MPa), but there is no evidence for crystallisation at lower crustal depths. Oxygen isotope data of mineral separates and calculated δ18O melt values are in line with extensive closed-system fractional crystallisation at magmatic temperatures, without a requirement for extensive assimilation of the subvolcanic continental basement. The xenolith minerals compositionally overlap with phenocrysts from the volcanic rocks, but they also contain evidence for the presence of highly evolved melt compositions in the form of melt inclusions with extremely silica-rich compositions (up to 82 wt.% SiO2) and high enrichments of incompatible trace elements coupled with increasing negative Eu anomalies in clinopyroxenes. Since these characteristics correlate systematically with differentiation indices and rock type, they are interpreted to reflect melt evolution via fractional crystallisation as the dominant differentiation process with no significant role of reactive porous flow. These observations highlight that trapped melt fractions can influence mineral compositional variations in the plutonic xenoliths, and in turn the mineral compositions demonstrate a melt compositional variability not preserved in the volcanic rock record.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/30","timeperiod_startdate":[null],"timeperiod_enddate":[null],"placename":"Thira Regional Unit, South Aegean, Greece","country_code":"GR","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Whitley","Sean"],"keywords":["Volcanica"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":10,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Polygon","coordinates":[[[24.145783,49.0020468],[24.145783,55.03605],[14.0696389,55.03605],[14.0696389,49.0020468],[24.145783,49.0020468]]]}]},"bbox":[14.0696389,49.0020468,24.145783,55.03605],"properties":{"title":"Analysis of the Housing Market Dynamics Using NARX Neural Network","type":"article","abstract":"This study employs a Nonlinear Autoregressive with&nbsp;eXogenous inputs (NARX) neural network to model the&nbsp;dynamics of the housing construction market in Poland,&nbsp;with a distinction made between segments of developers&nbsp;and individual investors. The dataset under analysis&nbsp;contains the 19-year data corresponding to the numbers&nbsp;of housing units approved for construction, under&nbsp;construction, and completed. The NARX model was&nbsp;calibrated thoroughly to suit unique characteristics of&nbsp;the data, with an emphasisputon the hidden layer size&nbsp;and delay parameters, to capture the estate market's&nbsp;nonlinear trends. Results show a very high efficiency of&nbsp;NARX models and highlight distinct patterns and&nbsp;dynamics in the housing completion, construction starts,&nbsp;and permit issuance between the two market segments.&nbsp;These variations are vital&nbsp;for understanding the distinct&nbsp;forces and trends shaping the developers’ and individual&nbsp;investors’ markets in the Polish housing sector. Findings&nbsp;of the analysis provide valuable insight into the nuanced&nbsp;functioning of these market segments.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/29","timeperiod_startdate":["2005-01-01"],"timeperiod_enddate":["2023-12-31"],"placename":"Mniszki, Łęczyca County, Łódź Voivodeship, Poland","country_code":"PL","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Wotzka","Daria"],"keywords":["ZHB Luzern"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":9,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Polygon","coordinates":[[[91.8316161632538,24.915445949712083],[91.83159470558168,24.91367502086905],[91.83187365531923,24.913713942655342],[91.83157324790956,24.911514842475945],[91.83256030082704,24.91096992663671],[91.832731962204,24.912410056129527],[91.83316111564636,24.912410056129527],[91.83382630348206,24.914920511938842],[91.83423399925232,24.914959433332147],[91.83479189872743,24.917294694454615],[91.83473825454713,24.920476416570708],[91.83902978897095,24.925769374845814],[91.83958768844606,24.926353143096243],[91.84091806411745,24.926353143096243],[91.84027433395387,24.929116275307],[91.83744192123415,24.929077358381914],[91.83624029159546,24.928571437237952],[91.83722734451295,24.927053661348005],[91.83641195297243,24.92650881416285],[91.83486700057983,24.927481753875647],[91.83332204818727,24.927481753875647],[91.83151960372926,24.92650881416285],[91.82744264602663,24.927287166547366],[91.82636976242067,24.924718585029428],[91.82581186294556,24.92432940134325],[91.8258547782898,24.922500221563205],[91.82782888412477,24.92269481644665],[91.82830095291138,24.915728128333175],[91.8316161632538,24.915445949712083]]]}]},"bbox":[91.82581186294556,24.91096992663671,91.84091806411745,24.929116275307],"properties":{"title":"Cooler and drier conditions increase parasitism in subtropical damselfly populations","type":"article","abstract":"Host-parasite interactions are impacted by climate, which may result variation of parasitism across landscapes and time. Understanding how parasitism varies across these spatio-temporal scales is crucial to predicting how organism will respond to and cope under a rapidly changing climate. Empirical work on how parasitism varies across climates is limited. Here, we examine the variation of parasitism across seasons and identify the likely climatic factors that explain this variation using Agriocnemis femina damselflies and Arrenurus water mite ectoparasites as host-parasite study system. We assessed parasitism in a natural population in a subtropical climate between 2021-2023 and calculated prevalence (percentage of infected individuals) and intensity (the number of parasites on an infected individual) of parasitism across different seasons. Parasite prevalence and intensity were greater during cooler seasons (autumn and winter) compared to hotter seasons (spring and summer). Mean temperature and precipitation were negatively correlated with parasite prevalence whereas only mean precipitation was negatively correlated with parasite intensity. Tropical, Subtropical and Mediterranean countries are predicted to experience extreme climatic events (extreme temperature, less precipitation and frequent drought) as a consequence of anthropogenic climate change, and our finding suggests that this could increase parasitism in aquatic insects.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/28","timeperiod_startdate":[null],"timeperiod_enddate":[null],"placename":"Sylhet, Sylhet Sadar Upazila, Sylhet Division, Bangladesh","country_code":"BD","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Kawsar Khan","Md"],"keywords":["EvoEcoArXiv"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":8,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Polygon","coordinates":[[[7.3493347,51.4105176],[7.3493347,51.5313721],[7.1020817,51.5313721],[7.1020817,51.4105176],[7.3493347,51.4105176]]]}]},"bbox":[7.1020817,51.4105176,7.3493347,51.5313721],"properties":{"title":"Crowdsourcing air temperature data for the evaluation of the urban microscale model PALM—a case study in central Europe","type":"article","abstract":"In summertime and during heat events the urban heat island can negatively impact public health in urban areas. In the context of climate change, climate adaptation receives more attention in urban planning. Microscale urban climate modelling can identify risk areas and evaluate adaptation strategies. Concurrently, evaluating the model results with observational data is essential. So far, model evaluation is mostly limited to short-term field campaigns or a small number of stations. This study uses novel crowdsourcing data from Netatmo citizen weather stations (CWS) to evaluate the urban microscale model PALM for a hot day (Tmax ≥ 30&nbsp;°C) in Bochum in western Germany with anticyclonic atmospheric conditions. Urban-rural air temperature differences are represented by the model. A quality control procedure is applied to the crowdsourced data prior to evaluation. The comparison between the model and the crowdsourced air temperature data reveals a good model performance with a high coefficient of determination (R2) of 0.86 to 0.88 and a root mean squared error (RMSE) around 2&nbsp;K. Model accuracy shows a temporal pattern and night-time air temperatures during the night are underestimated by the model, likely due to unresolved cloud cover. The crowdsourced air temperature data proved valuable for model evaluation due to the high number of stations within urban areas. Nevertheless, weaknesses related to data quality such as radiation errors must be considered during model evaluation and only the information derived from multiple stations is suitable for model evaluation. The procedure presented here can easily be transferred to planning processes as the model and the crowdsourced air temperature data are freely available. This can contribute to making informed decisions for climate adaptation in urban areas.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/27","timeperiod_startdate":[null],"timeperiod_enddate":[null],"placename":"Bochum, North Rhine-Westphalia, Germany","country_code":"DE","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["van der Linden","Lara"],"keywords":["EarthArXiv"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":7,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Polygon","coordinates":[[[-7.0327437,40.3806077],[-7.0327437,40.7009638],[-7.467313,40.7009638],[-7.467313,40.3806077],[-7.0327437,40.3806077]]]}]},"bbox":[-7.467313,40.3806077,-7.0327437,40.7009638],"properties":{"title":"A quantitative spatial methodology for delimiting historical centers - an application in Guarda, Portugal","type":"article","abstract":"A historical center can be defined as the oldest part of a city where a significant part of the building stock dates back to the early stages of urban growth. Historical centers often contain special urban fabrics with unique, historic, social and cultural identity. Owing to this, they have been subject to special urban planning interventions in order not only to protect the existing urban fabric and its originality, but also to revert depopulation and built deterioration processes aiming to make these old centers attractive and functional again. However, in the inter-urban domain, there is a deficit of spatial planning research, and the delimitation of historical centers is a topic that has been under explored. This paper describes a morphological approach for delimiting the historical center of Guarda, Portugal. Methodologically, the work uses building stock-age data from eight periods between &lt;1919 to 2011 and is supported by both statistical and spatial analysis. Statistically, the urban evolution of the city was analyzed through threshold values and five novel building indexes. Spatially, the work involved disaggregated GIS analysis to map the evolution of built-up areas and to identify the consolidated urban areas. A sensitivity analysis was also performed to assess the influence of some parameters on the obtained boundary. Results indicated that the historical center of Guarda was consolidated in the 1960s and, since then, has been relatively unchanged. The obtained boundary shows a suitable spatial adjustment considering the consolidated urban area and the official boundary included in the Urban Rehabilitation Area.&nbsp;","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/26","timeperiod_startdate":["1919-01-01"],"timeperiod_enddate":["2011-12-31"],"placename":"Guarda, Guarda, Portugal","country_code":"PT","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Soares","Maria Elisabete"],"keywords":["JOSIS"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":6,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[]},"properties":{"title":"Post-Brexit Power of European Union From the World Trade Network Analysis","type":"article","abstract":"We develop the Google matrix analysis of the multiproduct world trade network obtained from the UN COMTRADE database in recent years. The comparison is done between this new approach and the usual Import-Export description of this world trade network. The Google matrix analysis takes into account the multiplicity of trade transactions thus highlighting in a better way the world influence of specific countries and products. It shows that after Brexit, the European Union of 27 countries has the leading position in the world trade network ranking, being ahead of USA and China. Our approach determines also a sensitivity of trade country balance to specific products showing the dominant role of machinery and mineral fuels in multiproduct exchanges. It also underlines the growing influence of Asian countries.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/25","timeperiod_startdate":["2012-01-01"],"timeperiod_enddate":["2018-12-31"],"placename":null,"country_code":null,"source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Loye","Justin"],"keywords":["TIB"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":5,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[12.544957101345064,41.60909934144031]}]},"bbox":[12.544957101345064,41.60909934144031,12.544957101345064,41.60909934144031],"properties":{"title":"An Etrusco-Italic Antefix of Potnia Theron from Ardea","type":"article","abstract":"This article discusses an unpublished Etrusco-Italic terracotta antefix decorated with a Potnia Theron previously in the Etruscan collection at the Israel Museum, Jerusalem (today temporarily deposited at the Comando Carabinieri per la Tutela del Patrimonio Culturale in Rome). Based on the antefix’s technical description and interpretation, the author establishes that it belongs to a series of mould-made objects produced during the 3ʳᵈ century B.C. in Ardea, Latium. The Potnia Theron was depicted in Etruria and Central Italy from the 7ᵗʰ to the 1ˢᵗ century B.C. in various materials and on objects, such as jewellery, vases, and architectural elements like the antefix. Her image, distributed throughout all of Etruria and Central Italy, appeared in religious and public areas and represented a strong nature goddess laden with symbolic apotropaic powers.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/24","timeperiod_startdate":[null],"timeperiod_enddate":[null],"placename":"Ardea, Roma Capitale, Lazio, Italy","country_code":"IT","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Suliman-Wolf","Hamutal"],"keywords":["DAI AA"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":4,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Polygon","coordinates":[[[95.25146484375001,6.206090498573885],[94.76806640625001,5.725311447610156],[95.25146484375001,3.798483975036975],[96.43798828125001,1.515936383451686],[98.59130859375,-1.73557436314212],[102.37060546875001,-5.98760689165826],[103.64501953125001,-5.462895560209544],[104.96337890625001,-6.948238638117006],[108.25927734375001,-8.03747339584114],[117.61962890625001,-9.384032109601689],[119.06982421875001,-10.033766870069249],[122.71728515625001,-11.113727282172755],[127.68310546875001,-8.733077421211563],[131.46240234375003,-8.298470297067356],[132.86865234375003,-6.511814706347888],[134.58251953125003,-7.471410908357826],[136.20849609375003,-4.981505049328246],[138.14208984375003,-6.468151012664202],[137.21923828125003,-8.68963906812765],[140.91064453125003,-9.25393615681445],[140.95458984375003,-2.218683588558448],[135.15380859375003,-0.373532510228805],[134.45068359375003,1.032658931177789],[132.56103515625003,-0.109863213927414],[131.24267578125003,1.296276119641822],[130.45166015625003,0.769019878122133],[129.08935546875003,1.252341676699629],[128.69384765625003,2.701635047944533],[126.97998046875001,3.930020157111475],[126.62841796875001,5.725311447610156],[125.00244140625001,3.930020157111475],[124.25537109375001,1.472006010190335],[120.38818359375001,1.515936383451686],[118.89404296875001,2.394322357535077],[118.05908203125001,4.149200693099289],[115.65856933593751,4.275202171119158],[115.53771972656251,3.3653728013312],[114.43908691406251,1.510445135011568],[113.50524902343751,1.334718132769963],[112.29675292968751,1.554374729735434],[112.02209472656251,1.115041913517227],[111.06628417968751,1.038151198313325],[110.46203613281251,0.873379260973811],[109.53918457031251,1.883815776262848],[109.71496582031251,2.311994386907854],[107.99560546875001,4.937724274302492],[105.27099609375,3.096635871841563],[104.78759765625001,1.296276119641822],[103.69445800781251,1.191930620381516],[102.99133300781251,1.334718132769963],[101.88171386718751,2.180259769681356],[97.74536132812501,5.320705259943911],[95.25146484375001,6.206090498573885]]]}]},"bbox":[94.76806640625001,-11.113727282172755,140.95458984375003,6.206090498573885],"properties":{"title":"Islam and the Perception of Islam in Contemporary Indonesia","type":"article","abstract":"Islam in post-reformasi Indonesia is covered by a wide multi-disciplinary literature, in which ‘Islamization’ has gained acceptance as the predominant frame for understanding contemporary developments. Here Islamization is taken to be a move away from an Indonesian Islam that was highly localized and mystical in nature. Adopting an area studies approach, this paper reviews the literature on contemporary Islam in Indonesia and challenges this understanding of Islamization. It is argued that older cultural styles and variations within local Islam have not disappeared, and that, more generally, characterizing the development of Indonesian Islam by using a single label is misleading.&nbsp;","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/23","timeperiod_startdate":[null],"timeperiod_enddate":[null],"placename":"Sulawesi, Indonesia","country_code":"ID","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Houben","Vincent"],"keywords":["heiJOURNALS"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":3,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[16.415339112281803,48.27811289083328]}]},"bbox":[16.415339112281803,48.27811289083328,16.415339112281803,48.27811289083328],"properties":{"title":"First report of the parasitoid wasp Trissolcus basalis (Wollaston, 1858) in Austria (Hymenoptera: Scelionidae)","type":"article","abstract":"Im Sommer 2021 wurden parasitierte Eigelege der Grünen Reiswanze Nezara viridula (Linnaeus, 1758) in Wiener Privatgärten festgestellt. Die morphologischen und molekularbiologischen Untersuchungen ergaben, dass es sich um den Eiparasitoiden Trissolcus basalis (Wollaston, 1858) handelt. Dies ist der erste Nachweis von Trissolcus basalis aus Nezara viridula Eigelegen in Österreich.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/22","timeperiod_startdate":["2021-06-01"],"timeperiod_enddate":["2021-08-31"],"placename":"Vienna, Austria","country_code":"AT","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Moyses","Anna"],"keywords":["JKI"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":2,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Point","coordinates":[35.50455361604691,32.50799064562943]}]},"bbox":[35.50455361604691,32.50799064562943,35.50455361604691,32.50799064562943],"properties":{"title":"The Coins from the 2023 Excavation Season of the German-Israeli Tell Iẓṭabba Excavation Project","type":"article","abstract":"Dieser Bericht katalogisiert und kontextualisiert die hellenistischen, römischen, byzantinischen und islamischen Münzfunde der Grabungssaison 2023 des German-Israeli Tell Iẓṭabba Excavation Project in den Areas E, F und G. Alle im Folgenden katalogisierten hellenistischen Münzen werden der seleukidischen Siedlung an diesem Ort zugeordnet. Viele der späteren Münzen stammen aus Area E, in der die byzantinische Stadtmauer ausgegraben wurde. Insgesamt wurden 44 Münzen katalogisiert (18 seleukidische Münzen [zwei sind nicht genau bestimmbar], vier städtische hellenistische Münzen, eine hasmonäische Münze, eine kaiserzeitliche Städteprägung, 12 spätrömische Münzen, drei byzantinische Münzen, drei islamische Prägungen und noch zwei unbestimmte Münzen). Obwohl die Anzahl an Münzen relativ gering ist, ergänzen sie die in den vorangegangenen Jahren publizierten Münzen (aus den Areas B, C und D) und tragen weiter zur Kenntnis der Fundmünzen von Tell Iẓṭabba und zu unserem Verständnis der Siedlungsgeschichte des Ortes bei.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/21","timeperiod_startdate":["2023-01-01"],"timeperiod_enddate":["2023-12-31"],"placename":"Beit Shean, North District, Israel","country_code":"IL","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Johananoff","Mati"],"keywords":["UNIMS e-Journals"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}},{"id":1,"type":"Feature","geometry":{"type":"GeometryCollection","geometries":[{"type":"Polygon","coordinates":[[[87.51159667968751,21.626792634799433],[87.2039794921875,21.97361354260757],[87.0281982421875,21.892084251561464],[86.7095947265625,22.228090416784486],[86.8414306640625,22.43134015636062],[86.46789550781251,22.87744046489714],[86.17126464843751,23.02918734674459],[85.85266113281251,23.32208001137844],[86.03668212890625,23.57405696664267],[86.88262939453125,23.745125865762933],[87.74780273437501,24.28702686537645],[87.857666015625,26.13571361317392],[88.406982421875,26.509904531413927],[89.747314453125,26.017297563851745],[89.94506835937501,25.224820176765036],[92.49389648437501,24.986058021167594],[93.17504882812501,25.20494115356912],[93.10913085937501,24.26699728841818],[92.29614257812501,23.825551306884773],[92.713623046875,21.22794190505816],[92.25219726562501,21.453068633086783],[92.42797851562501,20.673905264672843],[91.70288085937501,22.30942584120019],[89.96704101562501,21.82070785387503],[88.69262695312501,21.53484700204879],[87.51159667968751,21.626792634799433]]]}]},"bbox":[85.85266113281251,20.673905264672843,93.17504882812501,26.509904531413927],"properties":{"title":"Revisiting Conditional Typology for Bangla","type":"article","abstract":"The paper presents new data on two strategies of forming Conditionals in the Eastern Indo-Aryan language Bangla: Correlative Conditionals and Participial Conditionals. It further shows that there is a subtle division of labor between the two kinds of constructions. It is proposed that the distributional difference between these two provides evidence in favor of the theories of conditionals that classify Hypothetical Conditionals and Biscuit Conditionals as having the same underlying semantics. Furthermore, it is shown that the distinction extends to the then-word tahole in the language. This leads to a pragmatic account of the conditional participle -le in different types of participial conditionals. The paper ends with discussing how a pragmatic account leads to an unresolved question regarding the syntactic classification of the conditionals.","publicationDate":"2025-07-14","doi":null,"url":"https://service.tib.eu/komet/ojs330/index.php/gmdj/article/view/20","timeperiod_startdate":[null],"timeperiod_enddate":[null],"placename":"Sreepur Upazila (Magura), Khulna Division, Bangladesh","country_code":"BD","source_details":{"id":9,"name":"geoMetadata Demo Journal","issn_l":null,"openalex_id":null,"openalex_url":null,"publisher_name":null,"works_count":null,"works_api_url":null,"default_work_type":"article"},"status":"p","status_display":"Published","authors":["Ishani Guha University of Delhi"],"keywords":["KIM"],"topics":null,"bok_concepts":null,"bok_concepts_resolved":[],"openalex_id":null,"openalex_match_info":null,"openalex_fulltext_origin":null,"openalex_is_retracted":false,"openalex_ids":null,"openalex_open_access_status":null}}]}}