Search results for "space-for-time"

showing 2 items of 2 documents

Effects of climate change and land use intensification on regional biological soil crust cover and composition in southern Africa

2022

Biological soil crusts (biocrusts) form a regular and relevant feature in drylands, as they stabilize the soil, fix nutrients, and influence water cycling. However, biocrust forming organisms have been shown to be dramatically vulnerable to climate and land use change occurring in these regions. In this study, we used Normalized Difference Vegetation Index (NDVI) data of biocrust-dominated pixels (NDVIbiocrust) obtained from hyperspectral and LANDSAT-7 data to analyse biocrust development over time and to forecast future NDVIbiocrust development under different climate change and livestock density scenarios in southern Africa. We validated these results by analysing the occurrence and compo…

010504 meteorology & atmospheric sciencesNDVISoil ScienceLibrary science01 natural sciencesGermanRegional developmentEffects of global warmingPolitical science11. SustainabilityNobel laureateBiocrustmedia_common.cataloged_instanceSpatial distributionEuropean union0105 earth and related environmental sciencesmedia_common2. Zero hungerLand useEuropean researchLivestock density04 agricultural and veterinary sciences15. Life on landRemote sensingEcologíaSpace-for-time studylanguage.human_languageEarth system modelDrylands soils13. Climate action040103 agronomy & agriculturelanguage0401 agriculture forestry and fisheriesChristian ministryMulti-temporal Landsat imageryGeoderma
researchProduct

From clear lakes to murky waters – tracing the functional response of high-latitude lake communities to concurrent ‘greening’ and ‘browning’

2019

Climate change and the intensification of land use practices are causing widespread eutrophication of subarctic lakes. The implications of this rapid change for lake ecosystem function remain poorly understood. To assess how freshwater communities respond to such profound changes in their habitat and resource availability, we conducted a space-for-time analysis of food-web structure in 30 lakes situated across a temperature-productivity gradient equivalent to the predicted future climate of subarctic Europe (temperature +3 degrees C, precipitation +30% and nutrient +45 mu g L-1 total phosphorus). Along this gradient, we observed an increase in the assimilation of pelagic-derived carbon from…

0106 biological sciencesDYNAMICSIMPACTSFood Chainecological stable statesClimate ChangeTROPHIC POSITION010603 evolutionary biology01 natural sciencesjärvetspace-for-time114 Physical sciencesFISHhabitat couplingstable isotope analysisVDP::Mathematics and natural scienses: 400::Zoology and botany: 480FOR-TIME SUBSTITUTIONSPACEEcosystem14. Life underwaterHABITATEcology Evolution Behavior and SystematicsEcosystemIsotope analysisTrophic levelCLIMATE-CHANGEEcology010604 marine biology & hydrobiologyrehevöityminencryptic energetic pathwaysLake ecosystemSHIFTSPelagic zoneeliöyhteisöt15. Life on landSubarctic climateFood webEuropetrophic nicheLakes13. Climate actionBenthic zoneVDP::Matematikk og naturvitenskap: 400::Zoologiske og botaniske fag: 4801181 Ecology evolutionary biologyEnvironmental scienceta1181FOOD-WEBympäristönmuutoksetravintoverkot
researchProduct