Search results for "Invertebrate assemblage"

showing 3 items of 3 documents

Beta diversity of stream insects differs between boreal and subtropical regions, but land use does not generally cause biotic homogenization

2021

Made available in DSpace on 2021-06-25T10:17:36Z (GMT). No. of bitstreams: 0 Previous issue date: 2021-03-01 Previous studies have found mixed results regarding the relationship between beta diversity and latitude. In addition, by influencing local environmental heterogeneity, land use maymodify spatial taxonomic and functional variability among communities causing biotic differentiation or homogenization. We tested 1) whether taxonomic and functional beta diversities among streams within watersheds differ between subtropical and boreal regions and 2) whether land use is related to taxonomic and functional beta diversities in both regions.Wesampled aquatic insects in 100 subtropical (Brazil…

0106 biological sciencesBiological traitsHomogenization (climate)Functional homogenizationBeta diversityBiodiversityLatitudinal diversity gradientSubtropicsAquatic Science010603 evolutionary biology01 natural sciencesLatitudeLATITUDINAL GRADIENTSfunctional homogenizationlatitudinal diversity gradientDISTURBANCEEcology Evolution Behavior and SystematicsSCALEEcologyLand useEcology010604 marine biology & hydrobiologySPECIES RICHNESSEnvironmental heterogeneityMACROINVERTEBRATE ASSEMBLAGESrespiratory systemenvironmental heterogeneitybiological traitsBoreal1181 Ecology evolutionary biologyAquatic insectsPATTERNSEnvironmental scienceBIODIVERSITYSpecies richnessaquatic insectsCOMMUNITIEShuman activitiesRESPONSES
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Does catchment geodiversity foster stream biodiversity?

2019

Abstract Context One approach to maintain the resilience of biotic communities is to protect the variability of abiotic characteristics of Earth’s surface, i.e. geodiversity. In terrestrial environments, the relationship between geodiversity and biodiversity is well recognized. In streams, the abiotic properties of upstream catchments influence stream communities, but the relationships between catchment geodiversity and aquatic biodiversity have not been previously tested. Objectives The aim was to compare the effects of local environmental and catchment variables on stream biodiversity. We specifically explored the usefulness of catchment geodiversity in explaining the species richness on …

0106 biological sciencesGeography Planning and DevelopmentDrainage basinBiodiversity01 natural sciencesbakteeritfreshwatersspecies richnessbacteriaSCALEAbiotic componentFreshwatersgeography.geographical_feature_categoryCLIMATE-CHANGEEcologyMacroinvertebratesEcologyenvironmental heterogeneityselkärangattomatgeodiversiteettiHabitatCatchment featuresvirtavedet1181 Ecology evolutionary biologyBENTHIC MACROINVERTEBRATE ASSEMBLAGESvaluma-alueetmacroinvertebratesCONTEXT DEPENDENCY010603 evolutionary biologydiatomsPLANT-SPECIES RICHNESSpiilevätcatchment features1172 Environmental sciencesNature and Landscape ConservationDiatomsgeographyLand useBacteriaFRESH-WATER BIODIVERSITYLAND-USELANDSCAPE010604 marine biology & hydrobiologyEnvironmental heterogeneity15. Life on landCOMMUNITY-ENVIRONMENT RELATIONSHIPSluonnon monimuotoisuusbiodiversiteettiGeodiversity13. Climate actionSpecies richnessLandscape ecologySpecies richnessMICROBIAL DIVERSITY
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Home advantage? Decomposition across the freshwater-estuarine transition zone varies with litter origin and local salinity

2015

Expected increases in the frequency and intensity of storm surges and river flooding may greatly affect the relative salinity of estuarine environments over the coming decades. In this experiment we used detritus from three contrasting environments (marine Fucus vesiculosus; estuarine Spartina anglica; terrestrial Quercus robur) to test the prediction that the decomposition of the different types of litter would be highest in the environment with which they are associated. Patterns of decomposition broadly fitted our prediction: Quercus detritus decomposed more rapidly in freshwater compared with saline conditions while Fucus showed the opposite trend; Spartina showed an intermediate respon…

SalinityClimate ChangeAquatic ScienceOceanographyPoaceaeLitter bagsSpartina anglicaQuercusFloodingDecomposition; Flooding; Global change; Invertebrate assemblage; Litter bagsAnimalsEcosystemGlobal changeEcosystemAbiotic componentSpartinageographyDecompositionDetritusgeography.geographical_feature_categorybiologyEcologyEstuaryGeneral MedicineBiodiversitybiology.organism_classificationPollutionInvertebratesSalinityInvertebrate assemblageEnglandFucusLitterEnvironmental scienceEstuaries
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