Peter Haase mainly focuses on Ecology, Habitat, Biodiversity, Species richness and Benthic zone. Ecology is represented through his Land use, Climate change, Species distribution, Range and Environmental niche modelling research. The concepts of his Habitat study are interwoven with issues in Abundance and Metacommunity, Biological dispersal.
As a member of one scientific family, Peter Haase mostly works in the field of Biodiversity, focusing on Environmental resource management and, on occasion, Ecological Parameter Monitoring, Ecological stability and Adaptability. His Species richness study integrates concerns from other disciplines, such as Restoration ecology and Abiotic component. Peter Haase works mostly in the field of Benthic zone, limiting it down to topics relating to Water quality and, in certain cases, Diversity index, Species evenness, Invertebrate and Spatial heterogeneity.
His primary areas of investigation include Ecology, Biodiversity, Habitat, Benthic zone and Species richness. His research is interdisciplinary, bridging the disciplines of Biological dispersal and Ecology. His Biodiversity research focuses on Environmental resource management and how it connects with IUCN Red List and Environmental monitoring.
His work carried out in the field of Habitat brings together such families of science as Predation, Temperate climate, Land use and Introduced species. His study in Benthic zone is interdisciplinary in nature, drawing from both Metacommunity, Freshwater ecosystem, Water quality, Water Framework Directive and STREAMS. His studies in Species richness integrate themes in fields like Floodplain, Restoration ecology, Drainage basin, Electrofishing and Global change.
Peter Haase mainly investigates Ecology, Biodiversity, Climate change, Species richness and Invertebrate. His is doing research in Ecosystem, Habitat, Predation, Invasive species and Abundance, both of which are found in Ecology. His biological study spans a wide range of topics, including Ecology and Biota.
His Climate change research includes elements of Microclimate and Biome. His Species richness research is multidisciplinary, incorporating elements of Global warming, Effects of global warming, Freshwater ecosystem and Global change. His Invertebrate research incorporates elements of Niche, Benthic zone, Species distribution, Community composition and Anthropocene.
His primary areas of study are Ecology, Climate change, Biodiversity, Ecosystem and Species richness. His research integrates issues of Natural population growth and Population density in his study of Ecology. His work deals with themes such as Vegetation and Biome, which intersect with Climate change.
He has included themes like Taxonomic rank, Taxon and Common spatial pattern in his Biodiversity study. His Species richness study combines topics from a wide range of disciplines, such as Habitat fragmentation, Abundance, Global change and Phenology. His Invertebrate study combines topics in areas such as Ecology, Conservation biology and Species distribution, Habitat.
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Patterns of population structure in two closely related, partially sympatric caddisflies in Eastern Europe: historic introgression, limited dispersal, and cryptic diversity1
Steffen U. Pauls;Kathrin Theissinger;Lujza Ujvarosi;Miklos Balint.
Journal of The North American Benthological Society (2009)
Assessing the impact of errors in sorting and identifying macroinvertebrate samples
Peter Haase;John Murray-Bligh;Susanne Lohse;Steffen Pauls.
Hydromorphological restoration of running waters: effects on benthic invertebrate assemblages
Andrea Sundermann;Claudia Antons;Nathalie Cron;Armin W. Lorenz.
Freshwater Biology (2011)
Stressor prioritisation in riverine ecosystems: Which environmental factors shape benthic invertebrate assemblage metrics?
Andrea Sundermann;Miriam Gerhardt;Heike Kappes;Peter Haase.
Ecological Indicators (2013)
Context dependency in biodiversity patterns of central German stream metacommunities
Jonathan D. Tonkin;Jani Heino;Andrea Sundermann;Peter Haase;Peter Haase.
Freshwater Biology (2016)
Contrasting metacommunity structure and beta diversity in an aquatic‐floodplain system
Jonathan D. Tonkin;Stefan Stoll;Sonja C. Jähnig;Peter Haase.
Comparison of macroinvertebrate sampling methods in Europe
Nikolai Friberg;Leonard Sandin;Mike T. Furse;Søren E. Larsen.
Assessing resilience in long-term ecological data sets
F. Müller;M. Bergmann;R. Dannowski;J.W. Dippner.
Ecological Indicators (2016)
Macrophytes respond to reach-scale river restorations
Armin W. Lorenz;Thomas Korte;Andrea Sundermann;Kathrin Januschke.
Journal of Applied Ecology (2012)
Cross-realm assessment of climate change impacts on species’ abundance trends
Diana E. Bowler;Christian Hof;Peter Haase;Peter Haase;Ingrid Kröncke.
Nature Ecology and Evolution (2017)
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