Her main research concerns Ecology, Dissolved organic carbon, Ecosystem, Wetland and Environmental chemistry. In general Ecology study, her work on Phytoplankton and Habitat often relates to the realm of Growth rate, Sturgeon and Lag, thereby connecting several areas of interest. Her Dissolved organic carbon study combines topics in areas such as Organic matter, Carbon cycle and STREAMS.
Her Food web study in the realm of Ecosystem interacts with subjects such as Mesopredator release hypothesis. The Wetland study combines topics in areas such as Drainage basin, Watershed and Temperate climate. Marguerite A. Xenopoulos combines subjects such as Community composition and Bacterioplankton with her study of Environmental chemistry.
Marguerite A. Xenopoulos mostly deals with Ecology, Environmental chemistry, Dissolved organic carbon, Ecosystem and Aquatic ecosystem. The Biogeochemical cycle research she does as part of her general Environmental chemistry study is frequently linked to other disciplines of science, such as Silver nanoparticle, therefore creating a link between diverse domains of science. The various areas that she examines in her Dissolved organic carbon study include Organic matter, Water column, STREAMS, Nutrient and Wetland.
Her Wetland study integrates concerns from other disciplines, such as Drainage basin and Carbon cycle. In her study, Trophic level is strongly linked to Food chain, which falls under the umbrella field of Ecosystem. Her Aquatic ecosystem study incorporates themes from Surface water, Limnology and Stormwater.
Her primary areas of study are Environmental chemistry, Nutrient, Dissolved organic carbon, Ecosystem and STREAMS. The Environmental chemistry study combines topics in areas such as Ecosystem structure, Seston, Water column and Tributary. Her research integrates issues of Nutrient cycle, Freshwater ecosystem and Biogeochemistry in her study of Dissolved organic carbon.
Her work carried out in the field of Ecosystem brings together such families of science as Ecotoxicology and Predation. Her STREAMS research incorporates elements of Ecology, Aquatic ecosystem, Wetland and Land use. Marguerite A. Xenopoulos undertakes multidisciplinary studies into Ecology and Latitude in her work.
Her primary scientific interests are in Nutrient, STREAMS, Dissolved organic carbon, Wetland and Land use. Her research is interdisciplinary, bridging the disciplines of Ecology and STREAMS. Her research in Plant litter, Biome, Ecosystem, Riparian zone and River ecosystem are components of Ecology.
Her Dissolved organic carbon study is focused on Environmental chemistry in general. Her studies in Wetland integrate themes in fields like Drainage basin, Watershed, Flood myth and Aquatic ecosystem.
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Effects of agricultural land use on the composition of fluvial dissolved organic matter
Henry F. Wilson;Marguerite A. Xenopoulos.
Nature Geoscience (2009)
Habitat loss, trophic collapse, and the decline of ecosystem services.
Andrew P. Dobson;David Lodge;Jackie Alder;Graeme S. Cumming.
Scenarios of freshwater fish extinctions from climate change and water withdrawal
Marguerite A. Xenopoulos;David M. Lodge;Joseph Alcamo;Michael Märker.
Unraveling the role of land use and microbial activity in shaping dissolved organic matter characteristics in stream ecosystems
Clayton J. Williams;Youhei Yamashita;Henry F. Wilson;Rudolf Jaffé.
Limnology and Oceanography (2010)
Threshold elemental ratios of carbon and phosphorus in aquatic consumers.
Paul C. Frost;Jonathan P. Benstead;Wyatt F. Cross;Helmut Hillebrand.
Ecology Letters (2006)
Ecology under lake ice
Stephanie E. Hampton;Aaron W.E. Galloway;Stephen M. Powers;Ted Ozersky.
Ecology Letters (2017)
Regional comparisons of watershed determinants of dissolved organic carbon in temperate lakes from the Upper Great Lakes region and selected regions globally
Marguerite A. Xenopoulos;David M. Lodge;Jason Frentress;Timothy A. Kreps.
Limnology and Oceanography (2003)
Going with the flow: using species-discharge relationships to forecast losses in fish biodiversity.
Marguerite A. Xenopoulos;David M. Lodge.
Increased mobilization of aged carbon to rivers by human disturbance
David E. Butman;Henry F. Wilson;Rebecca T. Barnes;Marguerite A. Xenopoulos.
Nature Geoscience (2015)
Ecosystem and Seasonal Control of Stream Dissolved Organic Carbon Along a Gradient of Land Use
Henry F. Wilson;Marguerite A. Xenopoulos.
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