S
Stuart E. G. Findlay
Researcher at Institute of Ecosystem Studies
Publications - 151
Citations - 18111
Stuart E. G. Findlay is an academic researcher from Institute of Ecosystem Studies. The author has contributed to research in topics: Dissolved organic carbon & Organic matter. The author has an hindex of 66, co-authored 151 publications receiving 16838 citations. Previous affiliations of Stuart E. G. Findlay include University of Maryland Center for Environmental Science & Lamar University.
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Journal ArticleDOI
Bacterial production in fresh and saltwater ecosystems: a cross-system overview
TL;DR: Heterotrophic bacterial production is a large component of total secondary production and is roughly twice as large as the production of macrozooplankton for a given level of primary production.
Journal ArticleDOI
Biophysical controls on organic carbon fluxes in fluvial networks
Tom J. Battin,Louis A. Kaplan,Stuart E. G. Findlay,Charles S. Hopkinson,Eugènia Martí,Aaron I. Packman,J. Denis Newbold,Francesc Sabater +7 more
TL;DR: In this article, the authors combine geophysics, microbial ecology and organic geochemistry to show geophysical opportunity and microbial capacity to enhance the net heterotrophy in streams, rivers and estuaries.
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Stream denitrification across biomes and its response to anthropogenic nitrate loading
Patrick J. Mulholland,Patrick J. Mulholland,Ashley M. Helton,Geoffrey C. Poole,Robert O. Hall,Stephen K. Hamilton,Bruce J. Peterson,Jennifer L. Tank,Linda R. Ashkenas,Lee W. Cooper,Clifford N. Dahm,Walter K. Dodds,Stuart E. G. Findlay,Stanley V. Gregory,Nancy B. Grimm,Sherri L. Johnson,William H. McDowell,Judy L. Meyer,H. Maurice Valett,Jackson R. Webster,Clay P. Arango,Jake J. Beaulieu,Jake J. Beaulieu,Melody J. Bernot,Amy J. Burgin,Chelsea L. Crenshaw,Laura T. Johnson,B. R. Niederlehner,Jonathan M. O'Brien,Jody D. Potter,Richard W. Sheibley,Richard W. Sheibley,Daniel J. Sobota,Daniel J. Sobota,Suzanne M. Thomas +34 more
TL;DR: It is demonstrated that excess nitrate in streams elicits a disproportionate increase in the fraction of nitrate that is exported to receiving waters and reduces the relative role of small versus large streams as nitrate sinks.
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The functional significance of the hyporheic zone in streams and rivers
TL;DR: The hyporheic corridor concept describes gradients at the catchment scale, extending to alluvial aquifers kilometers from the main channel as discussed by the authors, which is an active ecotone between the surface stream and groundwater.
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Importance of surface-subsurface exchange in stream ecosystems: The hyporheic zone
TL;DR: In this paper, an organizational scheme for grouping stream systems into clusters of minimal, moderate, and maximal contribution of hyporheic metabolism to the overall ecosystem is proposed, which is based on the concept of hydrologically linked sediments.