P
Peter A. Raymond
Researcher at Yale University
Publications - 180
Citations - 24244
Peter A. Raymond is an academic researcher from Yale University. The author has contributed to research in topics: Dissolved organic carbon & Carbon cycle. The author has an hindex of 65, co-authored 164 publications receiving 18177 citations. Previous affiliations of Peter A. Raymond include Marine Biological Laboratory & United States Geological Survey.
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Journal ArticleDOI
River ecosystem metabolism and carbon biogeochemistry in a changing world
Tom J. Battin,Ronny Lauerwald,Emily S. Bernhardt,Enrico Bertuzzo,Lluís Gómez Gener,Robert O. Hall,Erin R. Hotchkiss,Taylor Maavara,Tamlin M. Pavelsky,Lishan Ran,Peter A. Raymond,Judith A. Rosentreter,Pierre Regnier +12 more
TL;DR: In this paper , the state of river ecosystem metabolism research and synthesize the current best available estimates of river ecosystems metabolism were reviewed and synthesized by using a global river observing system to understand river networks and their future evolution in the context of global carbon budget.
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Land Use, Not Stream Order, Controls N 2 O Concentration and Flux in the Upper Mara River Basin, Kenya
Ricky Mwanake,Ricky Mwanake,Gretchen M. Gettel,K. S. Aho,D.W. Namwaya,F.O. Masese,F.O. Masese,Klaus Butterbach-Bahl,Peter A. Raymond +8 more
TL;DR: It is concluded that in‐stream chemoautotrophic nitrification was likely the main biogeochemical process driving N2O production in agricultural and forest streams, whereas complete denitrification led to the consumption of N2 O in the livestock stream sites.
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Global riverine nitrous oxide emissions: The role of small streams and large rivers.
Alessandra Marzadri,Giuseppe Amatulli,Daniele Tonina,Alberto Bellin,Longzhu Q. Shen,George H. Allen,Peter A. Raymond +6 more
TL;DR: In this article, the authors quantify reach scale N2O emissions by integrating a data-driven machine learning model with a physically-based upscaling model, which reveals that small streams (those with widths less than 10m) are the primary sources of riverine N 2O emissions to the atmosphere.
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Gas transfer velocities in small forested ponds
TL;DR: In this article, the authors determined the gas transfer velocity, k600, in four small (<250m2) ponds by using a propane (C3H8) gas injection.