J
Jose D. Fuentes
Researcher at Pennsylvania State University
Publications - 176
Citations - 13512
Jose D. Fuentes is an academic researcher from Pennsylvania State University. The author has contributed to research in topics: Isoprene & Canopy. The author has an hindex of 50, co-authored 164 publications receiving 12127 citations. Previous affiliations of Jose D. Fuentes include University of Guelph & Environment Canada.
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Journal ArticleDOI
FLUXNET: A New Tool to Study the Temporal and Spatial Variability of Ecosystem-Scale Carbon Dioxide, Water Vapor, and Energy Flux Densities
Dennis D. Baldocchi,Eva Falge,Lianhong Gu,Richard J. Olson,David Y. Hollinger,Steven W. Running,P. M. Anthoni,Ch. Bernhofer,Kenneth J. Davis,Robert G. Evans,Jose D. Fuentes,Allen H. Goldstein,Gabriel G. Katul,Beverly E. Law,Xuhui Lee,Yadvinder Malhi,Tilden P. Meyers,William Munger,Walter C. Oechel,Kim Pilegaard,Hans Peter Schmid,Riccardo Valentini,Shashi B. Verma,Timo Vesala,Kell B. Wilson,S. C. Wofsy +25 more
TL;DR: The FLUXNET project as mentioned in this paper is a global network of micrometeorological flux measurement sites that measure the exchanges of carbon dioxide, water vapor, and energy between the biosphere and atmosphere.
Journal ArticleDOI
Environmental controls over carbon dioxide and water vapor exchange of terrestrial vegetation
Beverly E. Law,Eva Falge,Lianhong Gu,Dennis D. Baldocchi,Peter S. Bakwin,Paul Berbigier,Kenneth J. Davis,A. J. Dolman,Matthias Falk,Jose D. Fuentes,Allen H. Goldstein,A. Granier,Achim Grelle,David Y. Hollinger,Ivan A. Janssens,Paul G. Jarvis,Niels Otto Jensen,Gabriel G. Katul,Y. Mahli,Giorgio Matteucci,Tilden P. Meyers,Russell K. Monson,William Munger,Walter C. Oechel,Richard J. Olson,Kim Pilegaard,H. Thorgeirsson,Riccardo Valentini,Shashi B. Verma,Timo Vesala,Kell B. Wilson,Steven C. Wofsy +31 more
TL;DR: The authors compared seasonal and annual estimates of CO2 and water vapor exchange across sites in forests, grasslands, crops, and tundra that are part of an international network called FLUXNET, and investigated the responses of vegetation to environmental variables.
Journal ArticleDOI
Ecosystem carbon dioxide fluxes after disturbance in forests of North America
B. D. Amiro,Alan G. Barr,Jordan G. Barr,T. A. Black,Rosvel Bracho,Mathew Brown,Jiquan Chen,Kenneth L. Clark,Kenneth J. Davis,Ankur R. Desai,Sylvain Doré,Vic Engel,Jose D. Fuentes,Allen H. Goldstein,Michael L. Goulden,Thomas Kolb,Michael B. Lavigne,Beverly E. Law,Hank A. Margolis,Timothy A. Martin,J.H. McCaughey,Laurent Misson,M. Montes-Helu,Asko Noormets,James T. Randerson,Gregory Starr,Jingfeng Xiao +26 more
TL;DR: In this article, the authors summarize more than 180 site years of eddy covariance measurements of carbon dioxide flux made at forest chronosequences in North America and show that carbon loss from all ecosystems following a stand-replacing disturbance, becoming a carbon sink by 20 years for all ecosystems and by 10 years for most.
Journal ArticleDOI
Biogenic Hydrocarbons in the Atmospheric Boundary Layer: A Review
Jose D. Fuentes,Manuel T. Lerdau,Roger Atkinson,Dennis D. Baldocchi,Jan W. Bottenheim,Paolo Ciccioli,Brian Lamb,C. Geron,Lianhong Gu,Alex Guenther,Thomas D. Sharkey,William R. Stockwell +11 more
TL;DR: The state of the science concerning biosynthesis, transport, and chemical transformation of hydrocarbons emitted by the terrestrial biosphere is reviewed in this paper, where the focus is on isoprene, monoterpenes, and oxygen-ated polyphenes.
Journal ArticleDOI
Contrasting convective regimes over the Amazon: Implications for cloud electrification
Earle Williams,Daniel Rosenfeld,N. Madden,John Gerlach,N. Gears,L. Atkinson,N. Dunnemann,G. Frostrom,M. Antonio,B. Biazon,R. Camargo,H. Franca,Andreia Maria da Anunciação Gomes,M. Lima,R. Machado,S. Manhaes,L. Nachtigall,H. Piva,W. Quintiliano,Luiz A. T. Machado,Paulo Artaxo,Gregory Roberts,Nilton O. Renno,Richard J. Blakeslee,J. Bailey,Dennis J. Boccippio,Alan K. Betts,David B. Wolff,Biswadev Roy,Jeffrey B. Halverson,Thomas M. Rickenbach,Jose D. Fuentes,E. Avelino +32 more
TL;DR: In this paper, four distinct meteorological regimes in the Amazon basin have been examined to distinguish the contributions from boundary layer aerosol and convective available potential energy (CAPE) to continental cloud structure and electrification.