T
Taylor Maavara
Researcher at Yale University
Publications - 32
Citations - 2055
Taylor Maavara is an academic researcher from Yale University. The author has contributed to research in topics: Environmental science & Greenhouse gas. The author has an hindex of 11, co-authored 21 publications receiving 901 citations. Previous affiliations of Taylor Maavara include Lawrence Berkeley National Laboratory & University of Waterloo.
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Journal ArticleDOI
A comprehensive quantification of global nitrous oxide sources and sinks
Hanquin Tian,Rongting Xu,Josep G. Canadell,Rona Thompson,Wilfried Winiwarter,Wilfried Winiwarter,Parvadha Suntharalingam,Eric A. Davidson,Philippe Ciais,Robert B. Jackson,Greet Janssens-Maenhout,Michael J. Prather,Pierre Regnier,Naiqing Pan,Shufen Pan,Glen P. Peters,Hao Shi,Francesco N. Tubiello,Sönke Zaehle,Feng Zhou,Almut Arneth,Gianna Battaglia,Sarah Berthet,Laurent Bopp,Alexander F. Bouwman,Alexander F. Bouwman,Alexander F. Bouwman,Erik T. Buitenhuis,Jinfeng Chang,Jinfeng Chang,Martyn P. Chipperfield,Shree R. S. Dangal,Edward J. Dlugokencky,James W. Elkins,Bradley D. Eyre,Bojie Fu,Bojie Fu,B. D. Hall,Akihiko Ito,Fortunat Joos,Paul B. Krummel,Angela Landolfi,Goulven Gildas Laruelle,Ronny Lauerwald,Ronny Lauerwald,Ronny Lauerwald,Wei Li,Wei Li,Sebastian Lienert,Taylor Maavara,Michael MacLeod,Dylan B. Millet,Stefan Olin,Prabir K. Patra,Prabir K. Patra,Ronald G. Prinn,Peter A. Raymond,Daniel J. Ruiz,Guido R. van der Werf,Nicolas Vuichard,Junjie Wang,Ray F. Weiss,Kelley C. Wells,Chris Wilson,Jia Yang,Yuanzhi Yao +65 more
TL;DR: A global N2O inventory is presented that incorporates both natural and anthropogenic sources and accounts for the interaction between nitrogen additions and the biochemical processes that control N 2O emissions, using bottom-up, top-down and process-based model approaches.
Journal ArticleDOI
Global phosphorus retention by river damming
Taylor Maavara,Christopher T. Parsons,Christine Ridenour,Severin Stojanovic,Hans H. Dürr,Helen R. Powley,Philippe Van Cappellen +6 more
TL;DR: The global impact of dams on the riverine fluxes and speciation of the limiting nutrient phosphorus (P) is quantified using a mechanistic modeling approach that accounts for the in-reservoir biogeochemical transformations of P.
Journal ArticleDOI
River dam impacts on biogeochemical cycling
Taylor Maavara,Qiuwen Chen,Kimberly Van Meter,Lee E. Brown,Jianyun Zhang,Jinren Ni,Christiane Zarfl +6 more
TL;DR: In this article, the impacts of dams on nutrient cycling and greenhouse production are discussed, emphasizing the need to consider biogeochemical cycling at all stages of dam lifespan, and regulating hydraulic residence time and environmental flows (or e-flows) can be used in planning and operation from dam conception to deconstruction.
Journal ArticleDOI
Global perturbation of organic carbon cycling by river damming.
TL;DR: For the period 1970–2030, global carbon mineralization in reservoirs exceeds carbon fixation (P
Journal ArticleDOI
Nitrous oxide emissions from inland waters: Are IPCC estimates too high?
Taylor Maavara,Taylor Maavara,Ronny Lauerwald,Ronny Lauerwald,Goulven Gildas Laruelle,Goulven Gildas Laruelle,Zahra Akbarzadeh,Nicholas J. Bouskill,Philippe Van Cappellen,Pierre Regnier +9 more
TL;DR: This work develops a mechanistic modeling approach to explicitly predict N2 O production and emissions via nitrification and denitrification in rivers, reservoirs and estuaries, and introduces a water residence time dependence, which kinetically limits the extent of denitification and nitrification in water bodies.