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Paul J. Hanson
Researcher at Oak Ridge National Laboratory
Publications - 279
Citations - 21982
Paul J. Hanson is an academic researcher from Oak Ridge National Laboratory. The author has contributed to research in topics: Soil water & Peat. The author has an hindex of 70, co-authored 251 publications receiving 19504 citations. Previous affiliations of Paul J. Hanson include University of Costa Rica & Bethel University.
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Journal ArticleDOI
Evaluating the E3SM land model version 0 (ELMv0) at a temperate forest site using flux and soil water measurements
Junyi Liang,Gangsheng Wang,Daniel M. Ricciuto,Lianhong Gu,Paul J. Hanson,Jeffrey D. Wood,Melanie A. Mayes +6 more
TL;DR: In this article, the authors evaluated the simulation of soil respiration in the Energy Exascale EarthSystem Model (E3SM) land model version 0 (ELMv0) using long-term observations from the Missouri Ozark AmeriFlux (MOFLUX) forest site in the central US.
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Improvements of a dynamic global vegetation model and simulations of carbon and water at an upland-oak forest
TL;DR: In this article, some numerical schemes and a higher resolution soil texture dataset were employed to improve the Sheffield dynamic global vegetation model (SDGVM) using eddy covariance-based measurements.
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Whole-Ecosystem Warming Increases Plant-Available Nitrogen and Phosphorus in an Ombrotrophic Bog
Colleen M. Iversen,John M. Latimer,D. Brice,Joanne Childs,Holly Vander Stel,Camille E. Defrenne,Jake D. Graham,Natalie A. Griffiths,Avni Malhotra,Richard J. Norby,Keith C. Oleheiser,Jana R. Phillips,V. G. Salmon,Stephen D. Sebestyen,Xiaojuan Yang,Paul J. Hanson +15 more
TL;DR: In this article , a gradient of whole-ecosystem warming (from + 0 °C to + 9 °C) would increase plant-available nitrogen and phosphorus in an ombrotrophic bog in northern Minnesota, USA, and whether elevated CO2 would modify the nutrient response.
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Defining the Sphagnum Core Microbiome across the North American Continent Reveals a Central Role for Diazotrophic Methanotrophs in the Nitrogen and Carbon Cycles of Boreal Peatland Ecosystems
Max Kolton,David J. Weston,Xavier Mayali,Peter K. Weber,Karis J. McFarlane,Jennifer Pett-Ridge,Mark M. Somoza,Jory Lietard,Jennifer B. Glass,Erik A. Lilleskov,A. Jonathan Shaw,Susannah G. Tringe,Paul J. Hanson,Joel E. Kostka +13 more
TL;DR: This study characterizes the core Sphagnum microbiome across large spatial scales and indicates that diazotrophic methanotrophs, here defined as obligate methanOTrophs of the rare biosphere, play a keystone role in coupling of the carbon and nitrogen cycles in nutrient-poor peatlands.
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High Levels of Phenological Asynchrony Between Specialized Pollinators and Plants with Short Flowering Phases
María Alejandra Maglianesi,Paul J. Hanson,Emanuel Brenes,Gita Benadi,Matthias Schleuning,Bo Dalsgaard +5 more
TL;DR: This work quantified the level of phenological synchrony in plant-pollinator networks in Costa Rica and tested the relationship between pollinator specialization and the length of the flowering phase of the visited plants, finding that more specialized pollinators were more asynchronous with their plant partners.