3 Papers
Yude Pan is an academic researcher from United States Department of Agriculture. The author has contributed to research in topics: Temperate forest & Temperate rainforest. The author has an hindex of 2, co-authored 3 publications. Previous affiliations of Yude Pan include Durham University.
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Papers
Data-driven diagnostics of terrestrial carbon dynamics over North America
Jingfeng Xiao,Scott V. Ollinger,Steve Frolking,George C. Hurtt,David Y. Hollinger,Kenneth J. Davis,Yude Pan,Xiaoyang Zhang,Feng Deng,Jiquan Chen,Dennis D. Baldocchi,Bevery E. Law,M. Altaf Arain,Ankur R. Desai,Andrew D. Richardson,Ge Sun,Brian D. Amiro,Hank A. Margolis,Lianhong Gu,Russell L. Scott,Peter D. Blanken,Andrew E. Suyker +21 more
TL;DR: In this article, the authors use a data-driven approach to upscale eddy covariance flux observations from towers to the continental scale by integrating flux observations, meteorology, stand age, aboveground biomass, and a proxy for canopy nitrogen concentrations from AmeriFlux and Fluxnet-Canada Research Network as well as a variety of satellite data streams from the MODIS sensors.
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Canopy photosynthetic capacity drives contrasting age dynamics of resource use efficiencies between mature temperate evergreen and deciduous forests.
Hang Xu,Hang Xu,Jingfeng Xiao,Zhiqiang Zhang,Scott V. Ollinger,David Y. Hollinger,Yude Pan,Jiaming Wan +7 more
TL;DR: Age-dependent variability of forest light use efficiency (LUE) and inherent water use efficiency as well as their main regulatory variables in temperate regions were explored and showed that evergreen forest RUEs initially increased before reaching the mature stage, and then gradually declined; in contrast, Rues continuously increased with age for mature deciduous forests.
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Peak radial growth of diffuse-porous species occurs during periods of lower water availability than for ring-porous and coniferous trees.
Loïc D'Orangeville,Loïc D'Orangeville,Malcolm S. Itter,Malcolm S. Itter,Daniel Kneeshaw,J. William Munger,Andrew D. Richardson,James M. Dyer,David A. Orwig,Yude Pan,Neil Pederson +10 more
TL;DR: In this article, the authors used well-replicated dendrometer band data sampled frequently during the growing season to assess the growth phenology of 610 trees from 15 temperate species over 6 years.