Book Chapter10.1017/CBO9781107339200.016
Leaf Temperature and Energy Fluxes
Gordon B. Bonan
- 01 Dec 2015
- pp 152-166
6
About: The article was published on 01 Dec 2015.
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References
Scalar Concentration Profiles in the Canopy and Roughness Sublayer
Ian N. Harman,John Finnigan +1 more
TL;DR: In this paper, a mixing-layer analogy for the flow at the canopy top is proposed to provide an additional length scale upon which the profiles depend and a set of criteria that allows a reduction in the empiricism associated with earlier forms in the literature.
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The influence of hilly terrain on canopy-atmosphere carbon dioxide exchange
TL;DR: In this article, the role of topography on the structure of turbulence within and above vegetation and its effect on canopy photosynthesis and the measurement of net ecosystem exchange of CO2 (Nee) using flux towers was considered.
A global reanalysis of vegetation phenology
TL;DR: In this article, a reanalysis of vegetation phenology for 256 globally distributed regions is performed using 10 years of MODIS fraction of photosynthetically active radiation (FPAR) absorbed by vegetation and leaf area index (LAI) data.
Canopy Development and Leaf Nitrogen Distribution in a Stand of Carex Acutiformis
TL;DR: The distribution of nitrogen concentration became less uniform during the growing period, thus supporting the prediction that nitrogen concentration should become less uniformly distributed with development of the canopy.
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Modelling the role of fires in the terrestrial carbon balance by incorporating SPITFIRE into the global vegetation model ORCHIDEE – Part 1: simulating historical global burned area and fire regimes
Chao Yue,P. Ciais,Patricia Cadule,Kirsten Thonicke,Sally Archibald,Sally Archibald,Benjamin Poulter,Wei Min Hao,Stijn Hantson,Stijn Hantson,Florent Mouillot,Pierre Friedlingstein,Fabienne Maignan,Nicolas Viovy +13 more
TL;DR: In this article, the authors incorporated the process-based prognostic fire module SPITFIRE into the global vegetation model ORCHIDEE, which was then used to simulate burned area over the 20th century.
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