Mark Decker
University of New South Wales
21 Papers
176 Citations
Mark Decker is an academic researcher from University of New South Wales. The author has contributed to research in topics: Evapotranspiration & Water content. The author has an hindex of 13, co-authored 21 publications. Previous affiliations of Mark Decker include University of Arizona.
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Papers
Technical Description of version 4.0 of the Community Land Model (CLM)
W. Oleson,Mark Lawrence,B. Bonan,G. Flanner,Erik Kluzek,J. Lawrence,Samuel Levis,C. Swenson,E. Thornton,Aiguo Dai,Mark Decker,Robert E. Dickinson,Johannes J. Feddema,L. Heald,Forrest M. Hoffman,Jean-Francois Lamarque,Natalie M. Mahowald,Guo Yue Niu,Taotao Qian,James T. Randerson,S. W. Running,Koichi Sakaguchi,Andrew G. Slater,Reto Stöckli,Aihui Wang,Zong-Liang Yang,Xiaodong Zeng,Xubin Zeng +27 more
- 01 Jan 2010
Evaluation of the Reanalysis Products from GSFC, NCEP, and ECMWF Using Flux Tower Observations
TL;DR: In this article, flux tower observations of temperature, wind speed, precipitation, downward shortwave radiation, net surface radiation, and latent and sensible heat fluxes are used to evaluate the performance of various reanalysis products.
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Land surface models systematically overestimate the intensity, duration and magnitude of seasonal-scale evaporative droughts
Anna M. Ukkola,M. G. De Kauwe,Andrew J. Pitman,Martin Best,Gab Abramowitz,Vanessa Haverd,Mark Decker,Ned Haughton +7 more
TL;DR: In this paper, the authors evaluated 8 different land surfacemodels (LSMs) for simulating evapotranspiration (ET) during periods of evaporative drought (Edrought) across six fire tower sites.
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Influence of Leaf Area Index Prescriptions on Simulations of Heat, Moisture, and Carbon Fluxes
Jatin Kala,Mark Decker,Jean-François Exbrayat,Andrew J. Pitman,C. Carouge,Jason P. Evans,Gab Abramowitz,David Mocko +7 more
TL;DR: In this article, the influence of differing, plausible LAI prescriptions on heat, moisture, and carbon fluxes simulated by the Community Atmosphere Biosphere Land Exchange version 1.4b (CABLEv14b) model over the Australian continent is investigated.
Improving snow processes in the Noah land model
Zhuo Wang,Xubin Zeng,Mark Decker +2 more
TL;DR: In this article, a detailed diagnostics of the Noah output over the high-altitude Niwot Ridge forest site and a boreal forest site (40.03°N, 105.55°W) were performed and six deficiencies in the Noah land model physics were identified along with improved formulations that (1) consider the vegetation shading effect on snow sublimation and snowmelt; (2) consider under-canopy resistance; (3) revise the ground heat flux computation when snow is deep; (4) revise momentum roughness length computation, and (
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