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    An Enhanced Model of Land Water and Energy for Global Hydrologic and Earth-System Studies

    Source: Journal of Hydrometeorology:;2014:;Volume( 015 ):;issue: 005::page 1739
    Author:
    Milly, P. C. D.
    ,
    Malyshev, Sergey L.
    ,
    Shevliakova, Elena
    ,
    Dunne, Krista A.
    ,
    Findell, Kirsten L.
    ,
    Gleeson, Tom
    ,
    Liang, Zhi
    ,
    Phillipps, Peter
    ,
    Stouffer, Ronald J.
    ,
    Swenson, Sean
    DOI: 10.1175/JHM-D-13-0162.1
    Publisher: American Meteorological Society
    Abstract: M3 is a new model of terrestrial water, energy, and carbon, intended for use in global hydrologic analyses and as a component of earth-system and physical-climate models. It is designed to improve upon the performance and to extend the scope of the predecessor Land Dynamics (LaD) and LM3V models by better quantifying the physical controls of climate and biogeochemistry and by relating more directly to components of the global water system that touch human concerns. LM3 includes multilayer representations of temperature, liquid water content, and ice content of both snowpack and macroporous soil?bedrock; topography-based description of saturated area and groundwater discharge; and transport of runoff to the ocean via a global river and lake network. Sensible heat transport by water mass is accounted throughout for a complete energy balance. Carbon and vegetation dynamics and biophysics are represented as in LM3V. In numerical experiments, LM3 avoids some of the limitations of the LaD model and provides qualitatively (though not always quantitatively) reasonable estimates, from a global perspective, of observed spatial and/or temporal variations of vegetation density, albedo, streamflow, water-table depth, permafrost, and lake levels. Amplitude and phase of annual cycle of total water storage are simulated well. Realism of modeled lake levels varies widely. The water table tends to be consistently too shallow in humid regions. Biophysical properties have an artificial stepwise spatial structure, and equilibrium vegetation is sensitive to initial conditions. Explicit resolution of thick (>100 m) unsaturated zones and permafrost is possible, but only at the cost of long (?300 yr) model spinup times.
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      An Enhanced Model of Land Water and Energy for Global Hydrologic and Earth-System Studies

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    contributor authorMilly, P. C. D.
    contributor authorMalyshev, Sergey L.
    contributor authorShevliakova, Elena
    contributor authorDunne, Krista A.
    contributor authorFindell, Kirsten L.
    contributor authorGleeson, Tom
    contributor authorLiang, Zhi
    contributor authorPhillipps, Peter
    contributor authorStouffer, Ronald J.
    contributor authorSwenson, Sean
    date accessioned2017-06-09T17:15:27Z
    date available2017-06-09T17:15:27Z
    date copyright2014/10/01
    date issued2014
    identifier issn1525-755X
    identifier otherams-81950.pdf
    identifier urihttp://onlinelibrary.yabesh.ir/handle/yetl/4225009
    description abstractM3 is a new model of terrestrial water, energy, and carbon, intended for use in global hydrologic analyses and as a component of earth-system and physical-climate models. It is designed to improve upon the performance and to extend the scope of the predecessor Land Dynamics (LaD) and LM3V models by better quantifying the physical controls of climate and biogeochemistry and by relating more directly to components of the global water system that touch human concerns. LM3 includes multilayer representations of temperature, liquid water content, and ice content of both snowpack and macroporous soil?bedrock; topography-based description of saturated area and groundwater discharge; and transport of runoff to the ocean via a global river and lake network. Sensible heat transport by water mass is accounted throughout for a complete energy balance. Carbon and vegetation dynamics and biophysics are represented as in LM3V. In numerical experiments, LM3 avoids some of the limitations of the LaD model and provides qualitatively (though not always quantitatively) reasonable estimates, from a global perspective, of observed spatial and/or temporal variations of vegetation density, albedo, streamflow, water-table depth, permafrost, and lake levels. Amplitude and phase of annual cycle of total water storage are simulated well. Realism of modeled lake levels varies widely. The water table tends to be consistently too shallow in humid regions. Biophysical properties have an artificial stepwise spatial structure, and equilibrium vegetation is sensitive to initial conditions. Explicit resolution of thick (>100 m) unsaturated zones and permafrost is possible, but only at the cost of long (?300 yr) model spinup times.
    publisherAmerican Meteorological Society
    titleAn Enhanced Model of Land Water and Energy for Global Hydrologic and Earth-System Studies
    typeJournal Paper
    journal volume15
    journal issue5
    journal titleJournal of Hydrometeorology
    identifier doi10.1175/JHM-D-13-0162.1
    journal fristpage1739
    journal lastpage1761
    treeJournal of Hydrometeorology:;2014:;Volume( 015 ):;issue: 005
    contenttypeFulltext
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    DSpace software copyright © 2002-2015  DuraSpace
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