Simulations of Meteorological Variations over Arctic Coastal Tundra under Various Physical Interface Conditions

Meteorological properties of the tundra are treated within the context of a general ecosystem model. The biosphere is placed in the role of an active interface within a stack of horizontally uniform physical layers under the influence of incident solar radiation, the demonstrably dominant exogenous...

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Veröffentlicht in:	Arctic and alpine research 1972-08, Vol.4 (3), p.189-209
Hauptverfasser:	Lord, Norman W., Pandolfo, Joseph P., Atwater, Marshall A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Albedo Atmospheric models Atmospheric moisture Ecosystem models Moisture content Permafrost Soil air Soil water Tundra soils Tundras U.S. IBP Tundra Biome Research
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container_title	Arctic and alpine research
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creator	Lord, Norman W. Pandolfo, Joseph P. Atwater, Marshall A.
description	Meteorological properties of the tundra are treated within the context of a general ecosystem model. The biosphere is placed in the role of an active interface within a stack of horizontally uniform physical layers under the influence of incident solar radiation, the demonstrably dominant exogenous state variable. Diurnal variation of the thermodynamic states of these physical layers is calculated as the solution of differential equations governing the diffusion of heat and moisture. The results of numerical experiments on dry ground regions demonstrate that atmospheric moisture and temperature, during the biotically active summertime, are influenced by the meteorological history of the immediately preceding summertime level of the permafrost boundary. They are influenced to a degree that is at least comparable to the effect of daily fluctuations in cloud cover and prevailing winds. Numerical experiments on tundra shallow lakes imply a strong influence by the region's heterogeneity on near-surface air temperatures.
doi_str_mv	10.1080/00040851.1972.12003638
format	Article
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The biosphere is placed in the role of an active interface within a stack of horizontally uniform physical layers under the influence of incident solar radiation, the demonstrably dominant exogenous state variable. Diurnal variation of the thermodynamic states of these physical layers is calculated as the solution of differential equations governing the diffusion of heat and moisture. The results of numerical experiments on dry ground regions demonstrate that atmospheric moisture and temperature, during the biotically active summertime, are influenced by the meteorological history of the immediately preceding summertime level of the permafrost boundary. They are influenced to a degree that is at least comparable to the effect of daily fluctuations in cloud cover and prevailing winds. 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The biosphere is placed in the role of an active interface within a stack of horizontally uniform physical layers under the influence of incident solar radiation, the demonstrably dominant exogenous state variable. Diurnal variation of the thermodynamic states of these physical layers is calculated as the solution of differential equations governing the diffusion of heat and moisture. The results of numerical experiments on dry ground regions demonstrate that atmospheric moisture and temperature, during the biotically active summertime, are influenced by the meteorological history of the immediately preceding summertime level of the permafrost boundary. They are influenced to a degree that is at least comparable to the effect of daily fluctuations in cloud cover and prevailing winds. 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subjects	Albedo Atmospheric models Atmospheric moisture Ecosystem models Moisture content Permafrost Soil air Soil water Tundra soils Tundras U.S. IBP Tundra Biome Research
title	Simulations of Meteorological Variations over Arctic Coastal Tundra under Various Physical Interface Conditions
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