חיפוש מתקדם
Communar, G., Institute of Soil, Water and Environmental Sciences, Agricultural Research Organization, Volcani Center, Bet Dagan 50250, Israel
Friedman, S.P., Institute of Soil, Water and Environmental Sciences, Agricultural Research Organization, Volcani Center, Bet Dagan 50250, Israel
The previously derived coupled source-sink modeling approach for vertically heterogeneous cylindrical domains was extended to conditions prevailing when water uptake is controlled by diurnally time-varying, transpirationdriven plant resistance and by cyclic water applications, both leading to unsteady flow regimes in the rooting zone. Examples include simulations of diurnal variations in water uptake rates by plant roots (sinks) in homogeneous and vertically heterogeneous soils of various texture, under conditions of steady, continuous and unsteady water application, representative of various irrigation scheduling practices: pulsed, daily, and every few days. In coarsetextured, fast-responding soil, it is possible to meet the diurnal transpiration demand, but water losses through deep percolation are high. In soils of fi ner texture, daily short applications in the morning result in uptake patterns skewed toward morning, whereas all-day-long irrigation pushes the temporal uptake pattern toward the afternoon. In fi ne-Textured soils irrigated every few days, similar water uptake volumes result from either prolonged, all-day, or short, morning applications, but the through-cycle uptake rates are more even with all-day applications. © Soil Science Society of America.
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אודות
תנאי שימוש
Generalized coupled source-sink model for evaluating transient water uptake in trickle irrig ation: II. Irrigation scheduling scenarios
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Communar, G., Institute of Soil, Water and Environmental Sciences, Agricultural Research Organization, Volcani Center, Bet Dagan 50250, Israel
Friedman, S.P., Institute of Soil, Water and Environmental Sciences, Agricultural Research Organization, Volcani Center, Bet Dagan 50250, Israel
Generalized coupled source-sink model for evaluating transient water uptake in trickle irrig ation: II. Irrigation scheduling scenarios
The previously derived coupled source-sink modeling approach for vertically heterogeneous cylindrical domains was extended to conditions prevailing when water uptake is controlled by diurnally time-varying, transpirationdriven plant resistance and by cyclic water applications, both leading to unsteady flow regimes in the rooting zone. Examples include simulations of diurnal variations in water uptake rates by plant roots (sinks) in homogeneous and vertically heterogeneous soils of various texture, under conditions of steady, continuous and unsteady water application, representative of various irrigation scheduling practices: pulsed, daily, and every few days. In coarsetextured, fast-responding soil, it is possible to meet the diurnal transpiration demand, but water losses through deep percolation are high. In soils of fi ner texture, daily short applications in the morning result in uptake patterns skewed toward morning, whereas all-day-long irrigation pushes the temporal uptake pattern toward the afternoon. In fi ne-Textured soils irrigated every few days, similar water uptake volumes result from either prolonged, all-day, or short, morning applications, but the through-cycle uptake rates are more even with all-day applications. © Soil Science Society of America.
Scientific Publication
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