Water and heat transfer characteristics in summer maize farmland and its response to environmental fac-tors in the old course of Yellow River
Accurate assessment of material and energy exchange between land and atmosphere is essential for water resources management and sustainable development of agriculture.To understand the characteristics of energy distri-bution and the dynamic change process of water and heat fluxes within the maize farmland ecosystem in the old course of Yellow River and their response to meteorological factors,we utilized the eddy covariance measurements and the full-element automatic weather station to continuously observe energy fluxes and conventional meteorological elements of summer maize farmland in the old course of Yellow River during 2019-2020.We analyzed the variation of energy fluxes and the effects of environmental factors,such as temperature,precipitation,and wind speed.Addi-tionally,we calculated the energy closure rate and the proportion of energy distribution during the growth stage.The results showed that the peaks of net radiation,sensible heat flux,and latent heat flux occurred between 11:00 and 14:00,and the peak of soil heat flux occurred between 14:00 and 15:00.In terms of energy distribution,energy consumption of summer maize farmland during the whole growth period was dominated by latent heat flux and sensi-ble heat flux.Energy was mainly consumed by sensible heat flux at sowing-emergence stage,accounting for 37.1%of net radiation,respectively.Energy in the rest of growth stages was dominated by latent heat flux.The energy clo-sure rate during the whole growth period was better,with a coefficient of determination of 0.83,and the closure rate was higher in day and lower at night.Precipitation affected latent heat flux and sensible heat flux,and latent heat flux was more sensitive to precipitation.The increase of latent heat flux after rainfall was lower in late growth stage than in early growth stage.During the whole growth period of summer maize,solar radiation was the most significant meteorological factor affecting both sensible heat flux and latent heat flux,followed by vapor pressure deficit.The contribution of temperature and vapor pressure deficit to latent heat flux was significantly higher than sensible heat flux,while the relative contribution of wind speed,relative humidity,and solar radiation to latent heat flux was lower than sensible heat flux.Leaf area index and fractional vegetation cover had a significant positive correlation with latent heat flux and a significant negative correlation with sensible heat flux.Our results could deepen the un-derstanding of water and heat transfer law of summer maize farmland in the old course of Yellow River,providing a theoretical basis for efficient water use of crops.
maize farmlandlatent heat fluxsensible heat fluxenergy balance characteristicsenvironmental factorthe old course of Yellow River
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