华北平原40年夏玉米作物系数变化及影响因素

Changes and influencing factors of crop coefficient of summer maize during the past 40 years in the North China Plain

  • 摘要: 作物系数(作物实际蒸散量与参考作物蒸散量之比, Kc)作为农田需耗水确定的关键参数, 对农业精准灌溉和节水具有重要的参考价值。研究作物系数如何受生产条件和气象条件变化的影响, 可为准确确定作物系数提供依据。本研究基于中国科学院栾城农业生态系统试验站1980—2018年充分灌溉条件下夏玉米作物系数变化规律及影响因素, 利用2019—2021年夏玉米不同灌水处理下的试验数据, 确定不同供水条件下夏玉米作物系数的计算方法。结果表明, 1980—2018年参考作物蒸散量(ETo)基本保持稳定, 但存在年际波动。充分供水条件下夏玉米实际蒸散量(ETc)在2005年之前保持年际间稳定, 近年来年际间波动幅度较大。作物实际蒸散量与参考作物蒸散量之比的作物系数多年平均值为0.91, 年际变异系数为12.36%。作物系数受作物产量和大气条件影响, 产量的增加伴随着夏玉米实际蒸散量的增加, 参考作物蒸散量主要受平均风速和日照时数的影响。分析表明作物系数由参考作物蒸散量和实际蒸散量共同决定, 且受夏玉米实际蒸散量的影响较大。灌水量的差异是造成相同年份不同处理间差异的主要因素。利用缺水处理下土壤水分状况和不同土层相对根长密度计算土壤水分胁迫系数, 结果表明使用缺水灌溉处理的土壤有效水分含量对夏玉米作物系数进行校正, 所得值与实际值最为接近, 可根据计划控制的土壤水分状况调整作物系数, 确定不同控水条件下的农田实际耗水量。

     

    Abstract: As a key parameter for determining crop water consumption, accurate estimation of the crop coefficient (Kc) is important for irrigation scheduling. Kc is influenced by changes in production and meteorological conditions. This study analyzed Kc changes from 1980 to 2018 for summer maize under sufficient water supply based on long-term field experiments at the Luancheng Agro-Ecosystem Experimental Station of the Chinese Academy of Sciences. Using data of the three most recent seasons from 2019 to 2021 for maize under normal and water-deficit conditions, the calibration coefficient of Kc by soil water content was developed and tested. The results showed that the reference crop evapotranspiration (ETo) was stable from 1980 to 2018; however, seasonal fluctuations were observed. The actual evapotranspiration (ETc) of summer maize under adequate water supply conditions has substantially changed over recent years. The multiyear average Kc for maize was 0.91, and the interseasonal variation coefficient was 12.36%. Kc is affected by crop yield and atmospheric conditions. An increase in yield was accompanied by an increase in the ETc of summer maize. ETo was mainly affected by average wind speed and sunshine hours. Our analysis revealed that Kc is determined by ETo and ETc and is greatly affected by the ETc of summer maize. For the three most recent seasons, the difference in irrigation quantity was the main factor causing differences in Kc among the different treatments in the same season. Kc adjustment using different methods considering the soil water content could be used to estimate ETc. Incorporating the root length distribution factor into the soil water status for Kc adjustment provided a better estimate of ETc using the crop coefficient method. Therefore, Kc can be adjusted according to the root-zone soil moisture status to determine the actual crop water consumption.

     

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