亏缺灌溉对花生生长和产量的影响与AquaCrop模型模拟相比

Febery Hery Suandana, Cahyoadi Bowo, S. Soeparjono
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引用次数: 0

摘要

生长季节灌溉水的可用性反映了花生生长季节结束时的潜在产量。监测水的可用性对于优化生产至关重要。本研究旨在确定灌溉水对花生的影响在实际和模拟AquaCrop之间的各种灌溉条件下。试验采用田间容量的60%、80%、100%和标准灌溉四种灌溉处理。实际值与模拟值之间的相关性结果表明,冠层覆盖参数的R2值为0.974–0.990,ETc为0.026–0.534,生产为0.542-0.554。实际和模拟AquaCrop之间的比较显示,冠层覆盖参数的均方根误差(RMSE)值为5.08–9.74,ETc为1.11–3.12,生产为0.82–1.09。Welch检验统计分析表明,植物生物量的值为2.31–5.52,干荚产量的值为0.04–3.98。AquaCrop模拟准确预测了80%灌溉处理下的冠层覆盖率,而标准灌溉处理下为60%、100%。AquaCrop模拟中的ETc参数显示,与所有灌溉处理的实际结果相比,对生物质产量和荚干重的预测不准确。
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Effect of deficit irrigation on the growth and yield of peanuts (Arachis hypogaea (L.) Merr.) compared to AquaCrop model simulation
The availability of irrigation water during the growing season reflects on the potential yield at the end of the peanuts’ growing season. Monitoring water availability is essential to optimize production. This study aimed to identify the effect of irrigation water on peanuts (Arachis hypogaea (L.) Merr.) under various irrigation conditions between actual and simulated AquaCrop. The research was conducted in the experimental field utilizing four irrigation treatments which were 60%, 80%, 100% of  field capacity (FC), and standard irrigation. The correlation results between the actual and simulated ones showed that the R2 value was 0.974–0.990 for the canopy cover parameter, 0.026–0.534 for ETc, and 0.542-0.554 for production. Comparison between actual and simulated AquaCrop showed Root Mean Square Error (RMSE) values of 5.08–­­9.74 for canopy cover parameters, 1.11–3.12 for ETc, and 0.82–1.09 for production. Welch test statistical analysis indicated values of 2.31–5.52 for plant biomass and 0.04–3.98 for dry pod yields. The AquaCrop simulation accurately predicted canopy cover at 80% irrigation treatment compared to 60%, 100%, and standard irrigation treatments. Parameter of ETc in AquaCrop simulations showed inaccurate predictions for biomass production and pod dry weight when compared with actual results on all irrigation treatments.
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