灌溉模式对红壤稻田土壤环境及水稻产量的影响

    Effects of irrigation methods on soil environment and rice yield in paddy ecosystems

    • 摘要: 为优化红壤丘陵区水稻生产的水分管理模式,以中国科学院桃源农业生态试验站长期田间定位试验为研究对象,模拟分析了江南红壤丘陵区4种不同灌溉模式对稻田的土壤环境及系统生产力的影响。结果表明,土壤环境方面,雨养稻田与模拟节水灌溉相比,水稻生育期白天平均土壤温度高0.3~0.5℃;长期淹灌红壤稻田土壤体积质量相对较低,土壤蓄水能力较强,有利于土壤有机质的累积和氮素质量分数的提高,淹灌表层(0~20 cm)土壤全氮质量分数较雨养和湿灌分别高10.8%和8.8%,土壤有机质质量分数分别高7.0%和6.1%。由于江南丘陵区降雨资源丰富,早稻期间雨量充沛,处理间早稻产量差异主要来自不同灌溉模式下土壤环境尤其是土壤养分条件的改变;晚稻期间,水分则成为水稻产量提高的限制因子,雨养区晚稻产量显著低于其他灌溉处理。相对于其他水分管理模式,红壤双季稻田淹水灌溉模式能够获得更高的水稻产量。

       

      Abstract: On the basis of the long-term field experiments in Taoyuan Experimental Station of Agriculture Ecosystem-CERN, Hunan Province, effects of irrigation methods on the soil physic and chemical properties and productivity of paddy were simulated and analyzed. The four treatments included rain-fed paddy field (RI), basin irrigation (BI), normal irrigation (NI), controlled moist irrigation (CI). The results showed that in the red soil region of south China, BI led a low soil bulk density and a high water storage capacity, which were favorable for the accumulation of soil organic matter (SOC) and nitrogen (N). SOC in surface layer (0-20 cm) of BI was higher than RI and CI by 7.0% and 6.1%, respectively, and soil N was 10.8% and 8.8%. The experiment also showed that, the soil surface temperature of RI was 0.3-0.5℃ higher than CI during days of rice growing. Because of the rich rainfall resources in this area, the differences yield of the early rice among treatments could be attributed to the changes of soil nutrients induced by different irrigation methods. And water became the limited factor for the high yield of late rice. Among the four irrigation methods, BI might be the best model for obtaining high rice yield.

       

    /

    返回文章
    返回