稻田冬种绿肥对水稻产量和土壤肥力的影响

Effects of winter green manure cultivation on rice yield and soil fertility in paddy field

  • 摘要: 为探讨冬季种植绿肥作物改良土壤的生态作用, 以冬闲连作为对照, 通过连续8年的定位试验研究了冬种绿肥(紫云英、油菜和黑麦草)收获后翻压还田对后作水稻产量及土壤肥力的影响。结果表明: 连续8年冬种绿肥期间, 冬种绿肥各处理的水稻平均产量均高于冬闲对照, 但不同处理增产效果有所不同, 其中紫云英 早稻 晚稻处理增产效果最明显, 为10.48%, 其次是油菜 早稻 晚稻处理(7.31%), 黑麦草 早稻 晚稻处理的增产效果较差, 仅为5.76%。紫云英 早稻 晚稻处理的土壤pH和碱解氮含量最高, 与其他处理相比, pH增加0.58%~1.37%, 碱解氮增加6.59%~35.35%。黑麦草 早稻 晚稻处理的土壤有机质、有效磷、速效钾含量和C/N在各处理中最高, 分别较其他处理高2.99%~4.98%、19.25%~31.05%、16.97%~22.15%和0.97%~6.61%。相关性分析结果表明, 水稻产量与每穗颖花数、结实率、千粒重及土壤碱解氮、有效磷极显著相关(P<0.01), 与每穗粒数、有机质、速效钾显著相关(P<0.05), 而与穗长、有效穗数及土壤pH和C/N相关不显著; 水稻产量各构成要素与土壤养分之间的关系极为密切。综合来看, 稻田冬种绿肥有利于增加水稻产量和改善土壤肥力。

     

    Abstract: Green manure has been important as a complete source of high-quality nutrients, bio-fertilizers and organic fertilizers. Generally, paddy fields in southern China have been laid fallow in winter. This has generally amounted to waste of land resources for a significant portion of the year. Agricultural non-point source pollution caused by overuse of chemical pesticides with low-use efficiencies has had serious environmental pollution. Hence the large-scale promotion of winter green manure was crucial in achieving sustainable agricultural development. To explore the ecological role of winter green manure in improving soil nutrients, an experimental study was conducted where green plants (milk-vetch, ryegras, rapeseed) were planted during winter and plowed into rice fields 15 days before early rice planting for eight consecutive years. A continuous winter fallow was used as the control experiment. The results showed that average rice yield in fields with winter green manure was higher than in winter fallow fields. The most obvious increase was in the milk-vetch treatment (10.48%), followed by the rapeseed treatment (7.31%) and then the ryegrass treatment (5.76%). pH and alkaline hydrolysis nitrogen in the milk-vetch treatment was highest. pH and alkaline hydrolysis nitrogen increased by 0.58% 1.37% and 6.59% 35.35%, respectively. Organic matter, available P, available K and C/N ratio in soils with ryegrasse treatment were highest. Soil organic matter in ryegrass treatment was higher than that in other treatments by 2.99% 4.98%. Alao available P increased by 19.25% 31.05%, available K by 16.97% 22.15% and C/N ratio by 0.97% 6.61%. Rice yield highly significantly correlated (P < 0.01) with per-panicle spikelets, seed setting rate, grain weight, alkaline hydrolysis nitrogen and available P; and was significantly correlated (P < 0.05) with per-panicle grains, organic matter, available K and organic carbon; while it had no significant correlation with panicle length, effective panicle, soil pH and C/N ratio. The study showed extremely close correlation among the respective rice yield varibles and soil nutrients. On the whole, the study showed that winter green manure improved soil fertility and enhanced rice yield. Milk-vetch, ryegrass and rapeseed used in the experiment respectively belong to Leguminosae, Gramineae and Brassicaceae. These crops constituted the traditionally common winter green manure species in the study area. The study was critical for increased agricultural productivity, improved soil quality and increased farmer income. The paper provided the theoretical basis for improving soil fertility and land utilization for sustainable agricultural development in China.

     

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