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肥药减施技术集成对长江中下游地区单季稻产量及病虫害防治的效应

  1. 1 安徽省庐江县农业技术推广中心,安徽 庐江 231500;2 中国水稻研究所/水稻生物学国家重点实验室,杭州 310006
  • 出版日期:2020-07-20 发布日期:2020-07-20
  • 通讯作者: 张均华
  • 基金资助:
    国家重点研发计划(2016YFD0200801)

Effects of Integrated Reduced Chemical Fertilizer and Pesticide Application Technologies on the Yield and Control Effects of Diseases and Pest of Single Cropping Rice in Mid-low Reaches of Yangtze River

  • Online:2020-07-20 Published:2020-07-20

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摘要: 在保障水稻稳产的条件下,集成了长江中下游地区单季稻区水稻化肥和农药减施技术。通过田间试验,研究了施用硅肥、减施氮肥、施用微生物菌肥以及不同病虫害防治技术的配合对长江中下游地区单季稻产量及病虫害防控效果的影响。结果表明,当施氮量由现有农民习惯施氮量(纯N)300 kg/hm2减量至240 kg/hm2时,对水稻产量影响不大,且产量在与其他几种不同技术配合下表现也最为稳定。在施氮量为180 kg/hm2或240 kg/hm2条件下,通过配施硅肥和“三防两控”技术配套,均可达到与农民习惯氮肥施用量(300 kg/hm2)和病虫害常规防治方式下的产量水平。此外,氮肥减施配施硅肥结合“三防两控”的技术集成,可以在产量不降低的条件下,减少1次用药、52.8%固体剂型农药用量和61.0%液体剂型农药用量,同时达到与常规施肥和防治措施下的同等防控效果。说明该技术适宜在长江中下游地区单季稻区推广应用,是实现产量提升和肥药减施的有效途径之一。

关键词: 氮肥减施, 农药减施, 施用硅肥, 水稻产量, 病虫害防治

Abstract: Integrating technologies to reduce input rate of chemical fertilizer and pesticide for single cropping rice area in mid-low reaches of Yangtze River without sacrificing yields. A field experiment was conducted to study the effects of distinct technology combinations among silicon application, reduced application of nitrogen fertilizer, bio-fertilizer application and different techniques of pest control on the yield and the control effects of diseases and pest of rice in mid-low reaches of Yangtze River. The results showed that, there was no significant difference in rice yield if the input rate of nitrogen fertilizer reduced from 300 kg/hm2 to 240 kg/hm2, and the yield was also the most stable in 240 kg N/hm2 among different technology combinations. Under the nitrogen application rate of 180 kg/hm2 or 240 kg/hm2, the combined application of silicon fertilizer and “three preventions and two controls” technology could achieve the same yield level with farmers' nitrogen fertilization practice (300 kg/hm2) under conventional diseases and pests control technology. In comparison with the farmers' nitrogen fertilization practice (300 kg/hm2) under conventional diseases and pests control technology, the reduced nitrogen fertilization combined with silicon fertilization and “three preventions and two controls” technology not only reduced pesticide application once and significantly reduced the usage of solid and liquid pesticide by 52.8% and 61.0% , respectively, without sacrificing yields, but also achieved the same prevention and control effects with conventional diseases and pests control technology. Thus, this integration technology of reduced nitrogen fertilization combined with silicon fertilization and “three preventions and two controls” is a relatively effective means of increasing rice yield and reducing chemical fertilizer and pesticide application, which could be widely used for single cropping rice in mid-low reaches of Yangtze River.

Key words: reduced input rate of nitrogen, reduced application of pesticide, application of silicon, grain yield, control of diseases and pest

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