C Olivier, J P Goffart, D Baets, D Xanthoulis, N Fonder, G Lognay, J P Barthélemy, P Lebrun
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引用次数: 0
摘要
在马铃薯沟中使用微型水坝是一项有趣的技术,可以减少丘陵地区的侵蚀和径流。这些现象是营养物和植物保护产品污染地表水的主要来源(Gillijns et al., 2005)。2011年,拜耳作物科学公司与瓦隆农业研究中心(CRA-W)和比利时Huldenberg的ULg-Gembloux农业生物技术公司合作开展了一项试验,在土豆上展示了这项技术。微型水坝在犁沟之间制造屏障,以鼓励雨水渗入土壤而不是流走。今年的试验结果证实,微型水坝的应用在显著减少侵蚀和径流方面是有效的。植物保护产品(PPP)在地表水中的总损失大大减少,并且很大程度上取决于有效成分的物理化学特性。此外,由于对可利用的雨水和养分进行了优化利用,该技术倾向于生产更高产量的马铃薯块茎。
USE OF MICRO-DAMS IN POTATO FURROWS TO REDUCE EROSION AND RUNOFF AND MINIMISE SURFACE WATER CONTAMINATION THROUGH PESTICIDES.
The use of micro-dams in potato furrows is an interesting technology to reduce erosion and runoff in hilly areas. These phenomena are major sources of surface water contamination by nutrients and plant protection products (Gillijns et al., 2005). In 2011 Bayer CropScience set up a trial in collaboration with the Walloon Agricultural Research Centre (CRA-W) and ULg-Gembloux Agro-Bio Tech in Huldenberg (Belgium) to demonstrate this technique in potatoes. Micro-dams create barriers between furrows in order to encourage rainwater to infiltrate in the soil rather than to run off. The results from the trial over this year confirm that the application of micro-dams is effective in reducing erosion and runoff significantly. The total loss of plant protection products (PPP) to surface water is dramatically reduced and also strongly depends on the physic-chemical characteristics of the active ingredients. In addition, the technique tends to produce a higher yield of potato tubers as an effect of an optimised utilisation of the available rainwater and nutrients.
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