洱海北部地区不同轮作农田氮、磷流失特性研究(英文)

Characteristics of Nitrogen and Phosphorus Losses in Different Crop Rotation Systems in the North of Erhai Lake Basin

[目的]本文通过研究洱海北部地区不同轮作模式下农田氮、磷流失特征以期为环境污染风险评估和制定相关措施控制由农业造成的面源污染提供参考。[方法]试验中通过调查采自洱海北部地区7个乡镇4种不同种植模式下的水样及施肥情况分析了田面水和沟渠水的氮、磷含量动态变化情况,以及肥料的投入量与田面水和沟渠水中氮、磷浓度的关系。[结果]田面水中,不同轮作模式下氮素的流失差异显著,蚕豆-水稻比大蒜-水稻模式减少氮素流失风险38%。水溶态氮是氮流失的主要形态。可溶性氮浓度以大蒜-水稻模式最高。不同轮作模式下田面水中氮浓度基本趋势为:大蒜-水稻>黑麦草-水稻>蚕豆-水稻>油菜-水稻。磷素流失总量偏低,且以泥沙结合态为主,不同轮作模式间各种形态的磷流失无显著差异。田面水中氮磷含量比沟渠水高,对总氮和总磷的增荷率分别为73%和82%。追肥是导致农田水对沟渠水增荷的关键因素。[结论]本研究中,大蒜-水稻是洱海流域农田氮磷流失风险最高的轮作模式。因此,应该综合考虑环境效益和经济效益,合理安排轮作模式。本研究为控制洱海流域农田面源污染和改善洱海水质提供了参考。

[Objective] Nitrogen and phosphorus losses of surface runoff in various crop rotation systems in the north of Erhai Lake basin were studied with the objective to provide references for risk evaluation of environmental pollution and formulating countermeasures to control the nonpoint source pollution from agriculture.[Method] Water samples collected in four typical crop rotation systems distributed in seven towns（townships） in the north of Erhai Lake basin were investigated,as well as the fertilizer input,to explore the dynamic change of nitrogen and phosphorus content in surface water of farmland and ditch water,and the correlation between fertilizer input and the concentrations of nitrogen and phosphorus in the surface water of farmland and in the ditch water.[Result] The results showed that nitrogen loss in surface water of farmland in different crop rotation systems differed greatly,and the risk of nitrogen loss was 38% lower in broad bean-rice crop rotation than that in garlic-rice crop rotation.The water soluble nitrogen was the primary form of nitrogen loss.The content of water soluble nitrogen was significantly higher in garlic-rice crop rotation than that in the other rotation systems,and the concentrations of nitrogen in the surface water of farmland in different crop rotation systems followed the sequence below：garlic-rice crop rotationryegrass-rice crop rotationbroad bean-rice crop rotationrape-rice crop rotation.The loss of phosphorus in the surface water of farmland was relatively low and phosphorus combined with silt was the primary form for phosphorus loss.There was no significant difference of the loss of various forms of phosphorus in different crop rotation systems.The contents of total nitrogen and total phosphorus in the surface water of farmland were higher than that in ditch water,with increasing rates of total nitrogen and total phosphorus in ditch water of 72% and 82%,respectively.Topdressing was the critical reason for the high concentrations of nitrogen and phosphorus in the surface water,which also caused the increasing load to the ditch water.[Conclusion] Both the nitrogen and phosphorus loss were the highest in garlic-rice crop rotation.Reasonable crop rotation systems should be established based on both the environmental and economic benefits.This study provided references for controlling the nonpoint source pollution of farmland and improving the water quality of Erhai Lake.