两种模拟牧场管理情景的养分损失比较。

Journal of Environmental Monitoring Pub Date : 2012-09-01 Epub Date: 2012-07-26 DOI:10.1039/c2em30390f
Rohith K Gali, Michelle L Soupir, Saied Mostaghimi
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引用次数: 7

摘要

放牧动物在牧场上的粪便沉积物有可能在降雨期间将营养物质淋滤到径流中。与农田不同,放牧系统,如牧场或牧场,几乎没有机会通过田间或田边管理实践来改善养分径流。因此,我们研究了模拟放牧地地表水流中养分的数量和浓度。模拟了以2个稀疏植被样地为代表的连续放牧和以2个茂密植被样地为代表的轮牧两种放牧模式。此外,还有两个对照区。用标准的奶牛处理这些地块,并模拟降雨,直到地块边缘的地面水流达到稳态。DV样地的径流量(9.97 mm)高于SV样地(7.05 mm),但SV样地径流量的平均总悬浮固体浓度约为DV样地径流量的17倍。模拟连续放牧样地平均总磷(TP)浓度最高,为5.91 mg L(-1)。在DV和SV图中发现至少83%的TP以溶解形式存在。SV样地径流样品的平均总凯氏氮(TKN)和总氮浓度分别为1.25和1.46 mg L(-1)。有机氮占SV地块径流样品中观测到的总氮的95%。与DV样地相比,SV样地颗粒相关形式的营养物质的负荷相对较高,而DV样地溶解形式的营养物质的负荷较高。研究发现,没有施用任何额外肥料的牧场释放出大量营养物质,植被对从径流中去除溶解的营养物质没有任何影响。这些结果有助于选择适当的管理措施,以减少以放牧地为主的流域的营养物质向地表水的输送。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A comparison of nutrient losses from two simulated pastureland management scenarios.

Fecal deposits by grazing animals on pasturelands have the potential to leach nutrients to runoff during rainfall events. Unlike croplands, grazing systems such as pasturelands or rangelands have little opportunity to ameliorate nutrient runoff through in-field or edge-of-field management practices. Thus, we investigated the amounts and concentrations of nutrients in overland flow from simulated grazing lands. Two grazing management scenarios were simulated: continuous grazing represented by two sparsely vegetated (SV) plots and rotational grazing represented by two densely vegetated (DV) plots. In addition, there were two control plots. The plots were treated with standard cowpats and rainfall was simulated until overland flow at the edge of the plots reached steady-state. Higher runoff was observed from DV plots (9.97 mm) than SV plots (7.05 mm), but the average total suspended solids concentration in runoff from SV plots was approximately 17 times the concentration observed in runoff from the DV plots. The average total phosphorus (TP) concentrations were highest in plots simulating continuous grazing (5.91 mg L(-1)). In both DV and SV plots at least 83% of the TP was found to be in the dissolved form. The average total Kjeldhal nitrogen (TKN) and total nitrogen concentrations observed in runoff samples from SV plots were 1.25 and 1.46 mg L(-1), respectively. Organic nitrogen comprised 95% of the TKN observed in runoff samples from SV plots. The SV plots have relatively higher loads for those nutrients in the particle associated form compared to DV plots, whereas DV plots had higher loads for those nutrients in the dissolved form. Grazing lands without any additional manure applications were found to release nutrients in high levels and vegetation did not show any effect on removing dissolved nutrients from runoff. These results are useful to inform selection of appropriate management practices to reduce nutrient transport to surface waters in watersheds dominated by grazed lands.

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来源期刊
Journal of Environmental Monitoring
Journal of Environmental Monitoring 环境科学-分析化学
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