Predicting water quality trends resulting from forest cover change in an agriculturally dominated river basin in Eastern Ontario, Canada

IF 2.4 4区 环境科学与生态学 Q2 WATER RESOURCES Water Quality Research Journal Pub Date : 2021-09-17 DOI:10.2166/wqrj.2021.010
M. Noteboom, O. Seidou, D. Lapen
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引用次数: 2

Abstract

Agricultural extensification and forest cover loss can significantly impact aquatic ecosystems. This study considered the conversion of forests to agriculture (and vice versa) in an agriculturally dominated watershed in Eastern Ontario, Canada. A series of de- and reforestation scenarios were developed, and water quantity/quality simulations were executed using the Soil and Water Assessment Tool (SWAT) using 30 years of real-world weather observations. Results indicated that streamflow and sediment loads were not sensitive to forest loss, while continuing the recent rate of deforestation of 0.8% (0.2% of the watershed area) per year would, by 2032, increase annual loads of nitrate by 5.6%, total nitrogen by 1.5%, and total phosphorus by 6.8%. Additionally, the same land-use scenarios were simulated with the inclusion of vegetated filter strips (VFS) and grassed waterways. Some reforestation scenarios were sufficient to reduce total nitrogen concentrations below water quality guidelines, particularly under the combined effect of VFSs along all river reaches. However, meeting water quality guidelines for total phosphorus concentrations requires additional improvements to management practices beyond those simulated here.
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加拿大安大略省东部以农业为主的河流流域森林覆盖变化导致的水质趋势预测
农业扩张和森林覆盖的减少会对水生生态系统产生重大影响。这项研究考虑了加拿大安大略省东部一个以农业为主的流域的森林向农业的转变(反之亦然)。开发了一系列的去森林和重新造林情景,并使用土壤和水评估工具(SWAT)使用30年的真实世界天气观测进行了水量/质量模拟。结果表明,径流和泥沙负荷对森林损失不敏感,而到2032年,继续以每年0.8%(流域面积的0.2%)的近期森林砍伐率,硝酸盐的年负荷将增加5.6%,总氮增加1.5%,总磷增加6.8%。此外,模拟了相同的土地利用场景,包括植被过滤带(VFS)和草地水道。一些重新造林的情景足以将总氮浓度降低到水质准则以下,特别是在所有河段的VFS的综合影响下。然而,要达到总磷浓度的水质指南,除了这里模拟的管理实践之外,还需要对管理实践进行额外的改进。
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CiteScore
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自引率
8.70%
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0
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