伊利湖支流年悬浮沉积物和营养物质产量的驱动因素

IF 0.8 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES
L. T. Johnson, N. Manning, J. Dezse, J. Boehler, E. Clark, T. Fulton, N. Miller, A. Roerdink
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引用次数: 0

摘要

伊利湖在经历了 20 世纪 80 年代末到 90 年代的生态系统恢复期后,在 21 世纪初又出现了有害藻类大量繁殖和缺氧现象。与此相对应的是,伊利湖流域西部主要支流的溶解性活性磷负荷和流量加权平均浓度急剧增加。然而,伊利湖各支流的悬浮沉积物和营养物产量存在很大差异。众所周知,农业和城市用地会导致流域沉积物和营养物产量增加,尤其是在缺乏适当管理措施的情况下。然而,流域土壤类型和坡度等属性也会影响产量。我们研究了流域土地利用、水文、土壤类型和坡度对伊利湖支流年养分和沉积物产量的影响,这些支流是海德堡支流负荷计划监测的一部分。对所有主要营养物质和悬浮沉积物的分析每天至少进行一次取样,在暴雨径流期间最多进行三次取样。这些流域的 5 年平均年产量从西到东呈现出明显的地理模式,最东部的支流(库亚霍加、老妇人溪、休伦)悬浮沉积物较多,但营养物产量较低;最西部的支流(莱辛、蒂芬、迷失)沉积物最少,但营养物产量较低。Maumee、Portage、Sandusky 以及部分子流域的沉积物产量居中,营养物产量较高。总之,流域内种植作物的百分比和排水不良的土壤会增加养分产量,而坡度较大和牧场百分比较低则会增加沉积物产量。这些模式凸显了独特的区域差异,有助于指导这些流域的管理决策,最终改善伊利湖的健康状况。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Drivers of annual suspended sediment and nutrient yields in tributaries to Lake Erie
In the early 2000s, harmful algal blooms and hypoxia returned to Lake Erie following a period of ecosystem recovery from the late 1980s through the 1990s. This corresponds to a drastic increase in dissolved reactive phosphorus loads and flow-weighted mean concentrations in the major tributaries to the Western Lake Erie Basin. However, there is substantial variability in suspended sediment and nutrient yields across Lake Erie tributaries. It is well known that agricultural and urban land uses lead to increased watershed sediment and nutrient yields, especially in the absence of proper management practices. yet attributes such as watershed soil types and slope can also affect yields. We examined the influence of watershed land use, hydrology, soil type, and slope on annual nutrient and sediment yields from tributaries to Lake Erie monitored as part of the Heidelberg Tributary Loading Program. A minimum of one sample and, during storm runoff, up to three samples a day are analyzed for all major nutrients and suspended sediments. The 5-year average annual yields across these watersheds exhibited distinct geographic patterns from west to east, with high suspended sediment but lower nutrient yields from the eastern most tributaries (Cuyahoga, Old Woman Creek, Huron) and the lowest sediment along with lower nutrient yields from the western most tributaries (Raisin, Tiffin, Lost). The Maumee, Portage, Sandusky, along with select subwatersheds tended to have intermediate sediment yields with high nutrient yields. Altogether, the % cultivated crops and poorly drained soil in the watershed increased nutrient yields whereas a higher % slope and lower % pasture increased sediment yields. These patterns highlighted unique regional differences that can help guide management decisions for these watersheds that ultimately would improve the health of Lake Erie.
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来源期刊
Aquatic Ecosystem Health & Management
Aquatic Ecosystem Health & Management 环境科学-海洋与淡水生物学
CiteScore
1.70
自引率
0.00%
发文量
1
审稿时长
18-36 weeks
期刊介绍: The journal publishes articles on the following themes and topics: • Original articles focusing on ecosystem-based sciences, ecosystem health and management of marine and aquatic ecosystems • Reviews, invited perspectives and keynote contributions from conferences • Special issues on important emerging topics, themes, and ecosystems (climate change, invasive species, HABs, risk assessment, models)
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