进入加州萨克拉门托-圣华金三角洲的营养物浓度、负荷和相关趋势

Q3 Agricultural and Biological Sciences
D. Saleh, J. Domagalski
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引用次数: 1

摘要

对美国加利福尼亚州维尔纳里斯附近的萨克拉门托河和弗里波特附近的圣华金河收集的水质数据进行统计建模,用于研究1970年至2019年间从上游来源进入萨克拉门托-圣华金河三角洲(三角洲)的各种形式的溶解态和颗粒态氮和磷的浓度和负荷趋势。从20世纪70年代中期到1990年,由于废水处理的巩固,萨克拉门托河遗址的铵浓度和负荷下降,从20世纪70年代中期到2019年,圣华金河遗址的铵浓度和负荷持续下降。目前这两个地点的铵浓度大多低于4µM (0.056 mg N - L-1),高于该浓度可能会导致浮游植物生产力下降或藻类种类组成发生变化。位于自由港的萨克拉门托河位于萨克拉门托地区县卫生区处理设施排放点的上游;营养水水质具有上游来源的代表性。两个地点的无机氮(硝态氮和铵态氮)浓度和负荷不同。在萨克拉门托河的位置,浓度在夏季农业季节下降,降低氮与磷的摩尔比。相比之下,在农业季节,由于灌溉径流,圣华金河中的无机氮浓度增加,氮磷摩尔比增加。生物有效氮与生物有效磷的摩尔比表明,这种增加表明北部三角洲可能存在氮限制,南部三角洲可能存在磷限制。萨克拉门托地区污水处理厂(SRWTP)的计划升级将减少流入北部三角洲的无机氮。因此,整个河口上游的生物有效氮供应应该减少。氮和磷的来源模型确定农业、大气沉积和废水排放是中央山谷中总氮的来源。相比之下,地质来源、农业和废水排放是磷的主要来源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Concentrations, Loads, and Associated Trends of Nutrients Entering the Sacramento–San Joaquin Delta, California
Statistical modeling of water-quality data collected at the Sacramento River at Freeport and San Joaquin River near Vernalis, California, USA, was used to examine trends in concentrations and loads of various forms of dissolved and particulate nitrogen and phosphorus that entered the Sacramento–San Joaquin River Delta (Delta) from upstream sources between 1970 and 2019. Ammonium concentrations and loads decreased at the Sacramento River site from the mid-1970s through 1990 because of the consolidation of wastewater treatment and continuously reduced from the mid-1970s to 2019 at the San Joaquin River site. Current ammonium concentrations are mostly below 4 µM (0.056 mg N L–1) at both sites, a concentration above which reductions in phytoplankton productivity or changes in algal species composition may occur. The Sacramento River at Freeport site is located upstream of the Sacramento Regional County Sanitation District’s treatment facility’s discharge point; nutrient water quality there is representative of upstream sources. Inorganic nitrogen (nitrate plus ammonium) concentrations and loading differed at both sites. At the Sacramento River location, concentrations decrease in the summer agricultural season, reducing the molar ratios of nitrogen to phosphorus. In contrast, inorganic nitrogen concentrations increase in the San Joaquin River during the agricultural season as a result of irrigation runoff, increasing the molar ratio of nitrogen to phosphorus. This increase suggests a possible nitrogen limitation in the northern Delta and a phosphorus limitation in the southern Delta, as indicated by the molar ratios of bioavailable nitrogen to bioavailable phosphorus. Planned upgrades to the Sacramento Regional Wastewater Treatment Plant (SRWTP) will reduce inorganic nitrogen inputs to the northern Delta. Consequently, the supply of bioavailable nitrogen throughout the upper estuary should diminish. Source modeling of nitrogen and phosphorus identifies agriculture, atmospheric deposition, and wastewater effluent as sources of total nitrogen in the Central Valley. In contrast, geologic sources, agriculture, and wastewater discharge are the primary sources of phosphorus.
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来源期刊
San Francisco Estuary and Watershed Science
San Francisco Estuary and Watershed Science Environmental Science-Water Science and Technology
CiteScore
2.90
自引率
0.00%
发文量
24
审稿时长
24 weeks
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