Hydrologic and Nutrient Fluxes in a Small Watershed with Changing Agricultural Practices

IF 0.5 4区环境科学与生态学 Q4 ECOLOGY

Northwest Science Pub Date : 2021-10-12 DOI:10.3955/046.095.0103

Bridger Cohan, David A. Hooper, M. Roy, A. Peter, Nathan L. R. Williams

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引用次数: 0

Abstract

Abstract Nonpoint-source nutrients contribute to eutrophication of surface waters. While effects of particular management actions are difficult to identify at the watershed scale, assessing nutrient fluxes over time can illuminate the net impact of trends in land use and management. We investigated nutrient fluxes in upper Kamm Creek in northwest Washington State to determine if historical changes in land management, responding to economic and regulatory shifts, had impacted nutrient export. We compared current (October 2015 to September 2018) nitrogen and phosphorus fluxes in Kamm Creek to data from a previous study (1993 to 1998). We found significantly higher current fluxes of nitrate, and significantly lower current fluxes of orthophosphate (P) and total phosphorus (TP), compared to the historical sampling period. The increased annual nitrate flux resulted from slightly higher average discharge and significantly higher nitrate concentrations throughout the year. In contrast, current P and TP concentrations were significantly lower throughout the year than previously. The Nooksack River, which receives water from the study stream, showed similar patterns for P and TP, but not nitrate. Kamm Creek had reduced phosphorus fluxes and increased nitrate fluxes between the 1993 to1998 and 2015 to 2018 time periods. The watershed experienced several concurrent land-use changes, including reductions in hay and corn acreage, increases in berry crop acreage, legislation to reduce manure application, and altered use of nitrate-enriched groundwater. We cannot currently distinguish among these. Further understanding relationships between specific management changes and nutrient fluxes will help to maintain local agricultural productivity and improve water quality.

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农业实践变化下小流域的水文和养分通量

摘要非点源营养物质导致地表水体富营养化。虽然很难在流域范围内确定特定管理行动的影响，但评估营养素随时间的变化可以说明土地利用和管理趋势的净影响。我们调查了华盛顿州西北部卡姆溪上游的养分通量，以确定土地管理的历史变化是否对养分出口产生了影响。我们将Kamm Creek目前（2015年10月至2018年9月）的氮和磷通量与之前研究（1993年至1998年）的数据进行了比较。我们发现，与历史采样期相比，硝酸盐的电流通量显著较高，正磷酸盐（P）和总磷（TP）的电流通量明显较低。年硝酸盐通量增加的原因是全年平均排放量略高，硝酸盐浓度显著升高。相反，当前的P和TP浓度在一年中明显低于以前。诺克萨克河接收来自研究溪流的水，其磷和TP表现出相似的模式，但硝酸盐没有。Kamm Creek在1993年至1998年和2015年至2018年期间减少了磷通量，增加了硝酸盐通量。该流域同时经历了几次土地利用变化，包括干草和玉米面积的减少、浆果作物面积的增加、减少粪肥施用的立法以及富含硝酸盐的地下水的使用方式的改变。我们目前无法区分这些。进一步了解具体管理变化和养分通量之间的关系将有助于维持当地农业生产力和改善水质。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Northwest Science 环境科学-生态学

CiteScore

1.30

自引率

0.00%

发文量

审稿时长

>36 weeks

期刊介绍： The pages of Northwest Science are open to original and fundamental research in the basic, applied, and social sciences. All submissions are refereed by at least two qualified peer reviewers. Papers are welcome from authors outside of the Pacific Northwest if the topic is suitable to our regional audience.