Department of Ecology, Evolution and Behavior, University of Minnesota, St. Paul, MN 55108;
Department of Ecology, Evolution and Behavior, University of Minnesota, St. Paul, MN 55108.
Proc Natl Acad Sci U S A. 2017 Apr 18;114(16):4177-4182. doi: 10.1073/pnas.1618536114. Epub 2017 Apr 3.
Managing excess nutrients remains a major obstacle to improving ecosystem service benefits of urban waters. To inform more ecologically based landscape nutrient management, we compared watershed inputs, outputs, and retention for nitrogen (N) and phosphorus (P) in seven subwatersheds of the Mississippi River in St. Paul, Minnesota. Lawn fertilizer and pet waste dominated N and P inputs, respectively, underscoring the importance of household actions in influencing urban watershed nutrient budgets. Watersheds retained only 22% of net P inputs versus 80% of net N inputs (watershed area-weighted averages, where net inputs equal inputs minus biomass removal) despite relatively low P inputs. In contrast to many nonurban watersheds that exhibit high P retention, these urban watersheds have high street density that enhanced transport of P-rich materials from landscapes to stormwater. High P exports in storm drainage networks and yard waste resulted in net P losses in some watersheds. Comparisons of the N/P stoichiometry of net inputs versus storm drain exports implicated denitrification or leaching to groundwater as a likely fate for retained N. Thus, these urban watersheds exported high quantities of N and P, but via contrasting pathways: P was exported primarily via stormwater runoff, contributing to surface water degradation, whereas N losses additionally contribute to groundwater pollution. Consequently, N management and P management require different strategies, with N management focusing on reducing watershed inputs and P management also focusing on reducing P movement from vegetated landscapes to streets and storm drains.
管理过量营养物质仍然是提高城市水域生态系统服务效益的主要障碍。为了提供更基于生态学的景观养分管理信息,我们比较了明尼苏达州圣保罗市密西西比河的七个次流域的氮(N)和磷(P)的流域输入、输出和保留情况。草坪肥料和宠物粪便分别是 N 和 P 的主要输入,这突显了家庭行为对影响城市流域养分预算的重要性。尽管 P 的输入相对较低,但流域仅保留了净 P 输入的 22%,而保留了 80%的净 N 输入(流域面积加权平均值,其中净输入等于输入减去生物量去除)。与许多非城市流域表现出高 P 保留不同,这些城市流域的街道密度较高,从而增强了富含 P 的物质从景观到雨水的运输。雨水排水管网和庭院废物中的高 P 出口导致一些流域的净 P 损失。净输入与雨水排水出口的 N/P 化学计量比较表明,反硝化或淋滤到地下水可能是保留 N 的一种可能归宿。因此,这些城市流域输出了大量的 N 和 P,但通过不同的途径:P 主要通过雨水径流输出,导致地表水退化,而 N 损失则进一步导致地下水污染。因此,N 管理和 P 管理需要不同的策略,N 管理侧重于减少流域输入,P 管理也侧重于减少植被景观到街道和雨水排水的 P 迁移。
