Modeling point and non-point nutrient fluxes in river systems of lake Peipsi drainage basi

Linnaeus Eco-Tech Pub Date : 2019-07-02 DOI:10.15626/eco-tech.2003.047

K. Piirimäe

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Abstract

N and P compounds work as key elements causing bioproduction and eutrophication inwater bodies of the Baltic Sea region, A large-scale dynamic GIS-embedded PolFlowmodel considers all point and diffuse emission sources in a river basin simulating alsotransport and retention of nutrients in time steps of five years, This modeling approachwas originally developed for simulating past and present nutrient loads for the Rhine andElbe rivers. In addition, a statistical model MESAW was employed for nutrient sourceapportionment and emission estimations. This paper analysis the modeling results in LakePeipsi basin, shared by Estonia, Russia and Latvia, for long-term trends since 1985 till1999. Results of modeling, as well as monitoring data indicate quite stable long-term Pload while agricultural N load has decreased significantly in connection with dramaticchanges in agricultural structures. That, in turn, has lead to sharp decrease ofN/P ratio inriverine runoff while in lakes (L Peipsi, L Vortsjii.rv) and coastal seas, NIP ratio hasdropped below 10. These changes, enhancing cyanobacterial blooms, have significantlyworsened the ecological state of these water bodies, in the conditions of decreasedemissions. The paper concludes that wastewater treatment should focus on better removalofphosphorus.

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沛溪湖流域基础水系点与非点养分通量模拟

N和P化合物是引起波罗的海地区水体生物生产和富营养化的关键元素，一个大规模的动态嵌入gis的PolFlowmodel考虑了流域中所有点和扩散排放源，模拟了5年时间步长的养分运输和保留，这种建模方法最初是为了模拟莱茵河和易北河过去和现在的养分负荷而开发的。此外，采用MESAW统计模型进行营养源分配和排放估算。本文分析了爱沙尼亚、俄罗斯和拉脱维亚共享的佩普斯湖盆地1985 - 1999年的长期趋势。模拟结果和监测数据表明，长期负荷相当稳定，而农业氮负荷随着农业结构的剧烈变化而显著下降。这反过来又导致河流径流的n /P比急剧下降，而湖泊(L Peipsi, L Vortsjii.rv)和沿海海域的NIP比已降至10以下。这些变化，增加了蓝藻的繁殖，在减少死亡的情况下，显著恶化了这些水体的生态状态。本文认为，污水处理应以更好地除磷为重点。

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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Linnaeus Eco-Tech

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