Article ID Journal Published Year Pages File Type
4429347 Science of The Total Environment 2012 11 Pages PDF
Abstract

Ponds were ubiquitous features of the traditional rural waterscape in the Seine watershed, as shown by the 18th century Cassini map. Using the result of a water quality survey at the entrance and the outlet of a small pond receiving agricultural drainage water, the Seneque/Riverstrahler biogeochemical model was shown to accurately simulate the observed 30% reduction in nitrogen fluxes crossing this pond. The model was then used to simulate the effect of various scenarios of pond restoration (inspired by their 18th century geographical distribution as revealed by the Cassini map) on surface water nitrate contamination at different spatial scales. In regions with an impermeable lithological substrate, the restoration of ponds at a density of 5% of the agricultural area would reduce the riverine nitrogen export by up to 25% on an annual basis. It is suggested that such waterscape management, used in conjunction with more preventive measures, can be a useful means to reduce nitrate contamination of water resources.

► We report ponds were ubiquitous features of the rural waterscape in the Seine watershed. ► We model the observed 50% reduction in nitrogen fluxes crossing a pond. ► We show, 5% of the area of a basin devoted to ponds could reduce the riverine nitrogen export by up to 30%.

Related Topics
Life Sciences Environmental Science Environmental Chemistry
Authors
, , , , ,