Abstract
Restoration of submerged macrophytes is one of the important measures for ecological treatment of eutrophic lakes. The changes in physical and chemical conditions caused by submerged macrophytes also affect the process of benthic nitrogen cycling. The growth period of Potamogeton crispus is mainly in winter. In order to understand the effect of submerged macrophytes growing in winter on nitrification rate and denitrification rate in the process of nitrogen cycling, experiments were carried out from winter to summer with vegetated and non-vegetated treatments. The results showed that the effect of submerged macrophytes on water temperature was not significant in winter. The nitrogen cycling was mainly affected by variables, which were inorganic nitrogen and dissolved oxygen. Submerged macrophytes had little effect on nitrification rate, but had a certain inhibition on denitrification rate by providing oxygen from photosynthesis. In total, submerged macrophytes growing in winter have little effect on nitrogen cycling in sediment. However, submerged macrophytes growing in winter can increase the attachment surface of microbes and inhibit resuspension of sediment, which play a complementary role to submerged macrophytes growing in summer for maintaining stability of eutrophic lakes.
Highlights
It is a great challenge for researchers and managers to control eutrophication so far
This paper explored the effects of submerged macrophytes growing in winter on the nitrogen cycling process, providing a basis for recovering the role of submerged macrophytes growing in winter
Changes in physical and chemical conditions caused by submerged macrophytes growing in winter
Summary
It is a great challenge for researchers and managers to control eutrophication so far. The key variables causing water eutrophication are excessive nutrients, such as nitrogen and phosphorus (Paerl & Otten ). The deposition of phosphorus increases the internal nutrient load of sediment and water, while nitrogen can be released into atmosphere. Eutrophic lakes caused by nitrogen pollution in China increased from 40% to 85%, from 1980 to 2005 (Liu Zhang & Liu ). A survey found that the maximum value of soluble microcystins in water samples of Lake Furnas was 154.5 μg/L during the Downloaded from http://iwaponline.com/wst/article-pdf/83/7/1728/870826/wst083071728.pdf by guest
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