Abstract
Soil moisture status has an important effect on the process of denitrification in paddy soils. However, it is unclear how it affects the ferrous iron-involved denitrification. Here, the influence of drying-rewetting cycles on ferrous iron-involved denitrification in paddy soil were studied with batch experiments. The dynamics of nitrate, ammonia, Fe2+, Fe3+ and total organic carbon (TOC), as well as nitrous oxide (N2O) were investigated using the iron-rich paddy soil in Jiangxi province, South China. Results demonstrated that the denitrification rate dropped while ammonia nitrogen content (NH4+-N) showed a rapid accumulation in the drying period. In the rewetting period, organic carbon played two-side roles. Organic carbon and ferrous iron together provided electron donors to denitrification, and organic carbon simultaneously reduced ferric iron under anaerobic environment. There were complex interactions among organic carbon, nitrate and Fe2+/Fe3+ under drying-rewetting cycles. Soil rewetting led to denitrification flush, especially after a moderately long drying period, while excessively frequent drying-rewetting alternation was not favorable to nitrate denitrification.
Highlights
IntroductionPublisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations
The objective of this study is to investigate the effect of drying-rewetting cycles on ferrous iron-involved denitrification in paddy soils
This paper investigated the effect of drying-rewetting cycles on ferrous iron-involved denitrification in paddy soils
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Intensive use of fertilizers to agricultural land can lead to nitrate contamination in both surface water and groundwater ecosystems [1]. China has been experiencing serious nitrogen pollution threats [2]. As the largest chemical fertilizer consumption nation worldwide, the consumed fertilizer in China has reached 60.22 million tons in 2015, of which the nitrogen fertilizer accounted for 40% [3]. In contrast to large plot size and mechanized farming in many countries, applying fertilizer by hand to millions of small plots is still the most popular farming method in China [4], often resulting in over-application and environmental pollution
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