Litcius/Paper detail

Nitrogen deep placement mitigates methane emissions by regulating methanogens and methanotrophs in no-tillage paddy fields

Daijia Fan, Tianqing Liu, F. Sheng, S. H. Li, Cougui Cao, Chengfeng Li

2020Biology and Fertility of Soils51 citationsDOIOpen Access PDF

Abstract

This study investigated the effects of placement of N at different soil depths on CH 4 emissions and related microbial communities in no-tillage paddy soil. Five fertilizing treatments, including no N fertilizer, N surface broadcasting, and N deep placement at the soil depths of 5 cm, 10 cm, and 20 cm were applied in the paddy field. The composition of main microbial groups were determined using phospholipid fatty acid (PLFA) analysis. The absolute real-time quantitative PCR was applied to determine the abundance of the methanogenic and methanotrophic populations with mcrA , pmoA , mmoX , and mxaF as the functional gene markers. Compared with N surface broadcasting, the deep placement of N (i) significantly increased the microbial biomass carbon (C) and dissolved organic C by 7–90% and 6–75%, respectively; (ii) significantly enhanced the amount of the total PLFAs by 12–70% and the bacterial PLFAs by 15–82%; (iii) significantly mitigated the CH 4 emissions by 6–39%; and (iv) significantly enhanced the abundance of the methanogenic and methanotrophic populations by 16–55% and 13–210%, respectively. The percent changes varied over a wide range due to different N placement depths as well as the seasonal variations. Moreover, structural equation modeling revealed that N deep placement directly or indirectly affected the CH 4 -related microbial communities through the increased labile soil organic C fractions by activating plant growth and soil microbial abundance, thereby mitigating the CH 4 emissions in no-tillage paddy soil.

Topics & Concepts

TillagePaddy fieldAgronomyBiomass (ecology)Soil carbonMicrobial population biologyAbundance (ecology)MethaneChemistryFertilizerEnvironmental scienceEnvironmental chemistrySoil waterBiologyEcologySoil scienceBacteriaGeneticsSoil Carbon and Nitrogen DynamicsPeatlands and Wetlands EcologySoil and Unsaturated Flow
Nitrogen deep placement mitigates methane emissions by regulating methanogens and methanotrophs in no-tillage paddy fields | Litcius