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The regional variation of denitrification phenotypes under anoxic incubation with soils from eight forested catchments in different climate zones of China.

Authors :
Cui, Juan
Zhu, Jing
Wang, Zhangwei
Mulder, Jan
Wang, Bing
Zhang, Xiaoshan
Source :
Science of the Total Environment. Feb2018, Vol. 615, p319-329. 11p.
Publication Year :
2018

Abstract

Denitrification characteristics of forest soils from eight headwater catchments in China were investigated in this study, along a climatic gradient from the tropics in the South to the temperate zones. Within each catchment, different landscape positions along hydrological flow paths were also considered, including well-drained soils on hill slopes and poorly drained soils in groundwater discharge zones. The results showed that instantaneous denitrification rates were much greater in soils from the northern sites than those from the southern sites (with the average of 110.0 and 25.4 nmol N g −1 dry soil h. − 1 , respectively). Large potentials for nitrous oxide (N 2 O) loss (evaluated as maximum N 2 O accumulation before it was reduced to dinitrogen (N 2 )) were observed in the six tropical and subtropical catchments, particularly in soils with high carbon (C) and nitrogen (N). Meanwhile high N 2 O / (N 2 O + N 2 ) stoichiometries were displayed in soils from these southern sites. Within catchments, soils from the groundwater discharge zones showed greater potential denitrification rates but smaller N 2 O / (N 2 O + N 2 ) ratios in comparison with those on the hill slopes, implying large N removal potentials of soils from the groundwater discharge zones. Furthermore, our findings suggest soil pH is the key controller for the potential denitrification rates and the N 2 O / (N 2 O + N 2 ) stoichiometries. Soil pH, C and N availability affect the potential for N 2 O loss synergistically. Our findings not only pinpoint the denitrification phenotypes of soils along the climatic gradient, but also confirm the small-scale variations within catchments which reflect the in situ habitat of the denitrifiers. These indicate the importance of discrimination related to different landscape positions when modeling N 2 O emissions and N removals from regional N loading. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00489697
Volume :
615
Database :
Academic Search Index
Journal :
Science of the Total Environment
Publication Type :
Academic Journal
Accession number :
126163777
Full Text :
https://doi.org/10.1016/j.scitotenv.2017.09.251