Influence of plant species and wastewater strength on constructed wetland methane emissions and associated microbial populations

Wastewater and treatment processes have been regarded as large contributions to sources of methane (CH 4). The flux rate of CH 4 in constructed wetlands (CWs) was evaluated to test the influence of plant species. Methane emission data showed large temporal and spatial variation ranging from 0 to 16....

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Veröffentlicht in:	Ecological engineering 2008-01, Vol.32 (1), p.22-29
Hauptverfasser:	Wang, Yanhua, Inamori, Ryuhei, Kong, Hainan, Xu, Kaiqin, Inamori, Yuhei, Kondo, Takashi, Zhang, Jixiang
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Sprache:	eng
Schlagworte:	Constructed wetlands Fish Methane Methanogens Methanotrophs Zizania latifolia
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container_title	Ecological engineering
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creator	Wang, Yanhua Inamori, Ryuhei Kong, Hainan Xu, Kaiqin Inamori, Yuhei Kondo, Takashi Zhang, Jixiang
description	Wastewater and treatment processes have been regarded as large contributions to sources of methane (CH 4). The flux rate of CH 4 in constructed wetlands (CWs) was evaluated to test the influence of plant species. Methane emission data showed large temporal and spatial variation ranging from 0 to 16.76 g CH 4 m −2 day −1. The highest CH 4 flux rate was obtained in the Zizania latifolia systems and higher emission was found with higher influent load. The methanogenic and methanotrophic microbial populations were studied to clarify the mechanisms of CH 4 emission. FISH analysis showed highest amounts of methanogens and methanotrophs in the Z. latifolia and Tytha latifolia systems. Linear regression between CH 4 emission and environmental parameters showed that the regression lines were not forced to pass through the origin, and the slopes of the lines of different systems were allowed to vary between vegetation cover.
doi_str_mv	10.1016/j.ecoleng.2007.08.003
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subjects	Constructed wetlands Fish Methane Methanogens Methanotrophs Zizania latifolia
title	Influence of plant species and wastewater strength on constructed wetland methane emissions and associated microbial populations
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