![Simultaneous inhibition of CH"4 efflux and stimulation of sulphate reduction in peat subject to simulated acid rain [An article from: Soil Biology and Biochemistry]](https://www.ebooknetworking.net/books/B00/0PA/bigB000PAUXQ6.jpg)
Simultaneous inhibition of CH"4 efflux and stimulation of sulphate reduction in peat subject to simulated acid rain [An article from: Soil Biology and Biochemistry]
Book Details
Author(s)V. Gauci, S.J. Chapman
PublisherElsevier
ISBN / ASINB000PAUXQ6
ISBN-13978B000PAUXQ2
MarketplaceFrance 🇫🇷
Description
This digital document is a journal article from Soil Biology and Biochemistry, published by Elsevier in 2006. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.
Description:
Acid rain sulphate (SO"4^2^-) deposition is a known suppressant of methane (CH"4) emission from wetlands. However, the hypothesised mechanism responsible for this important biogeochemical interaction, competitive exclusion of methanogens by dissimilatory SO"4^2^- reducing bacteria (SRB), lacks supporting evidence. Here, we present data from an acid rain simulation experiment in the Moidach More peat bog of NE Scotland that strengthens this hypothesis. We report a tenfold increase in estimated SO"4^2^- reduction during periods when measured CH"4 emission rates were suppressed relative to controls receiving only one-tenth the SO"4^2^- of treated plots, but no treatment effect on potential methane oxidation. This tenfold increase in estimated SO"4^2^- reduction indicates the presence of a more active population of SRB in plots where CH"4 emissions were reduced by over 30%.
Description:
Acid rain sulphate (SO"4^2^-) deposition is a known suppressant of methane (CH"4) emission from wetlands. However, the hypothesised mechanism responsible for this important biogeochemical interaction, competitive exclusion of methanogens by dissimilatory SO"4^2^- reducing bacteria (SRB), lacks supporting evidence. Here, we present data from an acid rain simulation experiment in the Moidach More peat bog of NE Scotland that strengthens this hypothesis. We report a tenfold increase in estimated SO"4^2^- reduction during periods when measured CH"4 emission rates were suppressed relative to controls receiving only one-tenth the SO"4^2^- of treated plots, but no treatment effect on potential methane oxidation. This tenfold increase in estimated SO"4^2^- reduction indicates the presence of a more active population of SRB in plots where CH"4 emissions were reduced by over 30%.
