Moisture and temperature sensitivity of CH4 oxidation in boreal soils

被引：165

作者：

Whalen, SC ^{[1
]}

Reeburgh, WS ^{[1
]}

机构：

[1] UNIV CALIF IRVINE, DEPT EARTH SYST SCI, IRVINE, CA 92717 USA

来源：

SOIL BIOLOGY & BIOCHEMISTRY | 1996年 / 28卷 / 10-11期

基金：

美国国家科学基金会;

关键词：

ATMOSPHERIC METHANE CONSUMPTION; FOREST SOILS; CARBON-DIOXIDE; NITROUS-OXIDE; AMMONIUM INHIBITION; FLUXES; WATER; FERTILIZATION; KINETICS; DYNAMICS;

D O I：

10.1016/S0038-0717(96)00139-3

中图分类号：

S15 [土壤学];

学科分类号：

0903 ; 090301 ;

摘要：

We used laboratory experiments to evaluate CH4 uptake kinetics and the influence of soil moisture and temperature on rates of CH4-oxidation by boreal soils at in situ CH4 concentrations. Two upland forest sites (AS2 and BS2) were atmospheric CH4 sinks; a bog site (LB) was an atmospheric CH4 source characterized by distinct depth zonation of CH4 production and consumption. Apparent half-saturation constants (K-s) for CH4-oxidation showed relatively well-adapted communities. The K-s for the high CH4-source soil (LB) was 1.1 mu M, about 10-fold higher than values for CH4-sink soils (AS2 and BS2), 37 and 124 nM. Experiments assessing the individual effects of moisture and temperature on CH4-oxidation indicated that moisture was the primary control in CH4-sink soils at AS2 and BS2, while temperature was more important in CH4-source soil at LB. A combination of the highest moisture content and lowest temperature for each soil gave the lowest CH4-oxidation rates in experiments evaluating the interactive effects of these two variables. Conversely, a soil moisture content close to the optimum identified in moisture dependence experiments combined with the highest soil temperature consistently gave the highest CH4-oxidation rate. Copyright (C) 1996 Elsevier Science Ltd

引用

页码：1271 / 1281

页数：11

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