Journal ArticleDOI
Separating root and soil microbial contributions to soil respiration: A review of methods and observations
TLDR
In this article, three primary methods have been used to distinguish hetero- versus autotrophic soil respiration including integration of components contributing to in situ forest soil CO2 efflux (i.e., litter, roots, soil), comparison of soils with and without root exclusion, and application of stable or radioactive isotope methods.Abstract:
Forest soil respiration is the sum of heterotrophic (microbes, soil fauna) and auto- trophic (root) respiration. The contribution of each group needs to be understood to evaluate implications of environmental change on soil carbon cycling and sequestration. Three primary methods have been used to distinguish hetero- versus autotrophic soil respiration including: integration of components contributing to in situ forest soil CO2 efflux (i.e., litter, roots, soil), comparison of soils with and without root exclusion, and application of stable or radioactive isotope methods. Each approach has advantages and disadvantages, but isotope based methods provide quantitative answers with the least amount of disturbance to the soil and roots. Pub- lished data from all methods indicate that root/rhizosphere respiration can account for as little as 10 percent to greater than 90 percent of total in situ soil respiration depending on vegetation type and season of the year. Studies which have integrated percent root contribution to total soil respiration throughout an entire year or growing season show mean values of 45.8 and 60.4 percent for forest and nonforest vegetation, respectively. Such average annual values must be extrapolated with caution, however, because the root contribution to total soil respiration is commonly higher during the growing season and lower during the dormant periods of the year. Abbreviations: TScer -t otal soil CO 2 efflux rate; f - fractional root contribution to TS cer; RC - root contribution to TScerread more
Citations
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Journal ArticleDOI
No overall stimulation of soil respiration under mature deciduous forest trees after 7 years of CO2 enrichment
TL;DR: In this paper, the authors examined how 7 years of free air CO₂ enrichment (FACE) affected soil CO dynamics in a ca. 100-year-old mixed deciduous forest.
Journal ArticleDOI
Biotic and abiotic controls on biogenic volatile organic compound fluxes from a subalpine forest floor
TL;DR: In this paper, the authors used proton transfer reaction mass spectrometry to quantify BVOC flux rates from soils with and without active root systems in a subalpine coniferous forest.
Journal ArticleDOI
Summer drought reduces total and litter-derived soil CO 2 effluxes in temperate grassland – clues from a 13 C litter addition experiment
Ottmar Joos,Ottmar Joos,Frank Hagedorn,Alexander Heim,Anna Katarina Gilgen,Anna Katarina Gilgen,Michael W. I. Schmidt,Rolf T. W. Siegwolf,Nina Buchmann +8 more
TL;DR: In this paper, the authors used rain shelters to simulate a summer drought in an intensively managed grassland in Switzerland by reducing annual precipitation by around 30% similar to the hot and dry year 2003 in Central Europe.
Journal ArticleDOI
Soil respiration and net ecosystem production in relation to intensive management in Moso bamboo forests.
TL;DR: In this article, the effects of intensive management on soil respiration (R S ) and net ecosystem production (NEP) remain unclear, and the sustainability of intensive forest management needs further investigation due to the reduction of soil organic carbon content after intensive management.
Journal ArticleDOI
Precipitation drives interannual variation in summer soil respiration in a Mediterranean-climate, mixed-conifer forest
TL;DR: In this article, the authors examined how carbon efflux is affected by the interaction of disturbance and interannual climate variation in a mixed-conifer forest and found that winter precipitation explained between 77% and 96% of inter-annual variability in summer soil respiration.
References
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Journal ArticleDOI
The global carbon dioxide flux in soil respiration and its relationship to vegetation and climate
TL;DR: In this article, measured rates of soil respiration from terrestrial and wetland ecosystems were used to define the annual global CO 2 flux from soils, to identify uncertainties in the global flux estimate, and to investigate the influences of temperature, precipitation, and vegetation.
Journal ArticleDOI
Carbon Isotopes in PhotosynthesisFractionation techniques may reveal new aspects of carbon dynamics in plants
TL;DR: The fractionation of carbon isotopes that occurs during photosynthesis is one of the most useful techniques for investigating the efficiency of CO2 uptake and indicates that different strategies are needed for improving wateruse efficiency in different kinds of plants.
Journal ArticleDOI
Soil respiration and the global carbon cycle
TL;DR: In this paper, the authors provide a brief review for policymakers who are concerned that changes in soil respiration may contribute to the rise in CO2 in Earth's atmosphere, while simultaneously leaving a greater store of carbon in the soil.
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Model estimates of CO2 emissions from soil in response to global warming
TL;DR: In this article, the Rothamsted model is used to calculate the amount of CO2 that would be released from the world stock of soil organic matter if temperatures increase as predicted, the annual return of plant debris to the soil being held constant.
Journal ArticleDOI
Plant decomposition and soil respiration in terrestrial ecosystems
J. S. Singh,S. R. Gupta +1 more
TL;DR: In this article, a review deals with methodological approaches, measured rates, and environmental control of two major interdependent processes regulating the structure and function of terrestrial ecosystems, viz., plant decomposition and soil respiration.