Leaf litter is an important mediator of soil respiration in an oak-dominated forest

The contribution of the organic (O) horizon to total soil respiration is poorly understood even though it can represent a large source of uncertainty due to seasonal changes in microclimate and O horizon properties due to plant phenology. Our objectives were to partition the CO₂ effluxes of litter l...

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Veröffentlicht in:	International journal of biometeorology 2009-03, Vol.53 (2), p.127-134
Hauptverfasser:	DeForest, Jared L, Chen, Jiquan, McNulty, Steve G
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Sprache:	eng
Schlagworte:	Animal Physiology Biological and Medical Physics Biophysics Carbon - metabolism Carbon dioxide Carbon Dioxide - metabolism Earth and Environmental Science Ecosystem Environment Environmental conditions Environmental Health Forests Leaf litter Leaves Litter Meteorological Concepts Meteorology Microclimate Models, Biological Oak openings Ohio Original Paper Phenology Plant Leaves - metabolism Plant Physiology Quercus - growth & development Quercus - metabolism Respiration Seasonal variations Soil - analysis soil respiration Soil sciences Soils temporal variation Trees Trees - metabolism
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container_title	International journal of biometeorology
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creator	DeForest, Jared L Chen, Jiquan McNulty, Steve G
description	The contribution of the organic (O) horizon to total soil respiration is poorly understood even though it can represent a large source of uncertainty due to seasonal changes in microclimate and O horizon properties due to plant phenology. Our objectives were to partition the CO₂ effluxes of litter layer and mineral soil from total soil respiration (SR) and determine the relative importance of changing temperature and moisture mediating the fluxes. We measured respiration in an oak-dominated forest with or without the O horizon for 1 year within the Oak Openings Region of northwest Ohio. Mineral soil and O horizon respiration were subtracted from mineral soil respiration (MSR) to estimate litter respiration (LR). Measurements were grouped by oak phenology to correlate changes in plant activity with respiration. The presence of the O horizon represented a large source of seasonal variation in SR. The timing of oak phenology explained some of the large changes in both SR and LR, and their relationship with temperature and moisture. The contribution to SR of respiration from the mineral soil was greatest during pre-growth and pre-dormancy, as evident by the low LR:MSR ratios of 0.65 ± 0.10 (mean ± SE) and 0.69 ± 0.03, respectively, as compared to the other phenophases. Including moisture increased our ability to predict MSR and SR during the growth phenophase and LR for every phenophase. Temperature and moisture explained 85% of the variation in MSR, but only 60% of the variation in LR. The annual contribution of O horizon to SR was 48% and the ratio of litter to soil respiration was tightly coupled over a wide range of environmental conditions. Our results suggest the presence of the O horizon is a major mediator of SR.
doi_str_mv	10.1007/s00484-008-0195-y
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The contribution to SR of respiration from the mineral soil was greatest during pre-growth and pre-dormancy, as evident by the low LR:MSR ratios of 0.65 ± 0.10 (mean ± SE) and 0.69 ± 0.03, respectively, as compared to the other phenophases. Including moisture increased our ability to predict MSR and SR during the growth phenophase and LR for every phenophase. Temperature and moisture explained 85% of the variation in MSR, but only 60% of the variation in LR. The annual contribution of O horizon to SR was 48% and the ratio of litter to soil respiration was tightly coupled over a wide range of environmental conditions. 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Our objectives were to partition the CO₂ effluxes of litter layer and mineral soil from total soil respiration (SR) and determine the relative importance of changing temperature and moisture mediating the fluxes. We measured respiration in an oak-dominated forest with or without the O horizon for 1 year within the Oak Openings Region of northwest Ohio. Mineral soil and O horizon respiration were subtracted from mineral soil respiration (MSR) to estimate litter respiration (LR). Measurements were grouped by oak phenology to correlate changes in plant activity with respiration. The presence of the O horizon represented a large source of seasonal variation in SR. The timing of oak phenology explained some of the large changes in both SR and LR, and their relationship with temperature and moisture. The contribution to SR of respiration from the mineral soil was greatest during pre-growth and pre-dormancy, as evident by the low LR:MSR ratios of 0.65 ± 0.10 (mean ± SE) and 0.69 ± 0.03, respectively, as compared to the other phenophases. Including moisture increased our ability to predict MSR and SR during the growth phenophase and LR for every phenophase. Temperature and moisture explained 85% of the variation in MSR, but only 60% of the variation in LR. The annual contribution of O horizon to SR was 48% and the ratio of litter to soil respiration was tightly coupled over a wide range of environmental conditions. Our results suggest the presence of the O horizon is a major mediator of SR.</abstract><cop>Berlin/Heidelberg</cop><pub>Berlin/Heidelberg : Springer-Verlag</pub><pmid>19037664</pmid><doi>10.1007/s00484-008-0195-y</doi><tpages>8</tpages></addata></record>
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subjects	Animal Physiology Biological and Medical Physics Biophysics Carbon - metabolism Carbon dioxide Carbon Dioxide - metabolism Earth and Environmental Science Ecosystem Environment Environmental conditions Environmental Health Forests Leaf litter Leaves Litter Meteorological Concepts Meteorology Microclimate Models, Biological Oak openings Ohio Original Paper Phenology Plant Leaves - metabolism Plant Physiology Quercus - growth & development Quercus - metabolism Respiration Seasonal variations Soil - analysis soil respiration Soil sciences Soils temporal variation Trees Trees - metabolism
title	Leaf litter is an important mediator of soil respiration in an oak-dominated forest
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