Increased coniferous needle inputs accelerate decomposition of soil carbon in an old-growth forest

Changes in temperature, precipitation, and atmospheric carbon dioxide (CO 2) concentration that are expected in the coming decades will have profound impacts on terrestrial ecosystem net primary production (NPP). Nearly all models linking forest NPP with soil carbon (C) predict that increased NPP wi...

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Published in:	Forest ecology and management Vol. 258; no. 10; pp. 2224 - 2232
Main Authors:	Crow, Susan E., Lajtha, Kate, Bowden, Richard D., Yano, Yuriko, Brant, Justin B., Caldwell, Bruce A., Sulzman, Elizabeth W.
Format:	Journal Article Conference Proceeding
Language:	English
Published:	Kidlington Elsevier B.V 30-10-2009 [Amsterdam]: Elsevier Science Elsevier
Subjects:	Andisol Andisols Animal and plant ecology Animal, plant and microbial ecology Biological and medical sciences Carbon Carbon balance Carbon dioxide carbon sequestration conifer needles Coniferous forest coniferous forests degradation Ecosystems forest litter forest soils Forestry Forests Fundamental and applied biological sciences. Psychology Litter mineral soils Needles old-growth forests organic horizons primary productivity Priming Priming effect seasonal variation Soil (material) soil microorganisms soil organic carbon Soil priming soil priming substrates soil respiration Synecology Terrestrial ecosystems USA Soil priming Andisol Priming effect Carbon balance Coniferous forest Non metal Vegetals Forest ecology Forest tree Andisols Mineral soils Decomposition Group IVA element Woody plant Carbon Gymnospermae Needle Softwood forest tree Forestry Spermatophyta Coniferales Acceleration Primary forest
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Abstract	Changes in temperature, precipitation, and atmospheric carbon dioxide (CO 2) concentration that are expected in the coming decades will have profound impacts on terrestrial ecosystem net primary production (NPP). Nearly all models linking forest NPP with soil carbon (C) predict that increased NPP will result in either unchanged or increased soil C storage, and that decreased NPP will result in decreased soil C storage. However, linkages between forest productivity and soil C storage may not be so simple and direct. In an old-growth coniferous forest located in the H.J. Andrews Experimental Forest, OR, USA, we experimentally doubled needle litter inputs, and found that actual soil respiration rates exceeded those expected due to the C added by the extra needles. Here, we estimated that this ‘priming effect’ accounted for 11.5–21.6% of annual CO 2 efflux from litter-amended plots, or an additional 137–256 g C m −2 yr −1 loss of stored C to the atmosphere. Soil priming was seasonal, with greatest amounts occurring in June–August coincident with peaks in temperature and dry summer conditions. As a result of priming, mineral soil was more resistant to further mineralization during laboratory incubations. Soil lignin-derived phenols in the Double Litter plots were more oxidized than in the control, suggesting that the soil residue was more degraded. Our hypothesis that excess dissolved organic C produced from the added litter provided the link between the forest floor and mineral soil and a substrate for soil priming was not supported. Instead, the rhizosphere, and associated mycorrhizal fungi, likely responded directly to the added aboveground litter inputs. Our results revealed that enhanced NPP may lead to accelerated processing of some stored soil C, but that the effects of increased NPP on ecosystem C storage will be based on a net balance among all ecosystem C pools and are likely to be ecosystem-dependant. Forest C models need to include these complex linkages between forest productivity and soil C storage.
AbstractList	Changes in temperature, precipitation, and atmospheric carbon dioxide (CO sub(2)) concentration that are expected in the coming decades will have profound impacts on terrestrial ecosystem net primary production (NPP). Nearly all models linking forest NPP with soil carbon (C) predict that increased NPP will result in either unchanged or increased soil C storage, and that decreased NPP will result in decreased soil C storage. However, linkages between forest productivity and soil C storage may not be so simple and direct. In an old-growth coniferous forest located in the H.J. Andrews Experimental Forest, OR, USA, we experimentally doubled needle litter inputs, and found that actual soil respiration rates exceeded those expected due to the C added by the extra needles. Here, we estimated that this 'priming effect' accounted for 11.5-21.6% of annual CO sub(2) efflux from litter-amended plots, or an additional 137-256gCm super(-) super(2)yr super(-) super(1) loss of stored C to the atmosphere. Soil priming was seasonal, with greatest amounts occurring in June-August coincident with peaks in temperature and dry summer conditions. As a result of priming, mineral soil was more resistant to further mineralization during laboratory incubations. Soil lignin-derived phenols in the Double Litter plots were more oxidized than in the control, suggesting that the soil residue was more degraded. Our hypothesis that excess dissolved organic C produced from the added litter provided the link between the forest floor and mineral soil and a substrate for soil priming was not supported. Instead, the rhizosphere, and associated mycorrhizal fungi, likely responded directly to the added aboveground litter inputs. Our results revealed that enhanced NPP may lead to accelerated processing of some stored soil C, but that the effects of increased NPP on ecosystem C storage will be based on a net balance among all ecosystem C pools and are likely to be ecosystem-dependant. Forest C models need to include these complex linkages between forest productivity and soil C storage. Changes in temperature, precipitation, and atmospheric carbon dioxide (CO(2)) concentration that are expected in the coming decades will have profound impacts on terrestrial ecosystem net primary production (NPP). Nearly all models linking forest NPP with soil carbon (C) predict that increased NPP will result in either unchanged or increased soil C storage, and that decreased NPP will result in decreased soil C storage. However, linkages between forest productivity and soil C storage may not be so simple and direct. In an old-growth coniferous forest located in the H.J. Andrews Experimental Forest, OR, USA, we experimentally doubled needle litter inputs, and found that actual soil respiration rates exceeded those expected due to the C added by the extra needles. Here, we estimated that this 'priming effect' accounted for 11.5-21.6% of annual CO(2) efflux from litter-amended plots, or an additional 137-256gCm(-(2yr(-(1 loss of stored C to the atmosphere. Soil priming was seasonal, with greatest amounts occurring in June-August coincident with peaks in temperature and dry summer conditions. As a result of priming, mineral soil was more resistant to further mineralization during laboratory incubations. Soil lignin-derived phenols in the Double Litter plots were more oxidized than in the control, suggesting that the soil residue was more degraded. Our hypothesis that excess dissolved organic C produced from the added litter provided the link between the forest floor and mineral soil and a substrate for soil priming was not supported. Instead, the rhizosphere, and associated mycorrhizal fungi, likely responded directly to the added aboveground litter inputs. Our results revealed that enhanced NPP may lead to accelerated processing of some stored soil C, but that the effects of increased NPP on ecosystem C storage will be based on a net balance among all ecosystem C pools and are likely to be ecosystem-dependant. Forest C models need to include these complex linkages between forest productivity and soil C storage. Changes in temperature, precipitation, and atmospheric carbon dioxide (CO 2) concentration that are expected in the coming decades will have profound impacts on terrestrial ecosystem net primary production (NPP). Nearly all models linking forest NPP with soil carbon (C) predict that increased NPP will result in either unchanged or increased soil C storage, and that decreased NPP will result in decreased soil C storage. However, linkages between forest productivity and soil C storage may not be so simple and direct. In an old-growth coniferous forest located in the H.J. Andrews Experimental Forest, OR, USA, we experimentally doubled needle litter inputs, and found that actual soil respiration rates exceeded those expected due to the C added by the extra needles. Here, we estimated that this ‘priming effect’ accounted for 11.5–21.6% of annual CO 2 efflux from litter-amended plots, or an additional 137–256 g C m −2 yr −1 loss of stored C to the atmosphere. Soil priming was seasonal, with greatest amounts occurring in June–August coincident with peaks in temperature and dry summer conditions. As a result of priming, mineral soil was more resistant to further mineralization during laboratory incubations. Soil lignin-derived phenols in the Double Litter plots were more oxidized than in the control, suggesting that the soil residue was more degraded. Our hypothesis that excess dissolved organic C produced from the added litter provided the link between the forest floor and mineral soil and a substrate for soil priming was not supported. Instead, the rhizosphere, and associated mycorrhizal fungi, likely responded directly to the added aboveground litter inputs. Our results revealed that enhanced NPP may lead to accelerated processing of some stored soil C, but that the effects of increased NPP on ecosystem C storage will be based on a net balance among all ecosystem C pools and are likely to be ecosystem-dependant. Forest C models need to include these complex linkages between forest productivity and soil C storage. Changes in temperature, precipitation, and atmospheric carbon dioxide (CO₂) concentration that are expected in the coming decades will have profound impacts on terrestrial ecosystem net primary production (NPP). Nearly all models linking forest NPP with soil carbon (C) predict that increased NPP will result in either unchanged or increased soil C storage, and that decreased NPP will result in decreased soil C storage. However, linkages between forest productivity and soil C storage may not be so simple and direct. In an old-growth coniferous forest located in the H.J. Andrews Experimental Forest, OR, USA, we experimentally doubled needle litter inputs, and found that actual soil respiration rates exceeded those expected due to the C added by the extra needles. Here, we estimated that this ‘priming effect' accounted for 11.5-21.6% of annual CO₂ efflux from litter-amended plots, or an additional 137-256gCm⁻² yr⁻¹ loss of stored C to the atmosphere. Soil priming was seasonal, with greatest amounts occurring in June-August coincident with peaks in temperature and dry summer conditions. As a result of priming, mineral soil was more resistant to further mineralization during laboratory incubations. Soil lignin-derived phenols in the Double Litter plots were more oxidized than in the control, suggesting that the soil residue was more degraded. Our hypothesis that excess dissolved organic C produced from the added litter provided the link between the forest floor and mineral soil and a substrate for soil priming was not supported. Instead, the rhizosphere, and associated mycorrhizal fungi, likely responded directly to the added aboveground litter inputs. Our results revealed that enhanced NPP may lead to accelerated processing of some stored soil C, but that the effects of increased NPP on ecosystem C storage will be based on a net balance among all ecosystem C pools and are likely to be ecosystem-dependant. Forest C models need to include these complex linkages between forest productivity and soil C storage.
Author	Lajtha, Kate Yano, Yuriko Caldwell, Bruce A. Sulzman, Elizabeth W. Bowden, Richard D. Brant, Justin B. Crow, Susan E.
Author_xml	– sequence: 1 givenname: Susan E. surname: Crow fullname: Crow, Susan E. email: s.crow@qub.ac.uk organization: Botany and Plant Pathology Department, Oregon State University, Corvallis, OR 97330, USA – sequence: 2 givenname: Kate surname: Lajtha fullname: Lajtha, Kate organization: Botany and Plant Pathology Department, Oregon State University, Corvallis, OR 97330, USA – sequence: 3 givenname: Richard D. surname: Bowden fullname: Bowden, Richard D. organization: Department of Environmental Science, Allegheny College, Meadville, PA, USA – sequence: 4 givenname: Yuriko surname: Yano fullname: Yano, Yuriko organization: Municipality of Anchorage, Health and Human Services, Anchorage, AK 99501, USA – sequence: 5 givenname: Justin B. surname: Brant fullname: Brant, Justin B. organization: Crop and Soil Science Department, Oregon State University, Corvallis, OR 97330, USA – sequence: 6 givenname: Bruce A. surname: Caldwell fullname: Caldwell, Bruce A. organization: Botany and Plant Pathology Department, Oregon State University, Corvallis, OR 97330, USA – sequence: 7 givenname: Elizabeth W. surname: Sulzman fullname: Sulzman, Elizabeth W. organization: Crop and Soil Science Department, Oregon State University, Corvallis, OR 97330, USA
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Keywords	Soil priming Andisol Priming effect Carbon balance Coniferous forest Non metal Vegetals Forest ecology Forest tree Andisols Mineral soils Decomposition Group IVA element Woody plant Carbon Gymnospermae Needle Softwood forest tree Forestry Spermatophyta Coniferales Acceleration Primary forest
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Snippet	Changes in temperature, precipitation, and atmospheric carbon dioxide (CO 2) concentration that are expected in the coming decades will have profound impacts... Changes in temperature, precipitation, and atmospheric carbon dioxide (CO₂) concentration that are expected in the coming decades will have profound impacts on... Changes in temperature, precipitation, and atmospheric carbon dioxide (CO sub(2)) concentration that are expected in the coming decades will have profound... Changes in temperature, precipitation, and atmospheric carbon dioxide (CO(2)) concentration that are expected in the coming decades will have profound impacts...
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SubjectTerms	Andisol Andisols Animal and plant ecology Animal, plant and microbial ecology Biological and medical sciences Carbon Carbon balance Carbon dioxide carbon sequestration conifer needles Coniferous forest coniferous forests degradation Ecosystems forest litter forest soils Forestry Forests Fundamental and applied biological sciences. Psychology Litter mineral soils Needles old-growth forests organic horizons primary productivity Priming Priming effect seasonal variation Soil (material) soil microorganisms soil organic carbon Soil priming soil priming substrates soil respiration Synecology Terrestrial ecosystems
Title	Increased coniferous needle inputs accelerate decomposition of soil carbon in an old-growth forest
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