Belowground Carbon Cycling in a Humid Tropical Forest Decreases with Fertilization

Only a small fraction of the carbon (C) allocated belowground by trees is retained by soils in long-lived, decay-resistant forms, yet because of the large magnitude of terrestrial primary productivity, even small changes in C allocation or retention can alter terrestrial C storage. The humid tropics...

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Veröffentlicht in:	Oecologia 2004-05, Vol.139 (4), p.545-550
Hauptverfasser:	Giardina, Christian P., Binkley, Dan, Ryan, Michael G., Fownes, James H., Senock, Randy S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Agricultural soils Agrology Animal and plant ecology Animal, plant and microbial ecology Biological and medical sciences Carbon Carbon - physiology Carbon cycle Carbon Isotopes Decay Ecosystem Ecology Fertilization Fluctuations Forest ecosystems Forest soils Fundamental and applied biological sciences. Psychology General aspects Grassland soils Hawaii Humidity Land use Mineral soils Models, Biological Pedogenesis Plant Leaves - chemistry Plant Physiological Phenomena Retention Rhizosphere Roots Soil Soil ecology Soils Trees - physiology Tropical Climate Tropical environments Tropical forests Tropical soils
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container_title	Oecologia
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creator	Giardina, Christian P. Binkley, Dan Ryan, Michael G. Fownes, James H. Senock, Randy S.
description	Only a small fraction of the carbon (C) allocated belowground by trees is retained by soils in long-lived, decay-resistant forms, yet because of the large magnitude of terrestrial primary productivity, even small changes in C allocation or retention can alter terrestrial C storage. The humid tropics exert a disproportionately large influence over terrestrial C storage, but C allocation and belowground retention in these ecosystems remain poorly quantified. Using mass balance and$^{13} {\rm{C}}$isotope methods, we examined the effects of afforestation and fertilization, two land-use changes of large-scale importance, on belowground C cycling at a humid tropical site in Hawaii. Here we report that in unfertilized plots, 80% of the C allocated belowground by trees to roots and mycorrhizae was returned to the atmosphere within 1 year; 9% of the belowground C flux was retained in coarse roots and 11% was retained as new soil C. The gains in new soil C were offset entirely by losses of old soil C. Further, while fertilization early in stand development increased C storage in the litter layer and in coarse roots, it reduced by 22% the flux of C moving through roots and mycorrhizae into mineral soils. Because soil C formation rates related strongly to rhizosphere C flux, fertilization may reduce an already limited capacity of these forests to sequester decay-resistant soil C.
doi_str_mv	10.1007/s00442-004-1552-0
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Academic</collection><jtitle>Oecologia</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Giardina, Christian P.</au><au>Binkley, Dan</au><au>Ryan, Michael G.</au><au>Fownes, James H.</au><au>Senock, Randy S.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Belowground Carbon Cycling in a Humid Tropical Forest Decreases with Fertilization</atitle><jtitle>Oecologia</jtitle><addtitle>Oecologia</addtitle><date>2004-05-01</date><risdate>2004</risdate><volume>139</volume><issue>4</issue><spage>545</spage><epage>550</epage><pages>545-550</pages><issn>0029-8549</issn><eissn>1432-1939</eissn><coden>OECOBX</coden><abstract>Only a small fraction of the carbon (C) allocated belowground by trees is retained by soils in long-lived, decay-resistant forms, yet because of the large magnitude of terrestrial primary productivity, even small changes in C allocation or retention can alter terrestrial C storage. The humid tropics exert a disproportionately large influence over terrestrial C storage, but C allocation and belowground retention in these ecosystems remain poorly quantified. Using mass balance and$^{13} {\rm{C}}$isotope methods, we examined the effects of afforestation and fertilization, two land-use changes of large-scale importance, on belowground C cycling at a humid tropical site in Hawaii. Here we report that in unfertilized plots, 80% of the C allocated belowground by trees to roots and mycorrhizae was returned to the atmosphere within 1 year; 9% of the belowground C flux was retained in coarse roots and 11% was retained as new soil C. The gains in new soil C were offset entirely by losses of old soil C. Further, while fertilization early in stand development increased C storage in the litter layer and in coarse roots, it reduced by 22% the flux of C moving through roots and mycorrhizae into mineral soils. Because soil C formation rates related strongly to rhizosphere C flux, fertilization may reduce an already limited capacity of these forests to sequester decay-resistant soil C.</abstract><cop>Berlin</cop><pub>Springer-Verlag</pub><pmid>15071736</pmid><doi>10.1007/s00442-004-1552-0</doi><tpages>6</tpages></addata></record>
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subjects	Agricultural soils Agrology Animal and plant ecology Animal, plant and microbial ecology Biological and medical sciences Carbon Carbon - physiology Carbon cycle Carbon Isotopes Decay Ecosystem Ecology Fertilization Fluctuations Forest ecosystems Forest soils Fundamental and applied biological sciences. Psychology General aspects Grassland soils Hawaii Humidity Land use Mineral soils Models, Biological Pedogenesis Plant Leaves - chemistry Plant Physiological Phenomena Retention Rhizosphere Roots Soil Soil ecology Soils Trees - physiology Tropical Climate Tropical environments Tropical forests Tropical soils
title	Belowground Carbon Cycling in a Humid Tropical Forest Decreases with Fertilization
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