Low vertical transfer rates of carbon inferred from radiocarbon analysis in an Amazon Podzol
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2013 |
| Outros Autores: | , , , , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | Repositório Institucional do INPA |
| Texto Completo: | https://repositorio.inpa.gov.br/handle/1/14896 |
Resumo: | Hydromorphic Podzol soils in the Amazon Basin generally support low-stature forests with some of the lowest amounts of aboveground net primary production (NPP) in the region. However, they can also exhibit large values of be-lowground NPP that can contribute significantly to the total annual inputs of organic matter into the soil. These hydromorphic Podzol soils also exhibit a horizon rich in organic matter at around 1-2 m depth, presumably as a result of eluviation of dissolved organic matter and sesquioxides of Fe and Al. Therefore, it is likely that these ecosystems store large quantities of carbon by (1) large amounts of C inputs to soils dominated by their high levels of fine-root production, (2) stabilization of organic matter in an illuviation horizon due to significant vertical transfers of C. To assess these ideas we studied soil carbon dynamics using radiocarbon in two adjacent Amazon forests growing on contrasting soils: a hydromorphic Podzol and a well-drained Alisol supporting a high-stature terra firme forest. Our measurements showed similar concentrations of C and radiocarbon in the litter layer and the first 5 cm of the mineral soil for both sites. This result is consistent with the idea that the hydromorphic Podzol soil has similar soil C storage and cycling rates compared to the well-drained Alisol that supports a more opulent vegetation. However, we found important differences in carbon dynamics and transfers along the vertical profile. At both soils, we found similar radiocarbon concentrations in the subsoil, but the carbon released after incubating soil samples presented radiocarbon concentrations of recent origin in the Alisol, but not in the Podzol. There were no indications of incorporation of C fixed after 1950 in the illuvial horizon of the Podzol. With the aid of a simulation model, we predicted that only a minor fraction (1.7%) of the la abile carbon decomposed in the topsoil is transferred to the subsoil of the Podzol, while this proportional transfer is about 30 % in the Alisol. Furthermore, our estimates were 8 times lower than previous estimations of vertical C transfers in Amazon Podzols, and question the validity of these previous estimations for all Podzols within the Amazon Basin. Our results also challenge our previous ideas about the genesis of these particular soils and suggest that either they are n not true Podzols or the podzolization processes had already stopped. © Author(s) 2013. |
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Sierra, Carlos A.Jiménez, E. M.Reu, BjörnPeñuela, María CristinaThuille, AngelikaQuesada, Carlos Alberto2020-05-07T13:47:15Z2020-05-07T13:47:15Z2013https://repositorio.inpa.gov.br/handle/1/1489610.5194/bg-10-3455-2013Hydromorphic Podzol soils in the Amazon Basin generally support low-stature forests with some of the lowest amounts of aboveground net primary production (NPP) in the region. However, they can also exhibit large values of be-lowground NPP that can contribute significantly to the total annual inputs of organic matter into the soil. These hydromorphic Podzol soils also exhibit a horizon rich in organic matter at around 1-2 m depth, presumably as a result of eluviation of dissolved organic matter and sesquioxides of Fe and Al. Therefore, it is likely that these ecosystems store large quantities of carbon by (1) large amounts of C inputs to soils dominated by their high levels of fine-root production, (2) stabilization of organic matter in an illuviation horizon due to significant vertical transfers of C. To assess these ideas we studied soil carbon dynamics using radiocarbon in two adjacent Amazon forests growing on contrasting soils: a hydromorphic Podzol and a well-drained Alisol supporting a high-stature terra firme forest. Our measurements showed similar concentrations of C and radiocarbon in the litter layer and the first 5 cm of the mineral soil for both sites. This result is consistent with the idea that the hydromorphic Podzol soil has similar soil C storage and cycling rates compared to the well-drained Alisol that supports a more opulent vegetation. However, we found important differences in carbon dynamics and transfers along the vertical profile. At both soils, we found similar radiocarbon concentrations in the subsoil, but the carbon released after incubating soil samples presented radiocarbon concentrations of recent origin in the Alisol, but not in the Podzol. There were no indications of incorporation of C fixed after 1950 in the illuvial horizon of the Podzol. With the aid of a simulation model, we predicted that only a minor fraction (1.7%) of the la abile carbon decomposed in the topsoil is transferred to the subsoil of the Podzol, while this proportional transfer is about 30 % in the Alisol. Furthermore, our estimates were 8 times lower than previous estimations of vertical C transfers in Amazon Podzols, and question the validity of these previous estimations for all Podzols within the Amazon Basin. Our results also challenge our previous ideas about the genesis of these particular soils and suggest that either they are n not true Podzols or the podzolization processes had already stopped. © Author(s) 2013.Volume 10, Número 6, Pags. 3455-3464Attribution-NonCommercial-NoDerivs 3.0 Brazilhttp://creativecommons.org/licenses/by-nc-nd/3.0/br/info:eu-repo/semantics/openAccessCarbon IsotopeNet Primary ProductionPodzolRadionuclideSoil Organic MatterSoil StabilizationSubsoilVertical ProfileAmazon BasinLow vertical transfer rates of carbon inferred from radiocarbon analysis in an Amazon Podzolinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articleBiogeosciencesengreponame:Repositório Institucional do INPAinstname:Instituto Nacional de Pesquisas da Amazônia (INPA)instacron:INPAORIGINALartigo-inpa.pdfapplication/pdf1368027https://repositorio.inpa.gov.br/bitstream/1/14896/1/artigo-inpa.pdfbc14370dd3c0aaad1dc5ab1013a42ef2MD51CC-LICENSElicense_rdfapplication/octet-stream914https://repositorio.inpa.gov.br/bitstream/1/14896/2/license_rdf4d2950bda3d176f570a9f8b328dfbbefMD521/148962020-07-14 10:28:07.705oai:repositorio:1/14896Repositório de PublicaçõesPUBhttps://repositorio.inpa.gov.br/oai/requestopendoar:2020-07-14T14:28:07Repositório Institucional do INPA - Instituto Nacional de Pesquisas da Amazônia (INPA)false |
| dc.title.en.fl_str_mv |
Low vertical transfer rates of carbon inferred from radiocarbon analysis in an Amazon Podzol |
| title |
Low vertical transfer rates of carbon inferred from radiocarbon analysis in an Amazon Podzol |
| spellingShingle |
Low vertical transfer rates of carbon inferred from radiocarbon analysis in an Amazon Podzol Sierra, Carlos A. Carbon Isotope Net Primary Production Podzol Radionuclide Soil Organic Matter Soil Stabilization Subsoil Vertical Profile Amazon Basin |
| title_short |
Low vertical transfer rates of carbon inferred from radiocarbon analysis in an Amazon Podzol |
| title_full |
Low vertical transfer rates of carbon inferred from radiocarbon analysis in an Amazon Podzol |
| title_fullStr |
Low vertical transfer rates of carbon inferred from radiocarbon analysis in an Amazon Podzol |
| title_full_unstemmed |
Low vertical transfer rates of carbon inferred from radiocarbon analysis in an Amazon Podzol |
| title_sort |
Low vertical transfer rates of carbon inferred from radiocarbon analysis in an Amazon Podzol |
| author |
Sierra, Carlos A. |
| author_facet |
Sierra, Carlos A. Jiménez, E. M. Reu, Björn Peñuela, María Cristina Thuille, Angelika Quesada, Carlos Alberto |
| author_role |
author |
| author2 |
Jiménez, E. M. Reu, Björn Peñuela, María Cristina Thuille, Angelika Quesada, Carlos Alberto |
| author2_role |
author author author author author |
| dc.contributor.author.fl_str_mv |
Sierra, Carlos A. Jiménez, E. M. Reu, Björn Peñuela, María Cristina Thuille, Angelika Quesada, Carlos Alberto |
| dc.subject.eng.fl_str_mv |
Carbon Isotope Net Primary Production Podzol Radionuclide Soil Organic Matter Soil Stabilization Subsoil Vertical Profile Amazon Basin |
| topic |
Carbon Isotope Net Primary Production Podzol Radionuclide Soil Organic Matter Soil Stabilization Subsoil Vertical Profile Amazon Basin |
| description |
Hydromorphic Podzol soils in the Amazon Basin generally support low-stature forests with some of the lowest amounts of aboveground net primary production (NPP) in the region. However, they can also exhibit large values of be-lowground NPP that can contribute significantly to the total annual inputs of organic matter into the soil. These hydromorphic Podzol soils also exhibit a horizon rich in organic matter at around 1-2 m depth, presumably as a result of eluviation of dissolved organic matter and sesquioxides of Fe and Al. Therefore, it is likely that these ecosystems store large quantities of carbon by (1) large amounts of C inputs to soils dominated by their high levels of fine-root production, (2) stabilization of organic matter in an illuviation horizon due to significant vertical transfers of C. To assess these ideas we studied soil carbon dynamics using radiocarbon in two adjacent Amazon forests growing on contrasting soils: a hydromorphic Podzol and a well-drained Alisol supporting a high-stature terra firme forest. Our measurements showed similar concentrations of C and radiocarbon in the litter layer and the first 5 cm of the mineral soil for both sites. This result is consistent with the idea that the hydromorphic Podzol soil has similar soil C storage and cycling rates compared to the well-drained Alisol that supports a more opulent vegetation. However, we found important differences in carbon dynamics and transfers along the vertical profile. At both soils, we found similar radiocarbon concentrations in the subsoil, but the carbon released after incubating soil samples presented radiocarbon concentrations of recent origin in the Alisol, but not in the Podzol. There were no indications of incorporation of C fixed after 1950 in the illuvial horizon of the Podzol. With the aid of a simulation model, we predicted that only a minor fraction (1.7%) of the la abile carbon decomposed in the topsoil is transferred to the subsoil of the Podzol, while this proportional transfer is about 30 % in the Alisol. Furthermore, our estimates were 8 times lower than previous estimations of vertical C transfers in Amazon Podzols, and question the validity of these previous estimations for all Podzols within the Amazon Basin. Our results also challenge our previous ideas about the genesis of these particular soils and suggest that either they are n not true Podzols or the podzolization processes had already stopped. © Author(s) 2013. |
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2013 |
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2013 |
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2020-05-07T13:47:15Z |
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2020-05-07T13:47:15Z |
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https://repositorio.inpa.gov.br/handle/1/14896 |
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10.5194/bg-10-3455-2013 |
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Volume 10, Número 6, Pags. 3455-3464 |
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