Capítulo de Livro

The Role of Rivers in the Regional Carbon Balance

Through the evolution of the Large-Scale Biosphere-Atmosphere Experiment in Amazonia, fluvial systems evolved from being regarded as ecologically interesting, but not necessarily relevant to the carbon budget, to important systems outgassing a volume of CO2 roughly equal to the carbon sequestered by...

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Autor principal: Richey, Jeffrey E.
Outros Autores: Krusche, Alex Vladimir, Johnson, Mark S., Cunha, Hillândia Brandão da, Ballester, Maria Victoria Ramos
Grau: Capítulo de Livro
Idioma: English
Publicado em: Amazonia and Global Change 2020
Assuntos:
Biogeochemistry
Biospherics
Budget Control
Carbon Dioxide
Catchments
Forestry
Groundwater
Organic Carbon
Amazon River
Clear-water Condition
Dissolved Organic Carbon
Ground Water Discharge
Large-scale Biosphere-atmosphere Experiments
Organic Matter Source
Photochemical Production
Seasonal Distributions
Rivers
Acesso em linha: https://repositorio.inpa.gov.br/handle/1/19924
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spelling oai:repositorio:1-19924 The Role of Rivers in the Regional Carbon Balance Richey, Jeffrey E. Krusche, Alex Vladimir Johnson, Mark S. Cunha, Hillândia Brandão da Ballester, Maria Victoria Ramos Biogeochemistry Biospherics Budget Control Carbon Dioxide Catchments Forestry Groundwater Organic Carbon Amazon River Clear-water Condition Dissolved Organic Carbon Ground Water Discharge Large-scale Biosphere-atmosphere Experiments Organic Matter Source Photochemical Production Seasonal Distributions Rivers Through the evolution of the Large-Scale Biosphere-Atmosphere Experiment in Amazonia, fluvial systems evolved from being regarded as ecologically interesting, but not necessarily relevant to the carbon budget, to important systems outgassing a volume of CO2 roughly equal to the carbon sequestered by the forest. Resolving the role of fluvial systems in the carbon balance of the Amazon basin is a problem in scaling, from small seeps and springs to streams to larger rivers. Groundwater discharge of CO2 and its subsequent evasion is a significant conduit for terrestrially respired carbon in tropical headwater catchments. Hydrologic transport of dissolved CO2 was equivalent to nearly half the gaseous CO2 contributions from deep soil (>2 m) to respiration at the soil surface. At larger scales, the dominant feature was a clear relation between discharge and biogeochemical concentrations, with systematic variance among sites. Seasonal distributions of pCO2 rose and fell almost exactly with the discharge hydrograph, while pH decreased and dissolved organic carbon increased. This suggests a constancy of processes across systems. Gas exchange is greater than previously thought, primarily due to greater outgassing in smaller streams than expected. No single organic matter source consistently fuels respiration; instead, the δ13C of respiration-derived CO2 varies with time and space. Photochemical production of labile bioavailable compounds would appear to be limited to clear water conditions. Based on these results, the original Richey et al. (2002) estimate of outgassing of 1.2 ± 0.3 Mg C ha-1 a-1 is conservative; the true value is likely higher. © 2009 by the American Geophysical Union. All rights reserved. 2020-06-16T15:04:44Z 2020-06-16T15:04:44Z 2013 Capítulo de Livro https://repositorio.inpa.gov.br/handle/1/19924 10.1029/2009GM000876 en Pags. 489-504 Restrito Amazonia and Global Change
institution Instituto Nacional de Pesquisas da Amazônia - Repositório Institucional
collection INPA-RI
language English
topic Biogeochemistry
Biospherics
Budget Control
Carbon Dioxide
Catchments
Forestry
Groundwater
Organic Carbon
Amazon River
Clear-water Condition
Dissolved Organic Carbon
Ground Water Discharge
Large-scale Biosphere-atmosphere Experiments
Organic Matter Source
Photochemical Production
Seasonal Distributions
Rivers
spellingShingle Biogeochemistry
Biospherics
Budget Control
Carbon Dioxide
Catchments
Forestry
Groundwater
Organic Carbon
Amazon River
Clear-water Condition
Dissolved Organic Carbon
Ground Water Discharge
Large-scale Biosphere-atmosphere Experiments
Organic Matter Source
Photochemical Production
Seasonal Distributions
Rivers
Richey, Jeffrey E.
The Role of Rivers in the Regional Carbon Balance
topic_facet Biogeochemistry
Biospherics
Budget Control
Carbon Dioxide
Catchments
Forestry
Groundwater
Organic Carbon
Amazon River
Clear-water Condition
Dissolved Organic Carbon
Ground Water Discharge
Large-scale Biosphere-atmosphere Experiments
Organic Matter Source
Photochemical Production
Seasonal Distributions
Rivers
description Through the evolution of the Large-Scale Biosphere-Atmosphere Experiment in Amazonia, fluvial systems evolved from being regarded as ecologically interesting, but not necessarily relevant to the carbon budget, to important systems outgassing a volume of CO2 roughly equal to the carbon sequestered by the forest. Resolving the role of fluvial systems in the carbon balance of the Amazon basin is a problem in scaling, from small seeps and springs to streams to larger rivers. Groundwater discharge of CO2 and its subsequent evasion is a significant conduit for terrestrially respired carbon in tropical headwater catchments. Hydrologic transport of dissolved CO2 was equivalent to nearly half the gaseous CO2 contributions from deep soil (>2 m) to respiration at the soil surface. At larger scales, the dominant feature was a clear relation between discharge and biogeochemical concentrations, with systematic variance among sites. Seasonal distributions of pCO2 rose and fell almost exactly with the discharge hydrograph, while pH decreased and dissolved organic carbon increased. This suggests a constancy of processes across systems. Gas exchange is greater than previously thought, primarily due to greater outgassing in smaller streams than expected. No single organic matter source consistently fuels respiration; instead, the δ13C of respiration-derived CO2 varies with time and space. Photochemical production of labile bioavailable compounds would appear to be limited to clear water conditions. Based on these results, the original Richey et al. (2002) estimate of outgassing of 1.2 ± 0.3 Mg C ha-1 a-1 is conservative; the true value is likely higher. © 2009 by the American Geophysical Union. All rights reserved.
format Capítulo de Livro
author Richey, Jeffrey E.
author2 Krusche, Alex Vladimir
Johnson, Mark S.
Cunha, Hillândia Brandão da
Ballester, Maria Victoria Ramos
author2Str Krusche, Alex Vladimir
Johnson, Mark S.
Cunha, Hillândia Brandão da
Ballester, Maria Victoria Ramos
title The Role of Rivers in the Regional Carbon Balance
title_short The Role of Rivers in the Regional Carbon Balance
title_full The Role of Rivers in the Regional Carbon Balance
title_fullStr The Role of Rivers in the Regional Carbon Balance
title_full_unstemmed The Role of Rivers in the Regional Carbon Balance
title_sort role of rivers in the regional carbon balance
publisher Amazonia and Global Change
publishDate 2020
url https://repositorio.inpa.gov.br/handle/1/19924
_version_ 1787143384440242176
score 11.755432

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