Processo de ciclagem e emissão de gases de efeito estufa em reservatório hidrelétrico do Centro-Oeste do Brasil (Cerrado) / Cycling process and emission of effect gases greenhouse in hydroelectric reservoir of the center-West of Brazil (Cerrado)

Mazzi, Edmar Antonio

11 February 2008

Foi apresentado um sistema automatizado para monitorar fluxos de metano (CH4) e do dióxido de carbono (CO2) na relação da água/ar de ecossistemas aquáticos. Consiste em uma série de câmaras flutuantes dinâmicas acopladas a um analisador photo acústico infravermelho de gás. Associado os outros sensores atmosféricos e de qualidade da água, foi possível identificar os fatores atmosféricos, hidrológico e biológico que afetam emissões de CH4 e de CO2 no reservatório de Corumbá (estado de Goiás), uma terra inundada antropogenica de savana. O estudo realizado em novembro 2004 e em março/agosto 2005 permitiu uma inter-correlação desobstruídos de estabelecimento da câmara, embora relações ligadas da profundidade-fluxo. Os fluxos de CH4 borbulhando médios em novembro 2004, em março e em agosto 2005 eram respectivamente 0.05 ± 2.19, 4 ± 45 e 505 o ± 1192 mg/m2/d. Para os mesmos meses, as emissões de CH4 difusivo médias foram 17 o ± 6, 37 ± 9 e 69 o ± 28 mg/m2/d, visto que os fluxos difusivo do CO2 foram respectivamente 59 o ± 398, 385 ± 629 e o ± 1466 1223 mg/m2/d. Um aspecto interessante de bolhas de CH4 é a liberação repentina e grande em locais rasos e liberação do escoamento em locais profundos. Em uma base diária, a freqüência e o valor de bolhas de CH4 são condicionados à oxidação durante períodos da flutuação do lago, e às mudanças totais da pressão exercidas no sedimento. Em escalas de tempo sazonal, a intensidade de bolhas de CH4 é condicionada principalmente pela disponibilidade da carcaça ao metanogeneses. As frentes frias são responsáveis pela a ruptura da estratificação (misturar), favorecendo emissões do CO2 depois da oxidação CH4. As emissões do CO2 puderam também ser acopladas ao diel metanotrófico. Nossos resultados sugerem que as emissões de gás do efeito estufa de Corumbá estão controladas pela maior parte pelo nível de água e pela luz solar. / It was present an automated system for monitoring methane (CH4) and carbon dioxide (CO2) fluxes at the water/air interface of aquatic ecosystems. It consists of a series of floating dynamic chambers coupled to an infrared photo acoustic gas analyzer. Associated to other atmospheric and water quality sensors, it was possible to identify atmospheric, hydrologic and biological factors affecting CH4 and CO2 emissions at Corumbá reservoir (State of Goiás), a savanna anthropogenic flooded land. The study carried out in November 2004 and March/August 2005 allowed establishing clear chamber inter-correlations, although intricate depth-flux relations. Mean CH4 bubbling fluxes in November 2004, March and August 2005 were respectively 0.05 ± 2.19, 4 ± 45 and 505 ± 1192 mg/m2/d. For the same months, mean CH4 diffusive emissions were 17 ± 6, 37 ± 9 and 69 ± 28 mg/m2/d, whereas CO2 diffusive fluxes were respectively 59 ± 398, 385 ± 629 and 1466 ± 1223 mg/m2/d. An interesting aspect of CH4 bubbling is the sudden and large release at shallow sites and seepage release at deep sites. On a daily basis, the frequency and magnitude of CH4 bubbling is conditioned to oxidation during overturn periods, and to the total pressure changes exerted on the sediment. At seasonal time scales, CH4 bubbling intensity is mainly conditioned by substrate availability to methanogenesis. Cold fronts are responsible for stratification rupture (mixing), favoring CO2 emissions following CH4 oxidation. CO2 emissions might also be coupled to diel methanotrophy. Our results suggest that greenhouse gas emissions from Corumbá are largely controlled by water level and sunlight.

Bubbling dynamics

Carbon dynamics

Carbono

Climate change

Dinâmica dos gases

Dynamic chambers

Efeito estufa

Methanotrophy

Mudança climática.

Net heterotrophy.

Regulation of carbon dioxide emission from Swedish boreal lakes and the Gulf of Bothnia

Algesten, Grete

January 2005

<p>The global carbon cycle is subject to intense research, where sources and sinks for greenhouse gases, carbon dioxide in particular, are estimated for various systems and biomes. Lakes have previously been neglected in carbon balance estimations, but have recently been recognized to be significant net sources of CO2.</p><p>This thesis estimates emission of carbon dioxide (CO2) from boreal lakes and factors regulating the CO2 saturation from field measurements of CO2 concentration along with a number of chemical, biological and physical parameters. Concentration of dissolved organic carbon (DOC) was found to be the most important factor for CO2 saturation in lake water, whereas climatic parameters such as precipitation, temperature and global radiation were less influential. All lakes were supersaturated with and, thus, sources of CO2. Sediment incubation experiments indicated that in-lake mineralization processes during summer stratification mainly occurred in the pelagial. Approximately 10% of the CO2 emitted from the lake surface was produced in epilimnetic sediments. </p><p>The mineralization of DOC and emission of CO2 from freshwaters was calculated on a catchment basis for almost 80,000 lakes and 21 major catchments in Sweden, together with rates of sedimentation in lakes and export of organic carbon to the sea. The total export of terrestrial organic carbon to freshwaters could thereby be estimated and consequently also the importance of lakes for the withdrawal of organic carbon export from terrestrial sources to the sea. Lakes removed 30-80% of imported terrestrial organic carbon, and mineralization and CO2 emission were much more important than sedimentation of carbon. The carbon loss was closely related to water retention time, where catchments with short residence times (<1 year) had low carbon retentions, whereas in catchments with long residence times (>3 years) a majority of the imported TOC was removed in the lake systems. </p><p>The Gulf of Bothnia was also studied in this thesis and found to be a net heterotrophic system, emitting large amounts of CO2 to the atmosphere on an annual basis. The rate of CO2 emission was depending on the balance between primary production and bacterial respiration, and the system was oscillating between being a source and a sink of CO2.</p>

Physical geography and sedimentology

lakes

boreal

Gulf of bothnia

CO2

NEE

DOC

mineralization

sediment

catchment

net heterotrophy

Naturgeografi och sedimentologi

Physical geography

Naturgeografi

Regulation of carbon dioxide emission from Swedish boreal lakes and the Gulf of Bothnia

Algesten, Grete

January 2005

The global carbon cycle is subject to intense research, where sources and sinks for greenhouse gases, carbon dioxide in particular, are estimated for various systems and biomes. Lakes have previously been neglected in carbon balance estimations, but have recently been recognized to be significant net sources of CO2. This thesis estimates emission of carbon dioxide (CO2) from boreal lakes and factors regulating the CO2 saturation from field measurements of CO2 concentration along with a number of chemical, biological and physical parameters. Concentration of dissolved organic carbon (DOC) was found to be the most important factor for CO2 saturation in lake water, whereas climatic parameters such as precipitation, temperature and global radiation were less influential. All lakes were supersaturated with and, thus, sources of CO2. Sediment incubation experiments indicated that in-lake mineralization processes during summer stratification mainly occurred in the pelagial. Approximately 10% of the CO2 emitted from the lake surface was produced in epilimnetic sediments. The mineralization of DOC and emission of CO2 from freshwaters was calculated on a catchment basis for almost 80,000 lakes and 21 major catchments in Sweden, together with rates of sedimentation in lakes and export of organic carbon to the sea. The total export of terrestrial organic carbon to freshwaters could thereby be estimated and consequently also the importance of lakes for the withdrawal of organic carbon export from terrestrial sources to the sea. Lakes removed 30-80% of imported terrestrial organic carbon, and mineralization and CO2 emission were much more important than sedimentation of carbon. The carbon loss was closely related to water retention time, where catchments with short residence times (&lt;1 year) had low carbon retentions, whereas in catchments with long residence times (&gt;3 years) a majority of the imported TOC was removed in the lake systems. The Gulf of Bothnia was also studied in this thesis and found to be a net heterotrophic system, emitting large amounts of CO2 to the atmosphere on an annual basis. The rate of CO2 emission was depending on the balance between primary production and bacterial respiration, and the system was oscillating between being a source and a sink of CO2.

Physical geography and sedimentology

lakes

boreal

Gulf of bothnia

CO2

NEE

DOC

mineralization

sediment

catchment

net heterotrophy

Naturgeografi och sedimentologi

Physical geography

Naturgeografi

Processo de ciclagem e emissão de gases de efeito estufa em reservatório hidrelétrico do Centro-Oeste do Brasil (Cerrado) / Cycling process and emission of effect gases greenhouse in hydroelectric reservoir of the center-West of Brazil (Cerrado)

Edmar Antonio Mazzi

11 February 2008

Foi apresentado um sistema automatizado para monitorar fluxos de metano (CH4) e do dióxido de carbono (CO2) na relação da água/ar de ecossistemas aquáticos. Consiste em uma série de câmaras flutuantes dinâmicas acopladas a um analisador photo acústico infravermelho de gás. Associado os outros sensores atmosféricos e de qualidade da água, foi possível identificar os fatores atmosféricos, hidrológico e biológico que afetam emissões de CH4 e de CO2 no reservatório de Corumbá (estado de Goiás), uma terra inundada antropogenica de savana. O estudo realizado em novembro 2004 e em março/agosto 2005 permitiu uma inter-correlação desobstruídos de estabelecimento da câmara, embora relações ligadas da profundidade-fluxo. Os fluxos de CH4 borbulhando médios em novembro 2004, em março e em agosto 2005 eram respectivamente 0.05 ± 2.19, 4 ± 45 e 505 o ± 1192 mg/m2/d. Para os mesmos meses, as emissões de CH4 difusivo médias foram 17 o ± 6, 37 ± 9 e 69 o ± 28 mg/m2/d, visto que os fluxos difusivo do CO2 foram respectivamente 59 o ± 398, 385 ± 629 e o ± 1466 1223 mg/m2/d. Um aspecto interessante de bolhas de CH4 é a liberação repentina e grande em locais rasos e liberação do escoamento em locais profundos. Em uma base diária, a freqüência e o valor de bolhas de CH4 são condicionados à oxidação durante períodos da flutuação do lago, e às mudanças totais da pressão exercidas no sedimento. Em escalas de tempo sazonal, a intensidade de bolhas de CH4 é condicionada principalmente pela disponibilidade da carcaça ao metanogeneses. As frentes frias são responsáveis pela a ruptura da estratificação (misturar), favorecendo emissões do CO2 depois da oxidação CH4. As emissões do CO2 puderam também ser acopladas ao diel metanotrófico. Nossos resultados sugerem que as emissões de gás do efeito estufa de Corumbá estão controladas pela maior parte pelo nível de água e pela luz solar. / It was present an automated system for monitoring methane (CH4) and carbon dioxide (CO2) fluxes at the water/air interface of aquatic ecosystems. It consists of a series of floating dynamic chambers coupled to an infrared photo acoustic gas analyzer. Associated to other atmospheric and water quality sensors, it was possible to identify atmospheric, hydrologic and biological factors affecting CH4 and CO2 emissions at Corumbá reservoir (State of Goiás), a savanna anthropogenic flooded land. The study carried out in November 2004 and March/August 2005 allowed establishing clear chamber inter-correlations, although intricate depth-flux relations. Mean CH4 bubbling fluxes in November 2004, March and August 2005 were respectively 0.05 ± 2.19, 4 ± 45 and 505 ± 1192 mg/m2/d. For the same months, mean CH4 diffusive emissions were 17 ± 6, 37 ± 9 and 69 ± 28 mg/m2/d, whereas CO2 diffusive fluxes were respectively 59 ± 398, 385 ± 629 and 1466 ± 1223 mg/m2/d. An interesting aspect of CH4 bubbling is the sudden and large release at shallow sites and seepage release at deep sites. On a daily basis, the frequency and magnitude of CH4 bubbling is conditioned to oxidation during overturn periods, and to the total pressure changes exerted on the sediment. At seasonal time scales, CH4 bubbling intensity is mainly conditioned by substrate availability to methanogenesis. Cold fronts are responsible for stratification rupture (mixing), favoring CO2 emissions following CH4 oxidation. CO2 emissions might also be coupled to diel methanotrophy. Our results suggest that greenhouse gas emissions from Corumbá are largely controlled by water level and sunlight.

Carbono

Dinâmica dos gases

Efeito estufa

Mudança climática.

Bubbling dynamics

Carbon dynamics

Climate change

Dynamic chambers

Methanotrophy

Net heterotrophy.

Regulation of carbon dioxide emission from Swedish boreal lakes and the Gulf of Bothnia

Algesten, Grete

January 2005

The global carbon cycle is subject to intense research, where sources and sinks for greenhouse gases, carbon dioxide in particular, are estimated for various systems and biomes. Lakes have previously been neglected in carbon balance estimations, but have recently been recognized to be significant net sources of CO2. This thesis estimates emission of carbon dioxide (CO2) from boreal lakes and factors regulating the CO2 saturation from field measurements of CO2 concentration along with a number of chemical, biological and physical parameters. Concentration of dissolved organic carbon (DOC) was found to be the most important factor for CO2 saturation in lake water, whereas climatic parameters such as precipitation, temperature and global radiation were less influential. All lakes were supersaturated with and, thus, sources of CO2. Sediment incubation experiments indicated that in-lake mineralization processes during summer stratification mainly occurred in the pelagial. Approximately 10% of the CO2 emitted from the lake surface was produced in epilimnetic sediments. The mineralization of DOC and emission of CO2 from freshwaters was calculated on a catchment basis for almost 80,000 lakes and 21 major catchments in Sweden, together with rates of sedimentation in lakes and export of organic carbon to the sea. The total export of terrestrial organic carbon to freshwaters could thereby be estimated and consequently also the importance of lakes for the withdrawal of organic carbon export from terrestrial sources to the sea. Lakes removed 30-80% of imported terrestrial organic carbon, and mineralization and CO2 emission were much more important than sedimentation of carbon. The carbon loss was closely related to water retention time, where catchments with short residence times (&lt;1 year) had low carbon retentions, whereas in catchments with long residence times (&gt;3 years) a majority of the imported TOC was removed in the lake systems. The Gulf of Bothnia was also studied in this thesis and found to be a net heterotrophic system, emitting large amounts of CO2 to the atmosphere on an annual basis. The rate of CO2 emission was depending on the balance between primary production and bacterial respiration, and the system was oscillating between being a source and a sink of CO2.

Physical geography and sedimentology

lakes

boreal

Gulf of bothnia

CO2

NEE

DOC

mineralization

sediment

catchment

net heterotrophy

Naturgeografi och sedimentologi

Physical Geography

Fysisk geografi