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The role of Amazonian fluvial systems in regional and global carbon cycles: CO2 evasion and land-water interactions

Grant number: 03/13172-2
Support type:Research Projects - Thematic Grants
Duration: October 01, 2004 - January 31, 2009
Field of knowledge:Biological Sciences - Ecology
Principal Investigator:Reynaldo Luiz Victória
Grantee:Reynaldo Luiz Victória
Home Institution: Centro de Energia Nuclear na Agricultura (CENA). Universidade de São Paulo (USP). Piracicaba , SP, Brazil
Co-Principal Investigators:Alex Vladimir Krusche ; Antonio Roberto Pereira ; Maria Victoria Ramos Ballester
Associated grant(s):06/52251-3 - Linda Anne Deegan | The Ecosystems Center - MBL - United States, AV.EXT
06/52242-4 - Christopher Neill | The Ecosystems Center - MBL - United States, AV.EXT
Associated scholarship(s):05/56386-8 - Isotopic discrimination of sources of methane in tropical forests of Amazonia, BP.DR

Abstract

The humid tropics play an important but ambiguous role in the global carbon cycle. While deforestation has been estimated to release about 1.6 Gt C y-¹ (HOUGHTON, 2000), mature Amazon rainforests appear to sequester carbon (act as a sink), but of an uncertain magnitude. Current estimates of sequestration have wide variation between different types of measurements, ~1,3 Mg C.ha-¹ yr-¹ based on the accumulation of biomass and soils (PHILLIPS et aI., 1998; CHAMBERS et aI., 2001; TRUMBORE, 2000) to 1.0 to > 5.9 Mg C ha-¹ y-¹ based on eddy covariance measurements (FAN et al. 1990; GRACE et al. 1995; MALHI et al. 1998). However, recent calculations from global atmospheric inverse modeling imply that the net carbon exchange of the tropics with the atmosphere is about zero (SCHIMEL et al.; 2001). Discrepancies between these estimates of carbon sequestration rates may be due in part to methodological issues and integration times of methods. However, it is also possible that at least part of the carbon fixed in the upland could be "exported” in fluxes not yet quantified. In fact, preliminary results (RICHEY et al., 2002) show that evasive fluxes of C02 from aquatic systems of the Amazon can account for as much as the lower estimate of carbon sequestration by "terra firme" forests in the central part of the basin. In this project we hypothesize that "CO2 evasion returns as much carbon to the atmosphere as is sequestered in upland forests on an interannual basis and the export of organic material from upland forests to fluvial environments is the primary source of carbon that is eventually respired in rivers and evaded as CO2”. To test it, we intend to: 1) conduct fieldwork in characteristic sub basins to obtain an extensive suite of pC02 distribution measurements over the hydrologic regime; 2) use proven geochemical techniques (gas flux measurements, isotopic tracers, demineralization rates) to quantify the rates of the lateral transfer and cycling of water and bioactive organic matter from the land, through riparian environments and to the river system and; 3) use a terrestrial source/river transport and reaction model to synthesize and extrapolate the site-specific C02 evasion rate measurements to a basin-wide estimate of C02 evasion rate. This project consolidates and extends the scientific and educational activities of this group in fluvial systems of the Amazon, started 20 years ago with a successful cooperation between Centro de Energia Nuclear na Agricultura, Instituto Nacional de Pesquisas da Amazônia and University of Washington, Seattle, USA, and which was followed by the thematic project "Changes in organic matter dynamics in micro and meso-scale rivers of Rondônia, as a function of changes in land cover" Its feasibility is also assured by various cooperation within LBA (NASA), with the University of Washington and the Marine Biological Laboratory (Woods Hole, MA, USA) and within the Millennium Institute (CNPq), with several research institutions in the Amazon. (AU)

Articles published in Agência FAPESP Newsletter about the research grant
Deforestation increases water treatment costs 100-fold  
Impacts of changes in land use on bodies of water 
Articles published in Pesquisa FAPESP Magazine about the research grant:
Water and air 

Scientific publications (17)
(References retrieved automatically from Web of Science and SciELO through information on FAPESP grants and their corresponding numbers as mentioned in the publications by the authors)
GARCIA, ANDREA S.; SAWAKUCHI, HENRIQUE O.; FERREIRA, MANUEL EDUARDO; BALLESTER, MARIA VICTORIA R. Landscape changes in a neotropical forest-savanna ecotone zone in central Brazil: The role of protected areas in the maintenance of native vegetation. Journal of Environmental Management, v. 187, p. 16-23, FEB 1 2017. Web of Science Citations: 7.
RISKIN, SHELBY H.; NEILL, CHRISTOPHER; JANKOWSKI, KATHIJO; KRUSCHE, ALEX V.; MCHORNEY, RICHARD; ELSENBEER, HELMUT; MACEDO, MARCIA N.; NUNES, DARLISSON; PORDER, STEPHEN. Solute and sediment export from Amazon forest and soybean headwater streams. Ecological Applications, v. 27, n. 1, p. 193-207, JAN 2017. Web of Science Citations: 13.
NEU, VANIA; WARD, NICHOLAS D.; KRUSCHE, V, ALEX; NEILL, CHRISTOPHER. Dissolved Organic and Inorganic Carbon Flow Paths in an Amazonian Transitional Forest. FRONTIERS IN MARINE SCIENCE, v. 3, 2016. Web of Science Citations: 4.
RISKIN, SHELBY H.; PORDER, STEPHEN; NEILL, CHRISTOPHER; FIGUEIRA, ADELAINE MICHELA E SILVA; TUBBESING, CARMEN; MAHOWALD, NATALIE. The fate of phosphorus fertilizer in Amazon soya bean fields. PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES, v. 368, n. 1619, SI JUN 5 2013. Web of Science Citations: 27.
GERMER, SONJA; ZIMMERMANN, ALEXANDER; NEILL, CHRISTOPHER; KRUSCHE, ALEX V.; ELSENBEER, HELMUT. Disproportionate single-species contribution to canopy-soil nutrient flux in an Amazonian rainforest. FOREST ECOLOGY AND MANAGEMENT, v. 267, p. 40-49, MAR 1 2012. Web of Science Citations: 18.
LEITE, NEI K.; KRUSCHE, ALEX V.; BALLESTER, MARIA V. R.; VICTORIA, REYNALDO L.; RICHEY, JEFFREY E.; GOMES, BEATRIZ M. Intra and interannual variability in the Madeira River water chemistry and sediment load. BIOGEOCHEMISTRY, v. 105, n. 1-3, p. 37-51, SEP 2011. Web of Science Citations: 15.
NEILL, CHRISTOPHER; CHAVES, JOAQUIN E.; BIGGS, TRENT; DEEGAN, LINDA A.; ELSENBEER, HELMUT; FIGUEIREDO, RICARDO O.; GERMER, SONJA; JOHNSON, MARK S.; LEHMANN, JOHANNES; MARKEWITZ, DANIEL; PICCOLO, MARISA C. Runoff sources and land cover change in the Amazon: an end-member mixing analysis from small watersheds. BIOGEOCHEMISTRY, v. 105, n. 1-3, p. 7-18, SEP 2011. Web of Science Citations: 22.
NEU, VANIA; NEILL, CHRISTOPHER; KRUSCHE, ALEX V. Gaseous and fluvial carbon export from an Amazon forest watershed. BIOGEOCHEMISTRY, v. 105, n. 1-3, p. 133-147, SEP 2011. Web of Science Citations: 26.
RICHEY, JEFFREY E.; BALLESTER, MARIA VICTORIA; DAVIDSON, ERIC A.; JOHNSON, MARK S.; KRUSCHE, ALEX V. Land-Water interactions in the amazon. BIOGEOCHEMISTRY, v. 105, n. 1-3, p. 1-5, SEP 2011. Web of Science Citations: 5.
ALIN, SIMONE R.; RASERA, MARIA DE FATIMA F. L.; SALIMON, CLEBER I.; RICHEY, JEFFREY E.; HOLTGRIEVE, GORDON W.; KRUSCHE, ALEX V.; SNIDVONGS, ANOND. Physical controls on carbon dioxide transfer velocity and flux in low-gradient river systems and implications for regional carbon budgets. JOURNAL OF GEOPHYSICAL RESEARCH, v. 116, JAN 27 2011. Web of Science Citations: 103.
HAYHOE, SHELBY J.; NEILL, CHRISTOPHER; PORDER, STEPHEN; MCHORNEY, RICHARD; LEFEBVRE, PAUL; COE, MICHAEL T.; ELSENBEER, HELMUT; KRUSCHE, ALEX V. Conversion to soy on the Amazonian agricultural frontier increases streamflow without affecting stormflow dynamics. GLOBAL CHANGE BIOLOGY, v. 17, n. 5, p. 1821-1833, 2011. Web of Science Citations: 57.
GERMER, SONJA; NEILL, CHRISTOPHER; KRUSCHE, ALEX V.; ELSENBEER, HELMUT. Influence of land-use change on near-surface hydrological processes: Undisturbed forest to pasture. Journal of Hydrology, v. 380, n. 3-4, p. 473-480, Jan. 2010. Web of Science Citations: 98.
CHAVES, JOAQUIN; NEILL, CHRISTOPHER; GERMER, SONJA; NETO, SERGIO GOUVEIA; KRUSCHE, ALEX V.; BONILLA, ADRIANA CASTELLANOS; ELSENBEER, HELMUT. Nitrogen Transformations in Flowpaths Leading from Soils to Streams in Amazon Forest and Pasture. ECOSYSTEMS, v. 12, n. 6, p. 961-972, SEP 2009. Web of Science Citations: 26.
GERMER, SONJA; NEILL, CHRISTOPHER; VETTER, TOBIAS; CHAVES, JOAQUIN; KRUSCHE, ALEX V.; ELSENBEER, HELMUT. Implications of long-term land-use change for the hydrology and solute budgets of small catchments in Amazonia. Journal of Hydrology, v. 364, n. 3-4, p. 349-363, Jan. 2009. Web of Science Citations: 56.
CHAVES‚ J.; NEILL‚ C.; GERMER‚ S.; NETO‚ S.G.; KRUSCHE‚ A.; ELSENBEER‚ H. Land management impacts on runoff sources in small Amazon watersheds. Hydrological Processes, v. 22, n. 12, p. 1766-1775, 2008.
DE FÁTIMA FL RASERA‚ M.; BALLESTER‚ M.V.R.; KRUSCHE‚ A.V.; SALIMON‚ C.; MONTEBELO‚ L.A.; ALIN‚ S.R.; VICTORIA‚ R.L.; RICHEY‚ J.E. Estimating the surface area of small rivers in the southwestern Amazon and their role in CO2 outgassing. Earth Interactions, v. 12, n. 6, p. 1-16, 2008.
REMINGTON‚ S.M.; STRAHM‚ B.D.; NEU‚ V.; RICHEY‚ J.E.; DA CUNHA‚ H.B. The role of sorption in control of riverine dissolved organic carbon concentrations by riparian zone soils in the Amazon basin. SOIL SCIENCE, v. 172, n. 4, p. 279-291, 2007.

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