Biomass uptake and fire as controls on groundwater solute evolution on a southeast Australian granite: aboriginal land management hypothesis

Autor:	John Webb, Geraldine Jacobsen, Robert Chisari, P. E. Dresel, Joshua F. Dean
Přispěvatelé:	Earth and Climate
Jazyk:	angličtina
Rok vydání:	2014
Předmět:	Hydrology Biomass (ecology) lcsh:QE1-996.5 lcsh:Life Land management Northern Hemisphere Weathering lcsh:Geology lcsh:QH501-531 Nutrient lcsh:QH540-549.5 lcsh:Ecology Surface water Chemical composition Ecology Evolution Behavior and Systematics Groundwater Geology Earth-Surface Processes
Zdroj:	Biogeosciences, 11(15), 4099-4114. European Geosciences Union Dean, J F, Webb, J A, Jacobsen, G E, Chisari, R & Dresel, P E 2014, ' Biomass uptake and fire as controls on groundwater solute evolution on a southeast Australian granite: aboriginal land management hypothesis ', Biogeosciences, vol. 11, no. 15, pp. 4099-4114 . https://doi.org/10.5194/bg-11-4099-2014 Biogeosciences, Vol 11, Iss 15, Pp 4099-4114 (2014)
ISSN:	1726-4170 1726-4189
DOI:	10.5194/bg-11-4099-2014
Popis:	The chemical composition of groundwater and surface water is often considered to be dominated by water–rock interactions, particularly weathering; however, it has been increasingly realised that plant uptake can deplete groundwater and surface water of nutrient elements. Here we show, using geochemical mass balance techniques, that water–rock interactions do not control the hydrochemistry at our study site within a granite terrain in southwest Victoria, Australia. Instead the chemical species provided by rainfall are depleted by plant biomass uptake and exported, predominantly through fire. Regular landscape burning by Aboriginal land users is hypothesized to have caused the depletion of chemical species in groundwater for at least the past 20 000 yr by accelerating the export of elements that would otherwise have been stored within the local biomass. These findings are likely to be applicable to silicate terrains throughout southeast Australia, as well as similar lithological and climatic regions elsewhere in the globe, and contrast with studies of groundwater and surface water chemistry in higher rainfall areas of the Northern Hemisphere, where water–rock interactions are the dominant hydrochemical control.
Databáze:	OpenAIRE
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