Título:	Sustainability under deforestation and climate variability in tropical savannas: water yield in the Urucuia River Basin, Brazil.
Autor:	CORRÊA, T. R. MATRICARDI, E. A. T. FILOSO, S. SANTOS, J. A. dos SCARIOT, A. O. TORRES, C. M. M. E. MARTORANO, L. G. PEREIRA, E. M.
Afiliación:	THOMAS RIETH CORRÊA, UNIVERSITY OF BRASILIA; ERALDO APARECIDO TRONDOLI MATRICARDI, UNIVERSITY OF BRASILIA; SOLANGE FILOSO, UNIVERSITY OF MARYLAND; JUSCELINA ARCANJO DOS SANTOS, UNIVERSITY OF BRASILIA; ALDICIR OSNI SCARIOT, CENARGEN; CARLOS MOREIRA MIQUELINO ELETO TORRES, FEDERAL UNIVERSITY OF VIÇOSA; LUCIETTA GUERREIRO MARTORANO, CPATU; EDER MIGUEL PEREIRA, UNIVERSITY OF BRASILIA.
Año:	2025
Referencia:	Sustainability, v. 17, n. 18, 8169 2025.
Descripción:	By 2023, deforestation in the Cerrado biome surpassed 50% of its original area, primarily due to the conversion of native vegetation to pasture and agricultural land. In addition to anthropogenic pressure, climate change has intensified hydrological stress by reducing precipitation and decreasing river flows, thereby threatening water security, quality, and availability in that biome. The Annual Water Yield (AWY) model from the InVEST platform provides a tool to assess ecosystem services by estimating the balance between precipitation and evapotranspiration (ET). In this study, we applied the AWY model to the Urucuia River Basin, analyzing water yield trends from 1991 to 2020. We evaluated climate variables, land use dynamics, and river discharge data and validated the model validation using observed stream flow data. Although the model exhibited low performance in simulating observed streamflow (NSE = −0.14), scenario analyses under reduced precipitation and increased evapotranspiration (ET) revealed consistent water yield responses to climatic variability, supporting the model’s heuristic value for assessing the relative impacts of land use and climate change. The effects of deforestation on estimated water yield were limited, as land use changes resulted in only moderate shifts in basin-wide ET. This was primarily due to the offsetting effects of land conversion: while the replacement of savannas with pasture reduced ET, the expansion of agricultural areas increased it, leading to a net balancing effect. Nevertheless, other ecosystem services—such as water quality, soil erosion, and hydrological regulation—may have been affected, threatening long-term regional sustainability. Trend analysis showed a significant decline in river discharge, likely driven by the expansion of irrigated agriculture, particularly center pivot systems, despite the absence of significant trends in precipitation or ET.
NAL Thesaurus:	Deforestation
Palabras clave:	Cerrado biome Sustainable land use Water resource management Climate changes
DOI:	https://doi.org/10.3390/su17188169
Tipo de Material:	Artigo de periódico
Acceso:	openAccess
Aparece en las colecciones:	Artigo em periódico indexado (CENARGEN)