Use este identificador para citar ou linkar para este item: http://repositorio.ufc.br/handle/riufc/72669
Tipo: Artigo de Periódico
Título: Climate change impacts on water demand and availability using CMIP5 models in the Jaguaribe basin, semi-arid Brazil
Autor(es): Gondim, Rubens Sonsol
Silveira, Cleiton da Silva
Souza Filho, Francisco de Assis de
Vasconcelos Júnior, Francisco das Chagas
Cid, Daniel Antônio Camelo
Palavras-chave: Climate change;Irrigation;Hydrology;Jaguaribe
Data do documento: 2018
Instituição/Editor/Publicador: Environmental Earth Sciences
Citação: GONDIM, Rubens Sonsol; SILVEIRA, Cleiton da Silva; SOUZA FILHO, Francisco de Assis de; VASCONCELOS JÚNIOR, Francisco das Chagas; CID, Daniel Antonio Camelo. Climate change impacts on water demand and availability using CMIP5 models in the Jaguaribe basin, semi-arid Brazil. Environmental Earth Sciences, [S. l.], v. 77, n. 550, p. 1-14, 2018.
Abstract: The objective of this study was to analyze climate change impacts on irrigation water demand and availability in the Jaguaribe River basin, Brazil. For northeastern Brazil, five global circulation models were selected using a rainfall seasonal evaluation screening technique from the Intergovernmental Panel on Climate Change named Coupled Model Intercomparison Project Phase 5. The climate variables were generated for the base period of 1971–2000, as were projections for the 2025–2055 future time slice. Removal of maximum and minimum temperature and rainfall output bias was used to estimate reference evapotranspiration, irrigation water needs, and river flow using the rainfall—river flow hydrological model Soil Moisture Accounting Procedure for the baseline and future climate (Representative Concentration Pathways 4.5 and 8.5 scenarios). In addition, by applying improved irrigation efficiency, a scenario was evaluated in comparison with field observed perfor- mance. The water-deficit index was used as a water availability performance indicator. Future climate projections by all five models resulted in increases in future reference evapotranspiration (2.3–6.3%) and irrigation water needs (2.8–16.7%) for all scenarios. Regarding rainfall projections, both positive (4.8–12.5%) and negative (− 2.3 to − 15.2%) signals were observed. Most models and scenarios project that annual river flow will decrease. Lower future water availability was detected by the less positive water-deficit index. Improved irrigation efficiency is a key measure for the adaptation to higher future levels of water demand, as climate change impacts could be compensated by gains in irrigation efficiency (water demand changes varying from − 1.7 to − 35.2%).
URI: http://www.repositorio.ufc.br/handle/riufc/72669
ISSN: 1866-6299
Tipo de Acesso: Acesso Aberto
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