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@Article{FerreiraMiraCook:2021:NuSiSo,
               author = "Ferreira, Nicole Costa Resende and Miranda, Jarbas Hon{\'o}rio 
                         and Cooke, Richard",
          affiliation = "{Instituto Nacional de Pesquisas Espaciais (INPE)} and 
                         {Universidade de S{\~a}o Paulo (USP)} and {University of 
                         Illinois}",
                title = "Climate change and extreme events on drainage systems: numerical 
                         simulation of soil water in corn crops in Illinois (USA)",
              journal = "International Journal of Biometeorology",
                 year = "2021",
               volume = "65",
               number = "7",
                pages = "1001--1013",
                month = "July",
             abstract = "The influence of climate conditions in the agricultural 
                         environment is important in evapotranspiration, water availability 
                         for plants and roots, and other processes. This research focuses 
                         on two aspects: (1) the effects of climate change on the 
                         occurrence of extreme events that may affect agricultural 
                         processes in a region in Illinois (USA), and (2) the effects of 
                         climate change on the soil water dynamics in a corn crop. 
                         Different climate scenarios developed by the Institut Pierre Simon 
                         Laplace, using a climate model with medium resolution-IPSL(CM5MR), 
                         provided input to simulate soil water dynamics in two fields with 
                         different drainage system layouts. The Hydrus model simulated 
                         surface flux and runoff. Results indicate that the variation of 
                         precipitation and temperature in the future may increase extreme 
                         events, representing a risk for agriculture. Hydrus simulations 
                         indicate different results accordingly to the drainage layout, 
                         suggesting that it may be necessary to make adjustments in 
                         drainage systems in the future. In general, surface flux and 
                         runoff will increase over time, and these changes are more related 
                         to extreme events than average values. Extreme event indices show 
                         vulnerability in agriculture and will be reflected in changes in 
                         the soil water dynamics, and may increase the climatic risk of 
                         corn production.",
                  doi = "10.1007/s00484-021-02081-5",
                  url = "http://dx.doi.org/10.1007/s00484-021-02081-5",
                 issn = "0020-7128",
             language = "en",
           targetfile = "ferreira_climate.pdf",
        urlaccessdate = "20 maio 2024"
}
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