@misc{tsanis_reducing_uncertainty_2014, author={Tsanis, I.K.,Grillakis, M.G.,Koutroulis, A.G.,Jacob, D.}, title={Reducing Uncertainty on Global Precipitation Projections}, year={2014}, howpublished = {journal article}, doi = {https://doi.org/10.4172/2157-7617.1000178}, abstract = {In order to study the future of freshwater availability, reliable precipitation projections are required. Potential future changes in global precipitation are investigated by analyzing the Global Climate Models’ projections. However, these projections cannot be used in their native form on climate change impact studies, due to the high systematic errors and biases that they feature, limiting the applicability of these projections. Various methodologies have been developed to correct the precipitation bias, including dynamical and statistical methods. Here we present a global precipitation ensemble projection for the 21st century. We use a multi-segment statistical bias correction method that radically reduces the correction-induced uncertainty to the precipitation. The ensemble consist of results from three different global climate models for A2 and B1 emission scenarios, in order to reduce the uncertainty related to the model selection. The results show significant changes in areal mean and extreme precipitation during the 21st century for the A2 and B1 emission scenarios. For all simulations, the results show that the global mean and extreme precipitation will increase under both scenarios, indicating a more intense forthcoming global water cycle.}, note = {Online available at: \url{https://doi.org/10.4172/2157-7617.1000178} (DOI). Tsanis, I.; Grillakis, M.; Koutroulis, A.; Jacob, D.: Reducing Uncertainty on Global Precipitation Projections. Journal of Earth Science and Climatic Change. 2014. vol. 5, no. 2, 178. DOI: 10.4172/2157-7617.1000178}}