As table 2 but for precipitation responses to the surface temperature changes (d<em>P</em>/d<em>T</em>) Chunlei Liu Richard P Allan 10.6084/m9.figshare.1011451.v1 https://iop.figshare.com/articles/dataset/___As_table_a_href_http_iopscience_iop_org_1748_9326_8_3_034002_article_erl470150t2_target_blank_2_a/1011451 <p><b>Table 3.</b>  As table <a href="http://iopscience.iop.org/1748-9326/8/3/034002/article#erl470150t2" target="_blank">2</a> but for precipitation responses to the surface temperature changes (d<em>P</em>/d<em>T</em>). </p> <p><strong>Abstract</strong></p> <p>Global warming is expected to enhance fluxes of fresh water between the surface and atmosphere, causing wet regions to become wetter and dry regions drier, with serious implications for water resource management. Defining the wet and dry regions as the upper 30% and lower 70% of the precipitation totals across the tropics (30° S–30° N) each month we combine observations and climate model simulations to understand changes in the wet and dry regions over the period 1850–2100. Observed decreases in precipitation over dry tropical land (1950–2010) are also simulated by coupled atmosphere–ocean climate models (−0.3%/decade) with trends projected to continue into the 21st century. Discrepancies between observations and simulations over wet land regions since 1950 exist, relating to decadal fluctuations in El Niño southern oscillation, the timing of which is not represented by the coupled simulations. When atmosphere-only simulations are instead driven by observed sea surface temperature they are able to adequately represent this variability over land. Global distributions of precipitation trends are dominated by spatial changes in atmospheric circulation. However, the tendency for already wet regions to become wetter (precipitation increases with warming by 3% K<sup>−1</sup> over wet tropical oceans) and the driest regions drier (precipitation decreases of −2% K<sup>−1</sup> over dry tropical land regions) emerges over the 21st century in response to the substantial surface warming.</p> 2013-07-03 00:00:00 surface temperature changes driest regions drier 21 st century climate model simulations land regions water resource management warming sea surface temperature Environmental Science