Hydrologic intensity is often quantified using precipitation without directly incorporating atmospheric water demand. We develop a hydrologic intensity index called the surplus deficit intensity (SDI) index that accounts for variation in supply and demand. SDI is the standardized sum of standardized surplus intensity (mean of daily surplus when supply > demand) and deficit time (mean of consecutive days when demand > supply). Using an observational ensemble of global daily precipitation and atmospheric water demand during 1979-2017, we document widespread hydrologic intensification (SDI; +0.11 z-score per decade) driven primarily by increased surplus intensity. Using a climate model ensemble of the United States, hydrologic intensification is projected for the mid-21st century (+0.86 in z-score compared to 1971-2000), producing greater apparent intensification when compared to an index that does not explicitly incorporate demand. While incorporating demand had a minor effect on observed hydrologic intensification, it doubles hydrological intensification for the mid-21st century.
1.Indiana Univ, Dept Geog, Bloomington, IN 47405 USA 2.Univ Idaho, Dept Geog, Moscow, ID 83843 USA 3.Indiana Univ, ONeill Sch Publ & Environm, Bloomington, IN USA
Recommended Citation:
Ficklin, Darren L.,Abatzoglou, John T.,Novick, Kimberly A.. A New Perspective on Terrestrial Hydrologic Intensity That Incorporates Atmospheric Water Demand[J]. GEOPHYSICAL RESEARCH LETTERS,2019-01-01,46(14):8114-8124