SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2000821613> ?p ?o ?g. }

Showing items 1 to 100 of ±158 with 100 items per page.

W2000821613 endingPage "34" @default.
W2000821613 startingPage "23" @default.
W2000821613 abstract "Bias corrected daily climate projections from five global circulation models (GCMs) under the RCP8.5 emission scenarios were fed into a calibrated Variable Infiltration Capacity (VIC) hydrologic model to project future hydrological changes in China. The standardized precipitation index (SPI), standardized runoff index (SRI) and standardized soil moisture index (SSWI) were used to assess the climate change impact on droughts from meteorological, agricultural, and hydrologic perspectives. Changes in drought severity, duration, and frequency suggest that meteorological, hydrological and agricultural droughts will become more severe, prolonged, and frequent for 2020-2049 relative to 1971-2000, except for parts of northern and northeastern China. The frequency of long-term agricultural droughts (with duration larger than 4 months) will increase more than that of short-term droughts (with duration less than 4 months), while the opposite is projected for meteorological and hydrological droughts. In extreme cases, the most prolonged agricultural droughts increased from 6 to 26 months whereas the most prolonged meteorological and hydrological droughts changed little. The most severe hydrological drought intensity was about 3 times the baseline in general whereas the most severe meteorological and agricultural drought intensities were about 2 times and 1.5 times the baseline respectively. For the prescribed local temperature increments up to 3 degrees C, increase of agricultural drought occurrence is predicted whereas decreases or little changes of meteorological and hydrological drought occurrences are projected for most temperature increments. The largest increase of meteorological and hydrological drought durations and intensities occurred when temperature increased by 1 degrees C whereas agricultural drought duration and intensity tend to increase consistently with temperature increments. Our results emphasize that specific measures should be taken by specific sectors in order to better mitigate future climate change associated with specific warming amounts. It is, however, important to keep in mind that our results may depend on the emission scenario, GCMs, impact model, time periods and drought indicators selected for analysis. (C) 2015 Elsevier B.V. All rights reserved." @default.
W2000821613 created "2016-06-24" @default.
W2000821613 creator A5022406950 @default.
W2000821613 creator A5055061678 @default.
W2000821613 creator A5063490343 @default.
W2000821613 date "2015-03-01" @default.
W2000821613 modified "2023-10-03" @default.
W2000821613 title "Climate change impacts on meteorological, agricultural and hydrological droughts in China" @default.
W2000821613 cites W13792739 @default.
W2000821613 cites W1496576239 @default.
W2000821613 cites W1550529600 @default.
W2000821613 cites W1643385957 @default.
W2000821613 cites W1963788570 @default.
W2000821613 cites W1964386488 @default.
W2000821613 cites W1970079192 @default.
W2000821613 cites W1975283529 @default.
W2000821613 cites W1975384232 @default.
W2000821613 cites W1977155123 @default.
W2000821613 cites W1978537544 @default.
W2000821613 cites W1994769111 @default.
W2000821613 cites W1994954836 @default.
W2000821613 cites W1996836686 @default.
W2000821613 cites W2000236878 @default.
W2000821613 cites W2003341092 @default.
W2000821613 cites W2004484179 @default.
W2000821613 cites W2004826996 @default.
W2000821613 cites W2006139086 @default.
W2000821613 cites W2009030724 @default.
W2000821613 cites W2011425404 @default.
W2000821613 cites W2016305227 @default.
W2000821613 cites W2021839439 @default.
W2000821613 cites W2022098914 @default.
W2000821613 cites W2023796502 @default.
W2000821613 cites W2027219405 @default.
W2000821613 cites W2027804997 @default.
W2000821613 cites W2032943749 @default.
W2000821613 cites W2042439109 @default.
W2000821613 cites W2045436061 @default.
W2000821613 cites W2047760271 @default.
W2000821613 cites W2048608554 @default.
W2000821613 cites W2050138106 @default.
W2000821613 cites W2051937251 @default.
W2000821613 cites W2052337240 @default.
W2000821613 cites W2053459628 @default.
W2000821613 cites W2054372556 @default.
W2000821613 cites W2054653365 @default.
W2000821613 cites W2057119132 @default.
W2000821613 cites W2057522255 @default.
W2000821613 cites W2061744563 @default.
W2000821613 cites W2062030462 @default.
W2000821613 cites W2066531234 @default.
W2000821613 cites W2074053945 @default.
W2000821613 cites W2076514432 @default.
W2000821613 cites W2082407721 @default.
W2000821613 cites W2087692861 @default.
W2000821613 cites W2091783762 @default.
W2000821613 cites W2092866616 @default.
W2000821613 cites W2099196698 @default.
W2000821613 cites W2101880809 @default.
W2000821613 cites W2103147560 @default.
W2000821613 cites W2103897732 @default.
W2000821613 cites W2104157175 @default.
W2000821613 cites W2107073505 @default.
W2000821613 cites W2108886061 @default.
W2000821613 cites W2109877312 @default.
W2000821613 cites W2115385872 @default.
W2000821613 cites W2115787587 @default.
W2000821613 cites W2115806720 @default.
W2000821613 cites W2116633080 @default.
W2000821613 cites W2118420853 @default.
W2000821613 cites W2118487689 @default.
W2000821613 cites W2122389133 @default.
W2000821613 cites W2123626997 @default.
W2000821613 cites W2124614231 @default.
W2000821613 cites W2125070304 @default.
W2000821613 cites W2126692169 @default.
W2000821613 cites W2130894313 @default.
W2000821613 cites W2131086800 @default.
W2000821613 cites W2138408852 @default.
W2000821613 cites W2141630770 @default.
W2000821613 cites W2143822331 @default.
W2000821613 cites W2145691141 @default.
W2000821613 cites W2148345493 @default.
W2000821613 cites W2153127775 @default.
W2000821613 cites W2158415615 @default.
W2000821613 cites W2163673508 @default.
W2000821613 cites W2166566270 @default.
W2000821613 cites W2168633186 @default.
W2000821613 cites W2168663102 @default.
W2000821613 cites W2169245074 @default.
W2000821613 cites W2171071998 @default.
W2000821613 cites W2171635644 @default.
W2000821613 cites W3129075462 @default.
W2000821613 cites W749999332 @default.
W2000821613 cites W90963159 @default.
W2000821613 cites W960474485 @default.
W2000821613 doi "https://doi.org/10.1016/j.gloplacha.2015.01.003" @default.
W2000821613 hasPublicationYear "2015" @default.