SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4200224087> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W4200224087 endingPage "127350" @default.
W4200224087 startingPage "127350" @default.
W4200224087 abstract "• Moisture recycling indicated water resource renewal capacity. • Transitional characteristics of moisture recycling are evident. • Moisture recycling contributed 22% to precipitation. • Good ecological conditions enhance moisture recycling. Moisture recycling, an important component of regional precipitation, is a key indicator of a region's ability to renew its water resources. Quantifying moisture recycling allows for a comprehensive understanding of the spatial and temporal structure of the regional water balance. Therefore, an observation and sampling network for precipitation, soil samples, plant stems, and surface water was established in the Qilian Mountains, a transition zone between the Tibetan Plateau and an arid region. Approximately 2749 samples were collected and analyzed for their isotopic compositions. Based on the Craig–Gordon model and the three-end-member mixing model, the evaporation, transpiration, and advection contributed 8%, 14%, and 78% to precipitation, respectively, and the total contribution to local moisture recycling was equivalent to 71 mm of precipitation. The evaporation fraction tended to decrease from the central Qilian Mountains to the surrounding areas, whereas the transpiration fraction exhibited a decreasing trend from south to north in the south-central Qilian Mountains. If all of the moisture recycling precipitation is produced in the flow, the water production is approximately 13 billion m 3 , which is approximately 87% of the average total annual runoff from the Qilian Mountains and twice the average total annual runoff of the three major inland river basins in the Hexi corridor. Additionally, altitude, topography, vegetation conditions, and meteorological factors influence local moisture recycling. The results showed that moisture recycling precipitation in cold regions is crucial to ecological stability and water resource supply. This study demonstrates that good ecological conditions enhance moisture recycling, improve the renewal capacity of water resources, and support the stability and sustainable use of regional water resources. Therefore, ecological protection remains an important support for sustainable development in the Qilian Mountains." @default.
W4200224087 created "2021-12-31" @default.
W4200224087 creator A5003153566 @default.
W4200224087 creator A5019506252 @default.
W4200224087 creator A5021128215 @default.
W4200224087 creator A5021704935 @default.
W4200224087 creator A5025952666 @default.
W4200224087 creator A5037282810 @default.
W4200224087 creator A5050243449 @default.
W4200224087 creator A5060423204 @default.
W4200224087 creator A5063529185 @default.
W4200224087 date "2022-02-01" @default.
W4200224087 modified "2023-10-16" @default.
W4200224087 title "Water resources significance of moisture recycling in the transition zone between Tibetan Plateau and arid region by stable isotope tracing" @default.
W4200224087 cites W1904887924 @default.
W4200224087 cites W1969498554 @default.
W4200224087 cites W1981698175 @default.
W4200224087 cites W1990227602 @default.
W4200224087 cites W1995215663 @default.
W4200224087 cites W1999202242 @default.
W4200224087 cites W2004126339 @default.
W4200224087 cites W2020997422 @default.
W4200224087 cites W2026080049 @default.
W4200224087 cites W2026369475 @default.
W4200224087 cites W2028979033 @default.
W4200224087 cites W2030173038 @default.
W4200224087 cites W2031891362 @default.
W4200224087 cites W2040744616 @default.
W4200224087 cites W2041095556 @default.
W4200224087 cites W2052088810 @default.
W4200224087 cites W2069615716 @default.
W4200224087 cites W2078320940 @default.
W4200224087 cites W2099191715 @default.
W4200224087 cites W2099985906 @default.
W4200224087 cites W2102251760 @default.
W4200224087 cites W2103659921 @default.
W4200224087 cites W2113044267 @default.
W4200224087 cites W2117267906 @default.
W4200224087 cites W2119533411 @default.
W4200224087 cites W2132111528 @default.
W4200224087 cites W2135341027 @default.
W4200224087 cites W2158938089 @default.
W4200224087 cites W2166668017 @default.
W4200224087 cites W2169738213 @default.
W4200224087 cites W2171531906 @default.
W4200224087 cites W2177362332 @default.
W4200224087 cites W2181284422 @default.
W4200224087 cites W2187699728 @default.
W4200224087 cites W2193355790 @default.
W4200224087 cites W2326172452 @default.
W4200224087 cites W2358999428 @default.
W4200224087 cites W2462319284 @default.
W4200224087 cites W2466012698 @default.
W4200224087 cites W2473554729 @default.
W4200224087 cites W2475207183 @default.
W4200224087 cites W2807117151 @default.
W4200224087 cites W2906128442 @default.
W4200224087 cites W2906913798 @default.
W4200224087 cites W291575388 @default.
W4200224087 cites W2954125338 @default.
W4200224087 cites W2986313329 @default.
W4200224087 cites W2999794064 @default.
W4200224087 cites W3024508991 @default.
W4200224087 cites W3043000621 @default.
W4200224087 cites W3093058493 @default.
W4200224087 doi "https://doi.org/10.1016/j.jhydrol.2021.127350" @default.
W4200224087 hasPublicationYear "2022" @default.
W4200224087 type Work @default.
W4200224087 citedByCount "6" @default.
W4200224087 countsByYear W42002240872023 @default.
W4200224087 crossrefType "journal-article" @default.
W4200224087 hasAuthorship W4200224087A5003153566 @default.
W4200224087 hasAuthorship W4200224087A5019506252 @default.
W4200224087 hasAuthorship W4200224087A5021128215 @default.
W4200224087 hasAuthorship W4200224087A5021704935 @default.
W4200224087 hasAuthorship W4200224087A5025952666 @default.
W4200224087 hasAuthorship W4200224087A5037282810 @default.
W4200224087 hasAuthorship W4200224087A5050243449 @default.
W4200224087 hasAuthorship W4200224087A5060423204 @default.
W4200224087 hasAuthorship W4200224087A5063529185 @default.
W4200224087 hasConcept C100970517 @default.
W4200224087 hasConcept C111919701 @default.
W4200224087 hasConcept C121332964 @default.
W4200224087 hasConcept C127313418 @default.
W4200224087 hasConcept C134306372 @default.
W4200224087 hasConcept C138673069 @default.
W4200224087 hasConcept C150772632 @default.
W4200224087 hasConcept C151730666 @default.
W4200224087 hasConcept C153294291 @default.
W4200224087 hasConcept C163686574 @default.
W4200224087 hasConcept C164304813 @default.
W4200224087 hasConcept C17409809 @default.
W4200224087 hasConcept C176864760 @default.
W4200224087 hasConcept C187320778 @default.
W4200224087 hasConcept C1965285 @default.
W4200224087 hasConcept C205649164 @default.
W4200224087 hasConcept C22117777 @default.
W4200224087 hasConcept C2780030769 @default.