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W2000305928 endingPage "5409" @default.
W2000305928 startingPage "5395" @default.
W2000305928 abstract "A North American epidemic of mountain pine beetle (MPB) has disturbed over 5 million ha of forest containing headwater catchments crucial to water resources. However, there are limited observations of MPB effects on partitioning of precipitation between vapor loss and streamflow, and to our knowledge these fluxes have not been observed simultaneously following disturbance. We combined eddy covariance vapor loss (V), catchment streamflow (Q), and stable isotope indicators of evaporation (E) to quantify hydrologic partitioning over 3 years in MPB-impacted and control sites. Annual control V was conservative, varying only from 573 to 623 mm, while MPB site V varied more widely from 570 to 700 mm. During wet periods, MPB site V was greater than control V in spite of similar above-canopy potential evapotranspiration (PET). During a wet year, annual MPB V was greater and annual Q was lower as compared to an average year, while in a dry year, essentially all water was partitioned to V. Ratios of 2H and 18O in stream and soil water showed no kinetic evaporation at the control site, while MPB isotope ratios fell below the local meteoric water line, indicating greater E and snowpack sublimation (Ss) counteracted reductions in transpiration (T) and sublimation of canopy-intercepted snow (Sc). Increased E was possibly driven by reduced canopy shading of shortwave radiation, which averaged 21 W m−2 during summer under control forest as compared to 66 W m−2 under MPB forest. These results show that abiotic vapor losses may limit widely expected streamflow increases." @default.
W2000305928 created "2016-06-24" @default.
W2000305928 creator A5000560342 @default.
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W2000305928 creator A5053130626 @default.
W2000305928 creator A5084052107 @default.
W2000305928 creator A5084996894 @default.
W2000305928 date "2014-07-01" @default.
W2000305928 modified "2023-09-26" @default.
W2000305928 title "Increased evaporation following widespread tree mortality limits streamflow response" @default.
W2000305928 cites W1576148058 @default.
W2000305928 cites W1576810658 @default.
W2000305928 cites W1626068035 @default.
W2000305928 cites W1631697066 @default.
W2000305928 cites W1665465313 @default.
W2000305928 cites W1800076619 @default.
W2000305928 cites W1866635588 @default.
W2000305928 cites W1902088134 @default.
W2000305928 cites W1904475175 @default.
W2000305928 cites W1952984840 @default.
W2000305928 cites W1967715794 @default.
W2000305928 cites W1973361498 @default.
W2000305928 cites W1973390000 @default.
W2000305928 cites W1975768883 @default.
W2000305928 cites W1977103417 @default.
W2000305928 cites W1978062401 @default.
W2000305928 cites W1986804812 @default.
W2000305928 cites W1990656377 @default.
W2000305928 cites W1991567336 @default.
W2000305928 cites W1995658006 @default.
W2000305928 cites W1999254748 @default.
W2000305928 cites W2018043145 @default.
W2000305928 cites W2024440022 @default.
W2000305928 cites W2026337641 @default.
W2000305928 cites W2028917697 @default.
W2000305928 cites W2029576285 @default.
W2000305928 cites W2030475683 @default.
W2000305928 cites W2032981909 @default.
W2000305928 cites W2034270874 @default.
W2000305928 cites W2037579176 @default.
W2000305928 cites W2038547406 @default.
W2000305928 cites W2045671426 @default.
W2000305928 cites W2046399860 @default.
W2000305928 cites W2053763826 @default.
W2000305928 cites W2059085953 @default.
W2000305928 cites W2059278677 @default.
W2000305928 cites W2059994587 @default.
W2000305928 cites W2070774092 @default.
W2000305928 cites W2076037383 @default.
W2000305928 cites W2079594423 @default.
W2000305928 cites W2080359672 @default.
W2000305928 cites W2090806169 @default.
W2000305928 cites W2092169100 @default.
W2000305928 cites W2096923627 @default.
W2000305928 cites W2098618837 @default.
W2000305928 cites W2099662590 @default.
W2000305928 cites W2100184191 @default.
W2000305928 cites W2100422466 @default.
W2000305928 cites W2101533089 @default.
W2000305928 cites W2102243956 @default.
W2000305928 cites W2104404130 @default.
W2000305928 cites W2105630812 @default.
W2000305928 cites W2105713585 @default.
W2000305928 cites W2106632946 @default.
W2000305928 cites W2108153374 @default.
W2000305928 cites W2108506046 @default.
W2000305928 cites W2112906203 @default.
W2000305928 cites W2114333147 @default.
W2000305928 cites W2116869457 @default.
W2000305928 cites W2119292227 @default.
W2000305928 cites W2121847682 @default.
W2000305928 cites W2126693084 @default.
W2000305928 cites W2128332892 @default.
W2000305928 cites W2130053413 @default.
W2000305928 cites W2133850095 @default.
W2000305928 cites W2134613381 @default.
W2000305928 cites W2137825246 @default.
W2000305928 cites W2138360595 @default.
W2000305928 cites W2142416245 @default.
W2000305928 cites W2144653885 @default.
W2000305928 cites W2146014800 @default.
W2000305928 cites W2148637188 @default.
W2000305928 cites W2149541905 @default.
W2000305928 cites W2156748700 @default.
W2000305928 cites W2159567924 @default.
W2000305928 cites W2159669532 @default.
W2000305928 cites W2162670630 @default.
W2000305928 cites W2163541402 @default.
W2000305928 cites W2165977355 @default.
W2000305928 cites W2171536408 @default.
W2000305928 cites W2319734873 @default.
W2000305928 cites W2506970706 @default.
W2000305928 cites W4241003079 @default.
W2000305928 cites W4252983076 @default.
W2000305928 doi "https://doi.org/10.1002/2013wr014994" @default.
W2000305928 hasPublicationYear "2014" @default.