SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2802602448> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W2802602448 endingPage "1127" @default.
W2802602448 startingPage "1117" @default.
W2802602448 abstract "Streams strongly influenced by groundwater discharge may serve as “climate refugia” for sensitive species in regions of increasingly marginal thermal conditions. The main goal of this study is to develop paired air and stream water annual temperature signal analysis techniques to elucidate the relative groundwater contribution to stream water and the effective groundwater flowpath depth. Groundwater discharge to streams attenuates surface water temperature signals, and this attenuation can be diagnostic of groundwater gaining systems. Additionally, discharge from shallow groundwater flowpaths can theoretically transfer lagged annual temperature signals from aquifer to stream water. Here we explore this concept using multi-year temperature records from 120 stream sites located across 18 mountain watersheds of Shenandoah National Park, VA, USA and a coastal watershed in Massachusetts, USA. Both areas constitute important cold-water habitat for native brook trout (Salvelinus fontinalis). Observed annual temperature signals indicate a dominance of shallow groundwater discharge to streams in the National Park, in contrast to the coastal watershed that has strong, apparently deeper, groundwater influence. The average phase lag from air to stream signals in Shenandoah National Park is 11 d; however, extended lags of approximately 1 month were observed in a subset of streams. In contrast, the coastal stream has pronounced attenuation of annual temperature signals without notable phase lag. To better understand these observed differences in signal characteristics, analytical and numerical models are used to quantify mixing of the annual temperature signals of surface and groundwater. Simulations using a total heat budget numerical model indicate groundwater-induced annual temperature signal phase lags are likely to show greater downstream propagation than the related signal amplitude attenuation. The measurement of multi-seasonal paired air and water temperatures offers great promise toward understanding catchment processes and informing current cold-water habitat management at ecologically-relevant scales." @default.
W2802602448 created "2018-05-17" @default.
W2802602448 creator A5025819622 @default.
W2802602448 creator A5032575734 @default.
W2802602448 creator A5035840338 @default.
W2802602448 creator A5038327316 @default.
W2802602448 creator A5047078302 @default.
W2802602448 creator A5058473235 @default.
W2802602448 creator A5058641029 @default.
W2802602448 creator A5058850755 @default.
W2802602448 creator A5078557395 @default.
W2802602448 date "2018-09-01" @default.
W2802602448 modified "2023-10-12" @default.
W2802602448 title "Inferring watershed hydraulics and cold-water habitat persistence using multi-year air and stream temperature signals" @default.
W2802602448 cites W1485087513 @default.
W2802602448 cites W1502443137 @default.
W2802602448 cites W1562364917 @default.
W2802602448 cites W1582811706 @default.
W2802602448 cites W1658927916 @default.
W2802602448 cites W1827187564 @default.
W2802602448 cites W1835460755 @default.
W2802602448 cites W1837835945 @default.
W2802602448 cites W1956419665 @default.
W2802602448 cites W1985981257 @default.
W2802602448 cites W1987288036 @default.
W2802602448 cites W1993170471 @default.
W2802602448 cites W1996985044 @default.
W2802602448 cites W1998426871 @default.
W2802602448 cites W2006207974 @default.
W2802602448 cites W2008874502 @default.
W2802602448 cites W2017748107 @default.
W2802602448 cites W2019266951 @default.
W2802602448 cites W2026301784 @default.
W2802602448 cites W2027388699 @default.
W2802602448 cites W2030992063 @default.
W2802602448 cites W2056035882 @default.
W2802602448 cites W2110649465 @default.
W2802602448 cites W2110945655 @default.
W2802602448 cites W2127226096 @default.
W2802602448 cites W2129976746 @default.
W2802602448 cites W2133862869 @default.
W2802602448 cites W2141019616 @default.
W2802602448 cites W2146044237 @default.
W2802602448 cites W2158627225 @default.
W2802602448 cites W2159247929 @default.
W2802602448 cites W2162377418 @default.
W2802602448 cites W2165220380 @default.
W2802602448 cites W2165673396 @default.
W2802602448 cites W2170156362 @default.
W2802602448 cites W2191021986 @default.
W2802602448 cites W2193240865 @default.
W2802602448 cites W2255050781 @default.
W2802602448 cites W2323936260 @default.
W2802602448 cites W2403553499 @default.
W2802602448 cites W2492686768 @default.
W2802602448 cites W2500703738 @default.
W2802602448 cites W2529405934 @default.
W2802602448 cites W2579573719 @default.
W2802602448 cites W2591742744 @default.
W2802602448 cites W2594350240 @default.
W2802602448 cites W2625574013 @default.
W2802602448 cites W2721615524 @default.
W2802602448 cites W2766082834 @default.
W2802602448 doi "https://doi.org/10.1016/j.scitotenv.2018.04.344" @default.
W2802602448 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29913574" @default.
W2802602448 hasPublicationYear "2018" @default.
W2802602448 type Work @default.
W2802602448 sameAs 2802602448 @default.
W2802602448 citedByCount "44" @default.
W2802602448 countsByYear W28026024482018 @default.
W2802602448 countsByYear W28026024482019 @default.
W2802602448 countsByYear W28026024482020 @default.
W2802602448 countsByYear W28026024482021 @default.
W2802602448 countsByYear W28026024482022 @default.
W2802602448 countsByYear W28026024482023 @default.
W2802602448 crossrefType "journal-article" @default.
W2802602448 hasAuthorship W2802602448A5025819622 @default.
W2802602448 hasAuthorship W2802602448A5032575734 @default.
W2802602448 hasAuthorship W2802602448A5035840338 @default.
W2802602448 hasAuthorship W2802602448A5038327316 @default.
W2802602448 hasAuthorship W2802602448A5047078302 @default.
W2802602448 hasAuthorship W2802602448A5058473235 @default.
W2802602448 hasAuthorship W2802602448A5058641029 @default.
W2802602448 hasAuthorship W2802602448A5058850755 @default.
W2802602448 hasAuthorship W2802602448A5078557395 @default.
W2802602448 hasBestOaLocation W28026024481 @default.
W2802602448 hasConcept C119857082 @default.
W2802602448 hasConcept C127313418 @default.
W2802602448 hasConcept C150547873 @default.
W2802602448 hasConcept C187320778 @default.
W2802602448 hasConcept C2777887337 @default.
W2802602448 hasConcept C2778626654 @default.
W2802602448 hasConcept C2779363728 @default.
W2802602448 hasConcept C2909208804 @default.
W2802602448 hasConcept C31258907 @default.
W2802602448 hasConcept C39432304 @default.
W2802602448 hasConcept C41008148 @default.
W2802602448 hasConcept C42090638 @default.