SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2084059504> ?p ?o ?g. }

Showing items 1 to 100 of ±116 with 100 items per page.

W2084059504 endingPage "1106" @default.
W2084059504 startingPage "1089" @default.
W2084059504 abstract "Summary Hydrological models for headwater catchments have typically excluded deep groundwater flow based on the assumption that it is a negligible component of the water budget. This study tests this assumption using a coupled surface water–groundwater model to explore the potential contribution of deep groundwater recharge to the bedrock in a snowmelt-dominated headwater catchment (Upper Penticton Creek 241) in the Okanagan Basin, British Columbia. Recharge to the bedrock is estimated at ∼27% of the annual precipitation over the period 2005–2010, recognizing the uncertainty in this estimate due to data limitations, parameter uncertainty and calibration errors. A specified outward flux from the catchment boundary within the saturated zone, representing ∼2% of the annual water budget, was also included in the model. This outward flux contributes to cross-catchment flow and, ultimately, to groundwater inflow to lower elevation catchments in the mountain block. This modeling exercise is one of the first in catchment hydrologic modeling within steep mountainous terrain in which the bedrock is not treated as impermeable, and in which recharge to the bedrock and discharge to the surrounding mountain block were estimated." @default.
W2084059504 created "2016-06-24" @default.
W2084059504 creator A5025787456 @default.
W2084059504 creator A5030246971 @default.
W2084059504 creator A5077704822 @default.
W2084059504 date "2014-09-01" @default.
W2084059504 modified "2023-10-01" @default.
W2084059504 title "Modeling coupled surface water – Groundwater processes in a small mountainous headwater catchment" @default.
W2084059504 cites W1509397625 @default.
W2084059504 cites W1517281044 @default.
W2084059504 cites W1527293499 @default.
W2084059504 cites W1550856971 @default.
W2084059504 cites W1591289697 @default.
W2084059504 cites W1593247956 @default.
W2084059504 cites W1610557344 @default.
W2084059504 cites W1625781166 @default.
W2084059504 cites W1980658138 @default.
W2084059504 cites W1982011094 @default.
W2084059504 cites W1993694479 @default.
W2084059504 cites W1996416330 @default.
W2084059504 cites W2000599543 @default.
W2084059504 cites W2003617180 @default.
W2084059504 cites W2007409849 @default.
W2084059504 cites W2019476234 @default.
W2084059504 cites W2021896008 @default.
W2084059504 cites W2024621358 @default.
W2084059504 cites W2032970891 @default.
W2084059504 cites W2035710467 @default.
W2084059504 cites W2039507572 @default.
W2084059504 cites W2046550969 @default.
W2084059504 cites W2046654411 @default.
W2084059504 cites W2048650117 @default.
W2084059504 cites W2050727042 @default.
W2084059504 cites W2052367327 @default.
W2084059504 cites W2054418562 @default.
W2084059504 cites W2054961538 @default.
W2084059504 cites W2059492535 @default.
W2084059504 cites W2064423049 @default.
W2084059504 cites W2087493977 @default.
W2084059504 cites W2099095111 @default.
W2084059504 cites W2102884329 @default.
W2084059504 cites W2115838363 @default.
W2084059504 cites W2134880921 @default.
W2084059504 cites W2136319427 @default.
W2084059504 cites W2136690550 @default.
W2084059504 cites W2146184050 @default.
W2084059504 cites W2156630620 @default.
W2084059504 cites W2164801756 @default.
W2084059504 cites W2165833683 @default.
W2084059504 cites W2171292418 @default.
W2084059504 cites W2184196447 @default.
W2084059504 cites W29026654 @default.
W2084059504 doi "https://doi.org/10.1016/j.jhydrol.2014.06.015" @default.
W2084059504 hasPublicationYear "2014" @default.
W2084059504 type Work @default.
W2084059504 sameAs 2084059504 @default.
W2084059504 citedByCount "32" @default.
W2084059504 countsByYear W20840595042015 @default.
W2084059504 countsByYear W20840595042016 @default.
W2084059504 countsByYear W20840595042017 @default.
W2084059504 countsByYear W20840595042018 @default.
W2084059504 countsByYear W20840595042019 @default.
W2084059504 countsByYear W20840595042020 @default.
W2084059504 countsByYear W20840595042021 @default.
W2084059504 countsByYear W20840595042022 @default.
W2084059504 countsByYear W20840595042023 @default.
W2084059504 crossrefType "journal-article" @default.
W2084059504 hasAuthorship W2084059504A5025787456 @default.
W2084059504 hasAuthorship W2084059504A5030246971 @default.
W2084059504 hasAuthorship W2084059504A5077704822 @default.
W2084059504 hasConcept C126645576 @default.
W2084059504 hasConcept C127313418 @default.
W2084059504 hasConcept C174091901 @default.
W2084059504 hasConcept C176650113 @default.
W2084059504 hasConcept C187320778 @default.
W2084059504 hasConcept C205649164 @default.
W2084059504 hasConcept C39432304 @default.
W2084059504 hasConcept C58640448 @default.
W2084059504 hasConcept C75622301 @default.
W2084059504 hasConcept C76177295 @default.
W2084059504 hasConcept C76886044 @default.
W2084059504 hasConcept C8625798 @default.
W2084059504 hasConcept C87717796 @default.
W2084059504 hasConceptScore W2084059504C126645576 @default.
W2084059504 hasConceptScore W2084059504C127313418 @default.
W2084059504 hasConceptScore W2084059504C174091901 @default.
W2084059504 hasConceptScore W2084059504C176650113 @default.
W2084059504 hasConceptScore W2084059504C187320778 @default.
W2084059504 hasConceptScore W2084059504C205649164 @default.
W2084059504 hasConceptScore W2084059504C39432304 @default.
W2084059504 hasConceptScore W2084059504C58640448 @default.
W2084059504 hasConceptScore W2084059504C75622301 @default.
W2084059504 hasConceptScore W2084059504C76177295 @default.
W2084059504 hasConceptScore W2084059504C76886044 @default.
W2084059504 hasConceptScore W2084059504C8625798 @default.
W2084059504 hasConceptScore W2084059504C87717796 @default.
W2084059504 hasLocation W20840595041 @default.
W2084059504 hasOpenAccess W2084059504 @default.