SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1996608560> ?p ?o ?g. }

Showing items 1 to 100 of ±120 with 100 items per page.

W1996608560 abstract "In order to protect drinking water systems and aquatic ecosystems, all critical nutrient source areas and transport mechanisms need to be characterized. It is hypothesized that hydrologic heterogeneities (e.g., macropores and gravel outcrops) in the subsurface of floodplains play an integral role in impacting flow and contaminant transport between the soil surface and shallow alluvial aquifers which are intricately connected to streams. Infiltration is often assumed to be uniform at the field scale, but this neglects the high spatial variability common in anisotropic, heterogeneous alluvial floodplain soils. In the Ozark ecoregion, for example, the erosion of carbonate bedrock (primarily limestone) by slightly acidic water has left a large residuum of chert gravel in Ozark soils, with floodplains generally consisting of coarse chert gravel overlain by a mantle (1 to 300 cm) of gravelly loam or silt loam. The process of alluvial sediment deposition is highly variable, and can cause gravel layers to outcrop on the soil surface at various locations within a floodplain. The objective of this research was to quantify heterogeneity in infiltration rates at three floodplain sites in the Ozark ecoregion of Oklahoma and Arkansas. Innovative field studies, including plot scale (1 by 1 m and 3 by 3 m) solute injection experiments along with geophysical imaging, were performed on both gravel outcrops and non-gravel outcrops. Plots maintained a constant head of 3 to 10 cm for up to 48 hours. Infiltration rates varied from 0.8 to 70 cm/h, and varied considerably even within a single floodplain. Electrical resistivity imaging was used to identify zones of preferential flow as well as characterize subsurface soil layering. Fluid samples from observation wells outside the plot (0.5 m from the boundary) indicated nonuniform subsurface flow and transport. Phosphorus was detected in the groundwater for 6 of the 12 plots and was positively correlated to the presence of gravel outcrops. Results indicated that flow paths are sub-meter scale for detecting infiltrating solutions. Tension infiltrometers showed that macropore flow accounted for approximately 85% to 99% of the total infiltration." @default.
W1996608560 created "2016-06-24" @default.
W1996608560 creator A5006809840 @default.
W1996608560 creator A5030974898 @default.
W1996608560 creator A5031761300 @default.
W1996608560 creator A5052251787 @default.
W1996608560 creator A5055559838 @default.
W1996608560 creator A5079178653 @default.
W1996608560 creator A5088044201 @default.
W1996608560 date "2012-01-01" @default.
W1996608560 modified "2023-09-23" @default.
W1996608560 title "Quantification and Heterogeneity of Infiltration and Transport in Alluvial Floodplains" @default.
W1996608560 cites W119410809 @default.
W1996608560 cites W144180923 @default.
W1996608560 cites W1963590052 @default.
W1996608560 cites W1965713973 @default.
W1996608560 cites W1968182706 @default.
W1996608560 cites W1991286267 @default.
W1996608560 cites W1993601481 @default.
W1996608560 cites W1997072903 @default.
W1996608560 cites W1999884999 @default.
W1996608560 cites W2000250974 @default.
W1996608560 cites W2002194785 @default.
W1996608560 cites W2006699820 @default.
W1996608560 cites W2015305484 @default.
W1996608560 cites W2019868113 @default.
W1996608560 cites W2036666884 @default.
W1996608560 cites W2043953095 @default.
W1996608560 cites W2056132261 @default.
W1996608560 cites W2067726435 @default.
W1996608560 cites W2070213984 @default.
W1996608560 cites W2070432654 @default.
W1996608560 cites W2071727225 @default.
W1996608560 cites W2075435443 @default.
W1996608560 cites W2079941584 @default.
W1996608560 cites W2082091366 @default.
W1996608560 cites W2093999397 @default.
W1996608560 cites W2099608925 @default.
W1996608560 cites W2103037333 @default.
W1996608560 cites W2136642262 @default.
W1996608560 cites W2166796298 @default.
W1996608560 cites W2778929046 @default.
W1996608560 cites W2179432330 @default.
W1996608560 doi "https://doi.org/10.13031/2013.41740" @default.
W1996608560 hasPublicationYear "2012" @default.
W1996608560 type Work @default.
W1996608560 sameAs 1996608560 @default.
W1996608560 citedByCount "1" @default.
W1996608560 countsByYear W19966085602013 @default.
W1996608560 crossrefType "proceedings-article" @default.
W1996608560 hasAuthorship W1996608560A5006809840 @default.
W1996608560 hasAuthorship W1996608560A5030974898 @default.
W1996608560 hasAuthorship W1996608560A5031761300 @default.
W1996608560 hasAuthorship W1996608560A5052251787 @default.
W1996608560 hasAuthorship W1996608560A5055559838 @default.
W1996608560 hasAuthorship W1996608560A5079178653 @default.
W1996608560 hasAuthorship W1996608560A5088044201 @default.
W1996608560 hasConcept C109007969 @default.
W1996608560 hasConcept C112959462 @default.
W1996608560 hasConcept C113578266 @default.
W1996608560 hasConcept C114793014 @default.
W1996608560 hasConcept C121332964 @default.
W1996608560 hasConcept C127313418 @default.
W1996608560 hasConcept C137527640 @default.
W1996608560 hasConcept C153400128 @default.
W1996608560 hasConcept C155681218 @default.
W1996608560 hasConcept C159390177 @default.
W1996608560 hasConcept C159750122 @default.
W1996608560 hasConcept C169212394 @default.
W1996608560 hasConcept C187320778 @default.
W1996608560 hasConcept C18903297 @default.
W1996608560 hasConcept C69823785 @default.
W1996608560 hasConcept C76886044 @default.
W1996608560 hasConcept C86803240 @default.
W1996608560 hasConcept C97355855 @default.
W1996608560 hasConceptScore W1996608560C109007969 @default.
W1996608560 hasConceptScore W1996608560C112959462 @default.
W1996608560 hasConceptScore W1996608560C113578266 @default.
W1996608560 hasConceptScore W1996608560C114793014 @default.
W1996608560 hasConceptScore W1996608560C121332964 @default.
W1996608560 hasConceptScore W1996608560C127313418 @default.
W1996608560 hasConceptScore W1996608560C137527640 @default.
W1996608560 hasConceptScore W1996608560C153400128 @default.
W1996608560 hasConceptScore W1996608560C155681218 @default.
W1996608560 hasConceptScore W1996608560C159390177 @default.
W1996608560 hasConceptScore W1996608560C159750122 @default.
W1996608560 hasConceptScore W1996608560C169212394 @default.
W1996608560 hasConceptScore W1996608560C187320778 @default.
W1996608560 hasConceptScore W1996608560C18903297 @default.
W1996608560 hasConceptScore W1996608560C69823785 @default.
W1996608560 hasConceptScore W1996608560C76886044 @default.
W1996608560 hasConceptScore W1996608560C86803240 @default.
W1996608560 hasConceptScore W1996608560C97355855 @default.
W1996608560 hasLocation W19966085601 @default.
W1996608560 hasOpenAccess W1996608560 @default.
W1996608560 hasPrimaryLocation W19966085601 @default.
W1996608560 hasRelatedWork W1187634171 @default.
W1996608560 hasRelatedWork W2000166431 @default.
W1996608560 hasRelatedWork W2034556314 @default.
W1996608560 hasRelatedWork W2137799119 @default.