SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2731037697> ?p ?o ?g. }

Showing items 1 to 100 of ±167 with 100 items per page.

W2731037697 endingPage "3532" @default.
W2731037697 startingPage "3520" @default.
W2731037697 abstract "Abstract Saturated soil hydraulic conductivity, K s , data collected by ponding infiltrometer methods and usual experimental procedures could be unusable for interpreting field hydrological processes and particularly rainfall infiltration. The K s values determined by an infiltrometer experiment carried out by applying water at a relatively large distance from the soil surface could however be more appropriate to explain surface runoff generation phenomena during intense rainfall events. In this study, a link between rainfall simulation and ponding infiltrometer experiments was established for a sandy‐loam soil. The height of water pouring for the infiltrometer run was chosen, establishing a similarity between the gravitational potential energy of the applied water, E p , and the rainfall kinetic energy, E k . To test the soundness of this procedure, the soil was sampled with the Beerkan estimation of soil transfer parameters procedure of soil hydraulic characterization and two heights of water pouring (0.03 m, i.e., usual procedure, and 0.34 m, yielding E p = E k ). Then, a comparison between experimental steady‐state infiltration rates, i sR , measured with rainfall simulation experiments determining runoff production and K s values for the two water pouring heights was carried out in order to discriminate between theoretically possible ( i sR ≥ K s ) and impossible ( i sR < K s ) situations. Physically possible K s values were only obtained by applying water at a relatively large distance from the soil surface, because i sR was equal to 20.0 mm h −1 and K s values were 146.2–163.9 and 15.2–18.7 mm h −1 for a height of water pouring of 0.03 and 0.34 m, respectively. This result suggested the consistency between Beerkan runs with a high height of water pouring and rainfall simulator experiments. Soil compaction and mechanical aggregate breakdown were the most plausible physical mechanisms determining reduction of K s with height. This study demonstrated that the height from which water is poured onto the soil surface is a key parameter in infiltrometer experiments and can be adapted to mimic the effect of high intensity rain on soil hydraulic properties." @default.
W2731037697 created "2017-07-14" @default.
W2731037697 creator A5001135451 @default.
W2731037697 creator A5004932812 @default.
W2731037697 creator A5016250404 @default.
W2731037697 creator A5021188670 @default.
W2731037697 creator A5031983581 @default.
W2731037697 creator A5047664571 @default.
W2731037697 creator A5062912835 @default.
W2731037697 creator A5078326149 @default.
W2731037697 creator A5090671205 @default.
W2731037697 date "2017-08-17" @default.
W2731037697 modified "2023-10-18" @default.
W2731037697 title "Comparing Beerkan infiltration tests with rainfall simulation experiments for hydraulic characterization of a sandy-loam soil" @default.
W2731037697 cites W1135312261 @default.
W2731037697 cites W1487059617 @default.
W2731037697 cites W1543175220 @default.
W2731037697 cites W1601413598 @default.
W2731037697 cites W1601951779 @default.
W2731037697 cites W1858364104 @default.
W2731037697 cites W1961297686 @default.
W2731037697 cites W1963900566 @default.
W2731037697 cites W1965895914 @default.
W2731037697 cites W1966793835 @default.
W2731037697 cites W1968609875 @default.
W2731037697 cites W1969222815 @default.
W2731037697 cites W1972636183 @default.
W2731037697 cites W1974118949 @default.
W2731037697 cites W1985471250 @default.
W2731037697 cites W1986284134 @default.
W2731037697 cites W1990236303 @default.
W2731037697 cites W1990501658 @default.
W2731037697 cites W1994133994 @default.
W2731037697 cites W2001641947 @default.
W2731037697 cites W2001670383 @default.
W2731037697 cites W2009487669 @default.
W2731037697 cites W2014742140 @default.
W2731037697 cites W2016237380 @default.
W2731037697 cites W2019163615 @default.
W2731037697 cites W2031166880 @default.
W2731037697 cites W2033342441 @default.
W2731037697 cites W2036605240 @default.
W2731037697 cites W2037112050 @default.
W2731037697 cites W2039106232 @default.
W2731037697 cites W2046335792 @default.
W2731037697 cites W2047943772 @default.
W2731037697 cites W2051374987 @default.
W2731037697 cites W2053050401 @default.
W2731037697 cites W2053429157 @default.
W2731037697 cites W2053996832 @default.
W2731037697 cites W2056026581 @default.
W2731037697 cites W2058880031 @default.
W2731037697 cites W2062739035 @default.
W2731037697 cites W2068047449 @default.
W2731037697 cites W2072276781 @default.
W2731037697 cites W2074100351 @default.
W2731037697 cites W2076948957 @default.
W2731037697 cites W2078333943 @default.
W2731037697 cites W2080915786 @default.
W2731037697 cites W2099484006 @default.
W2731037697 cites W2103809536 @default.
W2731037697 cites W2111076415 @default.
W2731037697 cites W2119008480 @default.
W2731037697 cites W2140507334 @default.
W2731037697 cites W2144249151 @default.
W2731037697 cites W2144494474 @default.
W2731037697 cites W2148956054 @default.
W2731037697 cites W2159881595 @default.
W2731037697 cites W2160656217 @default.
W2731037697 cites W2168166455 @default.
W2731037697 cites W2170653360 @default.
W2731037697 cites W2177615012 @default.
W2731037697 cites W2222861308 @default.
W2731037697 cites W2233740707 @default.
W2731037697 cites W2260208891 @default.
W2731037697 cites W2317004661 @default.
W2731037697 cites W2502566148 @default.
W2731037697 cites W4239953570 @default.
W2731037697 cites W4256146494 @default.
W2731037697 doi "https://doi.org/10.1002/hyp.11273" @default.
W2731037697 hasPublicationYear "2017" @default.
W2731037697 type Work @default.
W2731037697 sameAs 2731037697 @default.
W2731037697 citedByCount "24" @default.
W2731037697 countsByYear W27310376972018 @default.
W2731037697 countsByYear W27310376972019 @default.
W2731037697 countsByYear W27310376972020 @default.
W2731037697 countsByYear W27310376972021 @default.
W2731037697 countsByYear W27310376972022 @default.
W2731037697 countsByYear W27310376972023 @default.
W2731037697 crossrefType "journal-article" @default.
W2731037697 hasAuthorship W2731037697A5001135451 @default.
W2731037697 hasAuthorship W2731037697A5004932812 @default.
W2731037697 hasAuthorship W2731037697A5016250404 @default.
W2731037697 hasAuthorship W2731037697A5021188670 @default.
W2731037697 hasAuthorship W2731037697A5031983581 @default.
W2731037697 hasAuthorship W2731037697A5047664571 @default.
W2731037697 hasAuthorship W2731037697A5062912835 @default.