SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2947557992> ?p ?o ?g. }

Showing items 1 to 100 of ±134 with 100 items per page.

W2947557992 endingPage "944" @default.
W2947557992 startingPage "933" @default.
W2947557992 abstract "Soil hydraulic properties are frequently obtained from evaporation experiments. Different methods exist to infer soil hydraulic properties from these experiments. Commonly proposed is the ‘direct method’ (or ‘Simplified Evaporation Method’) by which soil hydraulic properties are calculated analytically. An alternative is given by inverse parameter optimization (‘inverse method’). Although soil hydraulic properties are frequently estimated by the ‘direct method’, only very few studies have focused on the question how accurate derived parameters can reproduce laboratory measurements. This can be achieved by modeling the water flow with a processed based numerical forward model, e.g. with HYDRUS-1D. Here, we applied the ‘direct method’ and ‘inverse method’ to a large dataset of evaporation experiments on 431 organic soil samples. The derived soil hydraulic parameters were used in HYDRUS-1D simulations and their performance in reproducing measured states and fluxes was compared. As an additional analysis, we tested how water contents at the permanent wilting point can aid stabilizing parameter estimation by adding information on water retention in the dry range. For all methods, soil hydraulic properties were determined with the soil hydraulic functions of van Genuchten-Mualem and Peters-Durner-Iden. The results show that parameters derived with the ‘direct method’ do often not well reproduce measured pressure heads over the complete pressure head range of the evaporation experiments when they were used for HYDRUS-1D simulations (mean objective function value 0.05831). Parameters derived by the ‘inverse method’ provided a better performance in the HYDRUS-1D simulations if the full pressure head range of the evaporation experiments was considered (mean objective function value 0.00099), but a weaker performance when focusing on wet conditions (pressure heads >−100 cm). Constraining the ‘inverse method’ by additional soil moisture measurements at permanent wilting point improved the prediction of the soil moisture at dry conditions. For the full pressure head range, the hydraulic functions of Peters-Durner-Iden performed better than the ones of van Genuchten-Mualem." @default.
W2947557992 created "2019-06-07" @default.
W2947557992 creator A5006405306 @default.
W2947557992 creator A5010862305 @default.
W2947557992 creator A5027987145 @default.
W2947557992 creator A5056640477 @default.
W2947557992 creator A5061967708 @default.
W2947557992 creator A5089472391 @default.
W2947557992 date "2019-08-01" @default.
W2947557992 modified "2023-09-27" @default.
W2947557992 title "Evaporation experiments for the determination of hydraulic properties of peat and other organic soils: An evaluation of methods based on a large dataset" @default.
W2947557992 cites W1607434452 @default.
W2947557992 cites W1616827911 @default.
W2947557992 cites W1776295720 @default.
W2947557992 cites W189095408 @default.
W2947557992 cites W1941729845 @default.
W2947557992 cites W1955556093 @default.
W2947557992 cites W1982187421 @default.
W2947557992 cites W1992908444 @default.
W2947557992 cites W1995864810 @default.
W2947557992 cites W1998417982 @default.
W2947557992 cites W1999082367 @default.
W2947557992 cites W2004651735 @default.
W2947557992 cites W2008945493 @default.
W2947557992 cites W2016295784 @default.
W2947557992 cites W2020108320 @default.
W2947557992 cites W2032600630 @default.
W2947557992 cites W2048568378 @default.
W2947557992 cites W2052200699 @default.
W2947557992 cites W2057833774 @default.
W2947557992 cites W2065164515 @default.
W2947557992 cites W2086810019 @default.
W2947557992 cites W2090454531 @default.
W2947557992 cites W2107429351 @default.
W2947557992 cites W2107452485 @default.
W2947557992 cites W2109908158 @default.
W2947557992 cites W2112118923 @default.
W2947557992 cites W2112342534 @default.
W2947557992 cites W2115479944 @default.
W2947557992 cites W2118494453 @default.
W2947557992 cites W2133837084 @default.
W2947557992 cites W2147481268 @default.
W2947557992 cites W2153988951 @default.
W2947557992 cites W2162604832 @default.
W2947557992 cites W2215274794 @default.
W2947557992 cites W2283951878 @default.
W2947557992 cites W2335372511 @default.
W2947557992 cites W2461475292 @default.
W2947557992 cites W2505041825 @default.
W2947557992 cites W2523073417 @default.
W2947557992 cites W2530133317 @default.
W2947557992 cites W2563686402 @default.
W2947557992 cites W2747600979 @default.
W2947557992 cites W2790611336 @default.
W2947557992 cites W2791781577 @default.
W2947557992 cites W2794268875 @default.
W2947557992 cites W2802702270 @default.
W2947557992 cites W2807675850 @default.
W2947557992 cites W2899100647 @default.
W2947557992 cites W4230732587 @default.
W2947557992 doi "https://doi.org/10.1016/j.jhydrol.2019.05.088" @default.
W2947557992 hasPublicationYear "2019" @default.
W2947557992 type Work @default.
W2947557992 sameAs 2947557992 @default.
W2947557992 citedByCount "12" @default.
W2947557992 countsByYear W29475579922019 @default.
W2947557992 countsByYear W29475579922020 @default.
W2947557992 countsByYear W29475579922021 @default.
W2947557992 countsByYear W29475579922023 @default.
W2947557992 crossrefType "journal-article" @default.
W2947557992 hasAuthorship W2947557992A5006405306 @default.
W2947557992 hasAuthorship W2947557992A5010862305 @default.
W2947557992 hasAuthorship W2947557992A5027987145 @default.
W2947557992 hasAuthorship W2947557992A5056640477 @default.
W2947557992 hasAuthorship W2947557992A5061967708 @default.
W2947557992 hasAuthorship W2947557992A5089472391 @default.
W2947557992 hasBestOaLocation W29475579922 @default.
W2947557992 hasConcept C121332964 @default.
W2947557992 hasConcept C127313418 @default.
W2947557992 hasConcept C128871136 @default.
W2947557992 hasConcept C144144481 @default.
W2947557992 hasConcept C159390177 @default.
W2947557992 hasConcept C159750122 @default.
W2947557992 hasConcept C159851900 @default.
W2947557992 hasConcept C164285268 @default.
W2947557992 hasConcept C187320778 @default.
W2947557992 hasConcept C207467116 @default.
W2947557992 hasConcept C2524010 @default.
W2947557992 hasConcept C27934549 @default.
W2947557992 hasConcept C33923547 @default.
W2947557992 hasConcept C39432304 @default.
W2947557992 hasConcept C61441594 @default.
W2947557992 hasConcept C63184880 @default.
W2947557992 hasConcept C97355855 @default.
W2947557992 hasConceptScore W2947557992C121332964 @default.
W2947557992 hasConceptScore W2947557992C127313418 @default.
W2947557992 hasConceptScore W2947557992C128871136 @default.
W2947557992 hasConceptScore W2947557992C144144481 @default.