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dc.contributor.authorAuthorFaúndez Urbina, Carlos A.
dc.contributor.authorAuthorCabrera Alanís, Daniel.
dc.contributor.authorAuthorRamírez, Elizabeth
dc.contributor.authorAuthorSeguel, Oscar
dc.contributor.authorAuthorFustos, Ivo J.
dc.contributor.authorAuthorDíaz Donoso, Pablo.
dc.contributor.authorAuthorHonorio de Miranda, Jarbas.
dc.contributor.authorAuthorRakonjac, Nikola
dc.contributor.authorAuthorElgueta Palma, Sebastián.
dc.contributor.authorAuthorGalleguillos, Mauricio
dc.date.accessionedDate Accessioned2024-09-03T19:18:58Z
dc.date.availableDate Available2024-09-03T19:18:58Z
dc.date.issuedDate Issued2023
dc.identifier.citationReferencia BibliográficaHydrological Processes, 37(10), 18 p.
dc.identifier.issnISSN0885-6087
dc.identifier.uriURIhttp://repositorio.udla.cl/xmlui/handle/udla/1381
dc.identifier.uriURIhttps://onlinelibrary.wiley.com/journal/10991085
dc.description.abstractAbstractDetermination of soil volumetric water content (Figure presented.) in forest ecosystems is particularly challenging due to deep rooting systems and unknown soil vertical and spatial heterogeneity. This research aims to test two undisturbed methods, electrical resistivity tomography (ERT) and HYDRUS 2D/3D, for 2D (Figure presented.) determination in a thorny forest ecosystem. The experiment consisted of infiltrating 10 L of water lasting 60 min. During infiltration, ERT measured apparent resistivity by time-lapse measurements, and (Figure presented.) was measured with an FDR probe (EnviroSCAN) at 33, 63, 83, 97, and 163 cm depth close to the infiltration site. At the end of infiltration, a soil pit was dug, and 100 measurements of (Figure presented.) were performed with a TDR in a 10 × 10 cm regular grid. Archie law transformed soil resistivity (ERT) into (Figure presented.) using manual calibration, verified by an independent dataset. The 2D (Figure presented.) profile obtained by ERT was qualitatively compared with the HYDRUS 2D/3D one. HYDRUS 2D/3D was parametrized with calibrated parameters obtained with HYDRUS 1D using 106 days of (Figure presented.) obtained with EnviroSCAN. The results of HYDRUS 1D calibration and verification were satisfactory, with RMSE and Nash-Sutcliffe coefficients ranging from 0.021 to 0.034 cm3 cm−3 and 0.11 to 0.77, respectively. The forward HYDRUS 2D/3D (Figure presented.) simulation disagrees with EnviroSCAN data for 33 cm depth. However, it follows the trend with near to zero variation of water content at 63 cm depth. Water content determination by ERT was satisfactory with RMSE for calibration and verification of 0.017 and 0.021 cm3 cm−3. HYDRUS 2D/3D and ERT comparisons were not equal, with a shallower wetting front by ERT and a deeper one for HYDRUS. Still, both wetting fronts agree with the wetting depth estimated by EnviroSCAN. We conclude that both methods are an alternative for (Figure presented.) determination in heterogeneous and deep soils of forest ecosystems.
dc.format.extentdc.format.extent18 páginas
dc.format.extentdc.format.extent2.443Mb
dc.format.mimetypedc.format.mimetypePDF
dc.language.isoLanguage ISOeng
dc.publisherPublisherJohn Wiley and Sons
dc.sourceSourcesHydrological Processes
dc.subjectSubjectApplied geophysics
dc.subjectSubjectHYDRUS 1D
dc.subjectSubjectVachellia caven
dc.subjectSubjectWater balance
dc.subjectSubjectWater transfer models
dc.titleTitleEstimating soil water content in a thorny forest ecosystem by time-lapse electrical resistivity tomography (ERT) and HYDRUS 2D/3D simulations
dc.typeDocument TypeArtículo
dc.udla.catalogadordc.udla.catalogadorCBM
dc.udla.indexdc.udla.indexScience Citation Index Expanded
dc.udla.indexdc.udla.indexScopus
dc.udla.indexdc.udla.indexNatural Science Collection
dc.udla.indexdc.udla.indexArtic & Antarctic Regions
dc.udla.indexdc.udla.indexCAB Abstracts
dc.udla.indexdc.udla.indexCompendex
dc.udla.indexdc.udla.indexEarth, Atmospheric, & Aquatic Science Collection
dc.udla.indexdc.udla.indexEnvironment Index
dc.udla.indexdc.udla.indexINSPEC
dc.udla.indexdc.udla.indexGeobase
dc.identifier.doidc.identifier.doi10.1002/hyp.15002
dc.facultaddc.facultadFacultad de Medicina Veterinaria y Agronomía


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