Alagna, V., V. Bagarello, S. Di Prima, G. Giordano, and M. Iovino. 2013. A simple field method to measure the hydrodynamic properties of soil surface crust. Journal of Agricultural Engineering. 44:74–79. doi.
Alagna, V., V. Bagarello, S. Di Prima, G. Giordano, and M. Iovino. 2016a. Testing infiltration run effects on the estimated water transmission properties of a sandy-loam soil. Geoderma. 267:24–33. doi.
Alagna, V., V. Bagarello, S. Di Prima, F. Guaitoli, M. Iovino, S. Keesstra, and A. Cerdà. 2019. Using Beerkan experiments to estimate hydraulic conductivity of a crusted loamy soil in a Mediterranean vineyard. Journal of Hydrology and Hydromechanics. 67:191–200. doi.
Alagna, V., V. Bagarello, S. Di Prima, and M. Iovino. 2016b. Determining hydraulic properties of a loam soil by alternative infiltrometer techniques. Hydrological Processes. 30:263–275. doi.
Angulo-Jaramillo, R., V. Bagarello, S. Di Prima, A. Gosset, M. Iovino, and L. Lassabatere. 2019. Beerkan Estimation of Soil Transfer parameters (BEST) across soils and scales. Journal of Hydrology. 576:239–261. doi.
Bagarello, V., G. Baiamonte, and C. Caia. 2019. Variability of near-surface saturated hydraulic conductivity for the clay soils of a small Sicilian basin. Geoderma. 340:133–145. doi.
Bagarello, V., M. Castellini, S. Di Prima, and M. Iovino. 2014a. Soil hydraulic properties determined by infiltration experiments and different heights of water pouring. Geoderma. 213:492–501. doi.
Bagarello, V., S. Di Prima, G. Giordano, and M. Iovino. 2014b. A test of the Beerkan Estimation of Soil Transfer parameters (BEST) procedure. Geoderma. 221–222:20–27. doi.
Bagarello, V., S. Di Prima, and M. Iovino. 2014c. Comparing Alternative Algorithms to Analyze the Beerkan Infiltration Experiment. Soil Science Society of America Journal. 78:724. doi.
Bagarello, V., S. Di Prima, M. Iovino, G. Provenzano, and A. Sgroi. 2011. Testing different approaches to characterize Burundian soils by the BEST procedure. Geoderma. 162:141–150. doi.
Bagarello, V., and M. Iovino. 2012. Testing the BEST procedure to estimate the soil water retention curve. Geoderma. 187–188:67–76. doi.
Bagarello, V., G. Provenzano, and A. Sgroi. 2009. Fitting particle size distribution models to data from Burundian soils for the BEST procedure and other purposes. Biosystems Engineering. 104:435–441. doi.
Bayat, H., M. Rastgo, M. Mansouri Zadeh, and H. Vereecken. 2015. Particle size distribution models, their characteristics and fitting capability. Journal of Hydrology. 529:872–889. doi.
Bien, L. B., D. Predelus, L. Lassabatere, T. Winiarski, and R. Angulo-Jaramillo. 2013. Combined Effect of Infiltration, Capillary Barrier and Sloping Layered Soil on Flow and Solute Transfer in a Heterogeneous Lysimeter. Open Journal of Modern Hydrology. 03:138–153. doi.
Bièvre, G., D. Jongmans, D. Goutaland, E. Pathier, and V. Zumbo. 2016. Geophysical characterization of the lithological control on the kinematic pattern in a large clayey landslide (Avignonet, French Alps). Landslides. 13:423–436. doi.
Braud, I., D. De Condappa, J. M. Soria, R. Haverkamp, R. Angulo-Jaramillo, S. Galle, and M. Vauclin. 2005. Use of scaled forms of the infiltration equation for the estimation of unsaturated soil hydraulic properties (the Beerkan method). European Journal of Soil Science. 56:361–374. doi.
Braud, I., J.-F. Desprats, P.-A. Ayral, C. Bouvier, and J.-P. Vandervaere. 2017. Mapping topsoil field-saturated hydraulic conductivity from point measurements using different methods. Journal of Hydrology and Hydromechanics. 65 doi.
Cannavo, P., L. Vidal-Beaudet, B. Béchet, L. Lassabatère, and S. Charpentier. 2010. Spatial distribution of sediments and transfer properties in soils in a stormwater infiltration basin. Journal of Soils and Sediments. 10:1499–1509. doi.
Castellini, M., S. Di Prima, and M. Iovino. 2018. An assessment of the BEST procedure to estimate the soil water retention curve: A comparison with the evaporation method. Geoderma. 320:82–94. doi.
Castellini, M., M. Iovino, M. Pirastru, M. Niedda, and V. Bagarello. 2016. Use of BEST Procedure to Assess Soil Physical Quality in the Baratz Lake Catchment (Sardinia, Italy). Soil Science Society of America Journal. 0:0. doi.
Castellini, M., A. M. Stellacci, M. Tomaiuolo, and E. Barca. 2019. Spatial Variability of Soil Physical and Hydraulic Properties in a Durum Wheat Field: An Assessment by the BEST-Procedure. Water. 11:1434. doi.
Concialdi, P., S. Di Prima, H. M. Bhanderi, R. D. Stewart, M. R. Abou Najm, M. Lal Gaur, R. Angulo-Jaramillo, and L. Lassabatere. 2019. An open-source instrumentation package for intensive soil hydraulic characterization. Journal of Hydrology. doi.
Coutinho, A. P., L. Lassabatere, S. Montenegro, A. C. D. Antonino, R. Angulo-Jaramillo, and J. J. S. P. Cabral. 2016. Hydraulic characterization and hydrological behaviour of a pilot permeable pavement in an urban centre, Brazil. Hydrol. Process. 30:4242–4254. doi.
Cullotta, S., V. Bagarello, G. Baiamonte, G. Gugliuzza, M. Iovino, D. S. La Mela Veca, F. Maetzke, V. Palmeri, and S. Sferlazza. 2016. Comparing Different Methods to Determine Soil Physical Quality in a Mediterranean Forest and Pasture Land. Soil Science Society of America Journal. 0:0. doi.
Di Prima, S. 2015. Automated single ring infiltrometer with a low-cost microcontroller circuit. Computers and Electronics in Agriculture. 118:390–395. doi.
Di Prima, S., V. Bagarello, L. Lassabatere, R. Angulo-Jaramillo, I. Bautista, M. Burguet, A. Cerdà, M. Iovino, and M. Prosdocimi. 2017. Comparing Beerkan infiltration tests with rainfall simulation experiments for hydraulic characterization of a sandy-loam soil. Hydrological Processes. 31:3520–3532. doi.
Di Prima, S., P. Concialdi, L. Lassabatere, R. Angulo-Jaramillo, M. Pirastru, A. Cerda, and S. Keesstra. 2018a. Laboratory testing of Beerkan infiltration experiments for assessing the role of soil sealing on water infiltration. CATENA. 167:373–384. doi.
Di Prima, S., L. Lassabatere, V. Bagarello, M. Iovino, and R. Angulo-Jaramillo. 2016. Testing a new automated single ring infiltrometer for Beerkan infiltration experiments. Geoderma. 262:20–34. doi.
Di Prima, S., J. Rodrigo-Comino, A. Novara, M. Iovino, M. Pirastru, S. Keesstra, and A. Cerdà. 2018b. Soil Physical Quality of Citrus Orchards Under Tillage, Herbicide, and Organic Managements. Pedosphere. 28:463–477. doi.
Gette-Bouvarot, M., F. Mermillod-Blondin, R. Angulo-Jaramillo, C. Delolme, D. Lemoine, L. Lassabatere, S. Loizeau, and L. Volatier. 2014. Coupling hydraulic and biological measurements highlights the key influence of algal biofilm on infiltration basin performance. Ecohydrol. 7:950–964. doi.
Ghavidelfar, S., A. Y. Shamseldin, and B. W. Melville. 2015. Estimation of soil hydraulic properties and their uncertainty through the Beerkan infiltration experiment. Hydrol. Process. doi.
Gonzalez-Merchan, C., S. Barraud, and J.-P. Bedell. 2014. Influence of spontaneous vegetation in stormwater infiltration system clogging. Environmental Science and Pollution Research. 21:5419–5426. doi.
Gonzalez-Sosa, E., I. Braud, J. Dehotin, L. Lassabatère, R. Angulo-Jaramillo, M. Lagouy, F. Branger, C. Jacqueminet, S. Kermadi, and K. Michel. 2010. Impact of land use on the hydraulic properties of the topsoil in a small French catchment. Hydrol. Process. 24:2382–2399. doi.
Goutaland, D., T. Winiarski, L. Lassabatere, J. S. Dubé, and R. Angulo-Jaramillo. 2013. Sedimentary and hydraulic characterization of a heterogeneous glaciofluvial deposit: Application to the modeling of unsaturated flow. Engineering Geology. 166:127–139. doi.
Kanso, T., D. Tedoldi, M.-C. Gromaire, D. Ramier, M. Saad, and G. Chebbo. 2018. Horizontal and Vertical Variability of Soil Hydraulic Properties in Roadside Sustainable Drainage Systems (SuDS)—Nature and Implications for Hydrological Performance Evaluation. Water. 10:987. doi.
Khaledian, M., J.-C. Mailhol, and P. Ruelle. 2012. No-Tillage Impacts on Soil Hydraulic Properties Compared with Conventional Tillage. :6.
Khaledian, M., M. Shabanpour, and H. Alinia. 2016. Saturated hydraulic conductivity variation in a small garden under drip irrigation. Geosystem Engineering. 19:266–274. doi.
Lassabatere, L., R. Angulo-Jaramillo, D. Goutaland, L. Letellier, J. P. Gaudet, T. Winiarski, and C. Delolme. 2010. Effect of the settlement of sediments on water infiltration in two urban infiltration basins. Geoderma. 156:316–325. doi.
Lassabatere, L., R. Angulo-Jaramillo, J. M. Soria Ugalde, R. Cuenca, I. Braud, and R. Haverkamp. 2006. Beerkan estimation of soil transfer parameters through infiltration experiments—BEST. Soil Science Society of America Journal. 70:521. doi.
Lassabatere, L., R. Angulo-Jaramillo, J. M. Soria-Ugalde, J. Šimůnek, and R. Haverkamp. 2009. Numerical evaluation of a set of analytical infiltration equations: EVALUATION INFILTRATION. Water Resources Research. 45:n/a-n/a. doi.
Lassabatere, L., R. Angulo-Jaramillo, D. Yilmaz, and T. Winiarski. 2013. BEST method: Characterization of soil unsaturated hydraulic properties. In Caicedo et al. (eds): Advances in Unsaturated Soils. CRC Press, London.:527–532.
Lassabatere, L., S. Di Prima, R. Angulo-Jaramillo, S. Keesstra, and D. Salesa. 2019. Beerkan multi-runs for characterizing water infiltration and spatial variability of soil hydraulic properties across scales. Hydrological Sciences Journal. 64:165–178. doi.
Lassabatere, L., D. Yilmaz, X. Peyrard, P. E. Peyneau, T. Lenoir, J. Šimůnek, and R. Angulo-Jaramillo. 2014. New Analytical Model for Cumulative Infiltration into Dual-Permeability Soils. Vadose Zone Journal. 0:0. doi.
Latorre, B., C. Peña, L. Lassabatere, R. Angulo-Jaramillo, and D. Moret-Fernández. 2015. Estimate of soil hydraulic properties from disc infiltrometer three-dimensional infiltration curve. Numerical analysis and field application. Journal of Hydrology. 527:1–12. doi.
Leite, P. A. M., E. S. de Souza, E. S. dos Santos, R. J. Gomes, J. R. Cantalice, and B. P. Wilcox. 2017. The influence of forest regrowth on soil hydraulic properties and erosion in a semiarid region of Brazil. Ecohydrology.:n/a-n/a. doi.
Moret-Fernández, D., and B. Latorre. 2017. Estimate of the soil water retention curve from the sorptivity and β parameter calculated from an upward infiltration experiment. Journal of Hydrology. 544:352–362. doi.
Mubarak, I., R. Angulo-Jaramillo, J. C. Mailhol, P. Ruelle, M. Khaledian, and M. Vauclin. 2010. Spatial analysis of soil surface hydraulic properties: Is infiltration method dependent? Agricultural Water Management. 97:1517–1526. doi.
Mubarak, I., J. C. Mailhol, R. Angulo-Jaramillo, S. Bouarfa, and P. Ruelle. 2009a. Effect of temporal variability in soil hydraulic properties on simulated water transfer under high-frequency drip irrigation. Agricultural Water Management. 96:1547–1559. doi.
Mubarak, I., J. C. Mailhol, R. Angulo-Jaramillo, P. Ruelle, P. Boivin, and M. Khaledian. 2009b. Temporal variability in soil hydraulic properties under drip irrigation. Geoderma. 150:158–165. doi.
Nasta, P., L. Lassabatere, M. M. Kandelous, J. Šimŭnek, and R. Angulo-Jaramillo. 2012. Analysis of the role of tortuosity and infiltration constants in the Beerkan method. Soil Science Society of America Journal. 76:1999–2005.
Oluwafemi, I., T. Laseinde, and D. Dada. 2019. Evaluation of Saturated Hydraulic Conductivity at Adaptable Depths in a Sandy Loam Using the Beerkan Method. :11.
Scalenghe, R., and S. Ferraris. 2009. The first forty years of a Technosol. Pedosphere. 19:40–52.
Siltecho, S., C. Hammecker, V. Sriboonlue, C. Clermont-Dauphin, V. Trelo-ges, A. C. D. Antonino, and R. Angulo-Jaramillo. 2015. Use of field and laboratory methods for estimating unsaturated hydraulic properties under different land uses. Hydrology and Earth System Sciences. 19:1193–1207. doi.
Souza, E. S., A. C. D. Antonino, R. J. Heck, S. M. G. L. Montenegro, J. R. S. Lima, E. V. S. B. Sampaio, R. Angulo-Jaramillo, and M. Vauclin. 2014. Effect of crusting on the physical and hydraulic properties of a soil cropped with Castor beans (Ricinus communis L.) in the northeastern region of Brazil. Soil and Tillage Research. 141:55–61. doi.
Souza, R., E. Souza, A. M. Netto, A. Q. de Almeida, G. B. Júnior, J. R. I. Silva, J. R. de Sousa Lima, and A. C. D. Antonino. 2017. Assessment of the physical quality of a Fluvisol in the Brazilian semiarid region. Geoderma Regional. doi.
Winiarski, T., L. Lassabatere, R. Angulo-Jaramillo, and D. Goutaland. 2013. Characterization of the Heterogeneous Flow and Pollutant Transfer in the Unsaturated Zone in the Fluvio-glacial Deposit. Procedia Environmental Sciences. 19:955–964. doi.
Xu, X., G. Kiely, and C. Lewis. 2009. Estimation and analysis of soil hydraulic properties through infiltration experiments: comparison of BEST and DL fitting methods. Soil Use and Management. 25:354–361. doi.
Xu, X., C. Lewis, W. Liu, J. D. Albertson, and G. Kiely. 2012. Analysis of single-ring infiltrometer data for soil hydraulic properties estimation: Comparison of BEST and Wu methods. Agricultural Water Management. 107:34–41. doi.
Yang, J., X. Xu, M. Liu, C. Xu, W. Luo, T. Song, H. Du, and G. Kiely. 2016. Effects of Napier grass management on soil hydrologic functions in a karst landscape, southwestern China. Soil and Tillage Research. 157:83–92. doi.
Yang, J., X. Xu, M. Liu, C. Xu, Y. Zhang, W. Luo, R. Zhang, X. Li, G. Kiely, and K. Wang. 2017. Effects of “Grain for Green” program on soil hydrologic functions in karst landscapes, southwestern China. Agriculture, Ecosystems & Environment. 247:120–129. doi.
Yilmaz, D., L. Lassabatere, R. Angulo-Jaramillo, D. Deneele, and M. Legret. 2010. Hydrodynamic Characterization of Basic Oxygen Furnace Slag through an Adapted BEST Method. Vadose Zone Journal. 9:107. doi.
Yilmaz, D., L. Lassabatere, D. Deneele, R. Angulo-Jaramillo, and M. Legret. 2013. Influence of Carbonation on the Microstructure and Hydraulic Properties of a Basic Oxygen Furnace Slag. Vadose Zone Journal. 12:0. doi.