Effect of slope position on soil properties and soil moisture regime of Stagnosol in the vineyard

Al Majou, H. Bruand, A., Duval, O., Cousin, I., 2008. Prediction of soil water retention properties after stratification by combining texture, bulk density and the type of horizon. Soil Use Manage, 24, 383–391.10.1111/j.1475-2743.2008.00180.xSearch in Google Scholar

Aubertin, G.M., Kardos, L.T., 1965. Root growth through porous media under controlled conditions. Soil Science Society of America Proceedings, 29, 290–293.10.2136/sssaj1965.03615995002900030020xSearch in Google Scholar

Begum, F., Bajracharya, R.M., Sharma, S., Sitaula, B.K., 2010. Influence of slope aspect on soil physico-chemical and biological properties in the mid hills of central Nepal. Int. J. Sustain. Dev. World, 17, 438–443.10.1080/13504509.2010.499034Search in Google Scholar

Bogunović, I., Kisić, I., Maletić, E., Perčin, A., Matošić, S., Roškar, L., 2016. Soil compaction in vineyards of different ages in Panonian Croatia. Part I. Influence of machinery traffic and soil management on compaction of individual horizons. Journal of Central European Agriculture, 17, 2, 533–544. (In Croatian.)10.5513/JCEA01/17.2.1739Search in Google Scholar

Bogunović, I., Pereira, P., Kisić, I., Sajko, K., Sraka, M., 2018. Tillage management impacts on soil compaction, erosion and crop yield in Stagnosols (Croatia). Catena, 160, 376–384.10.1016/j.catena.2017.10.009Search in Google Scholar

Carroll, C., Merton, L., Burger, P., 2000. Impact of vegetative cover and slope on runoff, erosion, and water quality for field plots on a range of soil and spoil materials on central Queensland coal mines. Soil Res., 38, 313–328.10.1071/SR99052Search in Google Scholar

Celette, F., Gaudin, R., Gary, C., 2008. Spatial and temporal changes to the water regime of a Mediterranean vineyard due to the adoption of cover cropping. Eur. J. Agron., 29, 153–162.10.1016/j.eja.2008.04.007Search in Google Scholar

Cerdan, O., Govers, G., Le Bissonnais, Y., Van Oost, K., Poesen, J., Saby, N., Gobin, A., Vacca, A., Quinton, J., Auerwald, K., Klik, A., Kwaad, F.J.P. M., Raclot, D., Ionita, I., Rejman, J., Rousseva, S., Muxart, T., Roxo, M.J., Dostal, T., 2010. Rates and spatial variations of soil erosion in Europe: A study based on erosion plot data. Geomorphology, 122, 167–177.10.1016/j.geomorph.2010.06.011Search in Google Scholar

Da Costa, A., Albuquerque, J.A., da Costa, A., Pértile, P., da Silva, F.R., 2013. Water retention and availabilityin soils of the State of Santa Catarina-Brasil: effect of soil textural classes, soil classes and lithology. R. Bras. Ci. Solo, 37, 1535–1548.10.1590/S0100-06832013000600010Search in Google Scholar

Dane, J.H., Hopmans, J.W., 2002. Water retention and storage - Pressure plate extractor. In: Methods of Soil Analysis. Part 4. Physical methods. SSSA, Madison, WI, pp 688-690.Search in Google Scholar

Deumlich, D., Schmidt, R., Sommer, M., 2010. A multiscale soil–landform relationship in the glacial-drift area based on digital terrain analysis and soil attributes. J. Plant Nutr. Soil Sci., 173, 843–851.10.1002/jpln.200900094Search in Google Scholar

Famiglietti, J.S., Rudnicki, J.W., Rodell, M., 1998. Variability in surface moisture content along a hillslope transect: Rattlesnake Hill, Texas. J. Hydrol., 210, 259–281.10.1016/S0022-1694(98)00187-5Search in Google Scholar

FAO, 2006. Guidelines for soil description. 4th ed. FAO, Rome.Search in Google Scholar

FAO, 2021. FAOSTAT Database. Food and Agriculture Organization of the United Nations. [Online] Available at: http://www.fao.org/faostat/en/#data/QC [Accessed: 23^rd March. 2021].Search in Google Scholar

Filipović, V., Gerke, H.H., Filipović, L., Sommer, M., 2018. Quantifying subsurface lateral flow along sloping horizon boundaries in soil profiles of a hummocky ground moraine. Vadose Zone Journal, 17, Article Number: 170106.10.2136/vzj2017.05.0106Search in Google Scholar

Gaiser, T., Graef, F., Cordeiro, J.C., 2000. Water retention characteristics of soils with contrasting clay mineral composition in semi-arid tropical regions. Aust. J. Soil Res., 38, 523–526.10.1071/SR99001Search in Google Scholar

Gee, G.W., Or, D., 2002. Particle size analysis. In: Methods of Soil Analysis. Part 4. Physical methods. SSSA, Madison, WI, pp. 255–293.10.2136/sssabookser5.4.c12Search in Google Scholar

Gerke, H.H., Hierold, W., 2012. Vertical bulk density distribution in C-horizons from marley till as indicator for erosion history in a hummocky post-glacial soil landscape. Soil Till-age Res., 125, 116–122.10.1016/j.still.2012.06.005Search in Google Scholar

Gerrits, A.M.J., Pfister, L., Savenije, H.H.G., 2010. Spatial and temporal variability of canopy and forest floor interception in a beech forest. Hydrol. Process., 24, 3011–3025.10.1002/hyp.7712Search in Google Scholar

Gómez-Plaza, A., Alvarez-Rogel, J., Albaladejo, J., Castillo, V.M., 2000. Spatial patterns and temporal stability of soil moisture across a range of scales in a semi-arid environment. Hydrol. Process., 14, 1261–1277.10.1002/(SICI)1099-1085(200005)14:7<1261::AID-HYP40>3.0.CO;2-DSearch in Google Scholar

Grossman, R.B., Reinsch, T.G., 2002. Bulk desity and Linear Extensibility – Core method. In: Methods of soil analysis. Part 4. Physical methods, SSSA, Madison, WI, pp. 207–210.Search in Google Scholar

Haghighi, F., Gorjiz, M., Shorafa, M., 2010. A study of the effects of land use changes on soil physical properties and organic matter. Land Degradation & Development, 21, 496–502.10.1002/ldr.999Search in Google Scholar

Hendgen, M., Döring, J., Stöhrer, V., Schulze, F., Lehnart, R., Kauer, R., 2020. Spatial differentiation of physical and chemical soil parameters under integrated, organic, and bio-dynamic viticulture. Plants, 9, 1361.10.3390/plants9101361Search in Google Scholar

Herbrich, M., Gerke, H.H., Bens, O., Sommer, M., 2017. Water balance and leaching of dissolved organic and inorganic carbon of eroded Luvisols using high precision weighing lysimeters. Soil Tillage Res., 165, 144–160.10.1016/j.still.2016.08.003Search in Google Scholar

Hillel, D., 2004. Introduction to Environmental Soil Physics. Elsevier Academic Press, New York.Search in Google Scholar

Hu, W., Si, B.C., 2014. Revealing the relative influence of soil and topographic properties on soil water content distribution at the watershed scale in two sites. J. Hydrol., 516, 107–118.10.1016/j.jhydrol.2013.10.002Search in Google Scholar

Husnjak, S., 2014. Sistematika tala Hrvatske. Hrvatska sveučilišna naklada, Zagreb. (In Croatian.)Search in Google Scholar

Husnjak, S., Romić, M., Poljak, M., Pernar, N., 2011. Recommendations for soil management in Croatia. Agric. Conspec. Sci., 76, 1–8.Search in Google Scholar

IUSS Working Group WRB, 2015. World Reference Base for Soil Resources 2014. Update 2015: International soil classification system for naming soils and creating legends for soil maps. World Soil Resources Reports No. 106; FAO, Rome, Italy, 192 p.Search in Google Scholar

Jakšík, O., Kodešová, R., Kubiš, A., Stehlíková, I., Drábek, O., Kapička, A., 2015. Soil aggregate stability within morphologically diverse areas. Catena, 127, 287–299.10.1016/j.catena.2015.01.010Search in Google Scholar

JDPZ, 1966. Priručnik za ispitivanje zemljišta. Knjiga I. Kemijske metode ispitivanja zemljišta. JDPZ, Beograd. (In Croatian.)Search in Google Scholar

Khormali, F., Ayoubi, S., Foomani, F.K., Fatemi, A., Hemmati, K., 2007. Tea yield and soil properties as affected by slope position and aspect in Lahijan area, Iran. Int. J. Plant Prod., 1, 245–259.Search in Google Scholar

Kizilkaya, R., Dengiz, O., 2010. Variation of land use and land cover efects on some soil physico-chemical characteristics and soil enzyme activity. Zemdirb Agric., 97, 2, 15–24.Search in Google Scholar

Kodešová, R., Kodeš, V., Zigova, A., Šimůnek, J., 2006. Impact of plant roots and soil organisms on soil micromorphology and hydraulic properties. Biologia, 61, Suppl. 19, S339–S343.10.2478/s11756-006-0185-7Search in Google Scholar

Kodešová, R., Vignozzi, N., Rohoškova, M., Hájková, T., Kočárek, M., Pagliai, M., Kozák, J., Šimůnek, J., 2009. Impact of varyng soil structure on transport processes in different diagnostic horizons of tree soil types. Journal of Contaminant Hydrology, 104, 107–125.10.1016/j.jconhyd.2008.10.00819062128Search in Google Scholar

Kotingo, K.E., 2015. Toposequence analysis of soil properties of an agricultural field in the Obudu mountain slopes, Cross River State-Nigeria. Eur. J. Phys. Agric. Sci., 3, 1.Search in Google Scholar

Lanyon, D.M., Cass, A., Hansen, D., 2004. The Effect of Soil Properties on Wine Performance. CSIRO, Land and Water Technical Report No. 34/4, 54 p.Search in Google Scholar

Liang, W.L., Hung, F.X., Chan, M.C., Lu, T.H., 2014. Spatial structure of surface soil water content in a natural forested headwater catchment with a subtropical monsoon climate. J. Hydrol., 516, 210–221.10.1016/j.jhydrol.2014.01.032Search in Google Scholar

Mayer, S., Kühnel, A., Burmeister, J., Kögel-Knabner, I., Wiesmeier, M., 2019. Controlling factors of organic carbon stocks in agricultural topsoils and subsoils of Bavaria. Soil Tillage Res., 192, 22–32.10.1016/j.still.2019.04.021Search in Google Scholar

Molina, A.J., Llorens, P., Garcia-Estringana, P., Moreno se las Heras, M., Cayuela, C., Gallart, F., Latron, J., 2019. Contribution of throughfall, forest and soil characteristrics to near-surface soil water-content variability at the plot scale in a mountains Mediterranean area. Science of The Total Environment, 647, 1421–1432.10.1016/j.scitotenv.2018.08.02030180348Search in Google Scholar

Mulugeta, D., Sheleme, B., 2010. Characterization and Classification of soil along toposequence of Kyndo Koye Weter- shed in Southern Ethiopia. East African Journal of Sciences, 4, 2, 65–77.10.4314/eajsci.v4i2.71528Search in Google Scholar

Nikodem, A., Kodešová, R., Fér, M., Klement, A., 2021. Using scaling factors for characterizing spatial and temporal variability of soil hydraulic properties of topsoils in areas heavily affected by soil erosion. Journal of Hydrology, 593, 125897.10.1016/j.jhydrol.2020.125897Search in Google Scholar

R Core Team, 2016. R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria.Search in Google Scholar

RStudio Team, 2016. RStudio: Integrated Development for R. RStudio, Inc., Boston, MA.Search in Google Scholar

Rasse, D.P., Smucker, A.J.M., Santos, D., 2000. Alfalfa root and shoot mulching effects on soil hydraulic properties and aggregation. Soil Sci. Soc. Am. J., 64, 2, 725–731.10.2136/sssaj2000.642725xSearch in Google Scholar

Rieckh, H., Gerke, H.H., Sommer, M., 2012. Hydraulic properties of characteristic horizons depending on relief position and structure in a hummocky glacial soil landscape. Soil Tillage Res., 125, 123–131.10.1016/j.still.2012.07.004Search in Google Scholar

Rodrigo-Comino, J., Senciales, J.M., Ramos, M.C., Martínez-Casasnovas, J.A., Lasanta, T., Brevik, E.C., Ruiz Sinoga, J.D., 2017. Understanding soil erosion processes in Mediterranean sloping vineyards (Montes de Málaga, Spain). Geoderma, 296, 47–59.10.1016/j.geoderma.2017.02.021Search in Google Scholar

Romano, N., Palladino, M., 2002. Prediction of soil water retention using soil physical data and terrain attributes. J. Hydrol., 265, 1–4, 56–75.10.1016/S0022-1694(02)00094-XSearch in Google Scholar

Rubinić, V., Galović, L., Lazarević, B., Husnjak, S., Durn, G., 2018. Pseudogleyed loess derivates – The most common soil parent materials in the Pannonian region of Croatia. Quaternary International, 494, 248–262.10.1016/j.quaint.2017.06.044Search in Google Scholar

Rubinić, V., Lazarević, B., Husnjak, S., Durn, G., 2015. Climate and relief influence on particle size distribution and chemical properties of Pseudogley soils in Croatia. Catena, 127C, 340–348.10.1016/j.catena.2014.12.024Search in Google Scholar

Sarapatka, B., Cap, L., Bila, P., 2018. The varying effect of water erosion on chemical and biochemical soil properties in different parts of Chernozem slopes. Geoderma, 314, 20–26.10.1016/j.geoderma.2017.10.037Search in Google Scholar

Schneider, F., Don, A., Hennings, I., Schmittmann, O., Seidel, S.J., 2017. The effect of deep tillage on crop yield – What do we relly know? Soil & Tillage Research, 147, 193–204.10.1016/j.still.2017.07.005Search in Google Scholar

Schoeneberger, P.J., Wysocki, D.A. Benham, E.C., Soil Survey Staff, 2012. Field book for describing and sampling soils, Version 3.3. Natural Resources Conservation Service, National Soil Survey Center, Lincoln, NE.Search in Google Scholar

Smart, D.R., Schwass, E., Morano, L., Lakso, A.N., 2006. Grapevine root distributions: A comprehensive analysis and a review. Am. J. Enol. Vitic., 56, 157–168.Search in Google Scholar

Sun, S., Zhang, G., He, T., Song, S., Chu, X., 2021. Effect of landscape positions and landscape types on soil properties and chlorophyll content of cytrus in sloping orchard in the Three Gorges Reservoir Area, China. Sustainability, 13, 4233.10.3390/su13084288Search in Google Scholar

Śwotionaik, M., 2014. Use of soil profile truncation to estimate influence of accelerated erosion on soil cover transformation in young morainic landscapes, North-Eastern Poland. Catena, 11, 173–184.10.1016/j.catena.2013.12.015Search in Google Scholar

Tanveera, A., Kanth, T.A., Tali, P.A., Naikoo, M., 2016. Relation of soil bulk density with texture, total organic matter content and porosity in the soil of Kandi Area of Kashmir valley, India. Int. Res. J. Earth Sci., 4, 1, 1–6.10.9734/JGEESI/2016/21344Search in Google Scholar

Torri, D., Poesen, J., Borselli, L., 1997. Predictability and uncertainty of the soil erodibility factor using a global dataset. Catena, 31, 1–22.10.1016/S0341-8162(97)00036-2Search in Google Scholar

Van Leeuwen, C., Trégoat, O., Choné, X., Bois, B., Pernet, D., Gaudillère, J.P., 2009. Vine water status is a key factor in grape ripening and vintage quality for red Bordeaux wine. How can it be assessed for vineyard management purposes? J. Int. Sci. Vigne Vin., 43, 3, 121–134.10.20870/oeno-one.2009.43.3.798Search in Google Scholar

Wang, J., Fu, B., Qiu, Y., Chen, L., 2001. Soil nutrients in relation to land use and landscape position in semi-arid small catchment of the loess plateau in China. J. Arid Environ., 48, 537–550.10.1006/jare.2000.0763Search in Google Scholar

Western, A.W., Zhou, S.L., Grayson, R.B., McMahon, T.A., Bloschl, G., Wilson, D.J., 2004. Spatial correlation of soil moisture in small catchments and its relationship to dominant spatial hydrological processes. J. Hydrol., 286, 113–134.10.1016/j.jhydrol.2003.09.014Search in Google Scholar

Wiaux, F., Cornelis, J.T., Cao, W., Vanclooster, M., Van Oost, K., 2014. Combined effect of geomorphic and pedogenic processes on the distribution of soil organic carbon quality along an eroding hillslope on loess soil. Geoderma, 216, 36–47.10.1016/j.geoderma.2013.10.013Search in Google Scholar

Young, I.M., 1998. Biophysical interactions at the root – soil interface: a review. Journal of Agricultural Science, 130, 1–7.10.1017/S002185969700498XSearch in Google Scholar

Zádorová, T., Jakšík, O., Kodešová, R., Penížek, V., 2011. Influence of terrain attributes and soil properties on soil aggregate stability. Soil Water Res., 6, 111–119.10.17221/15/2011-SWRSearch in Google Scholar

Ziadat, F.M., Taimeh, A.Y., Hattar, B.I., 2010. Variation of soil physical properties and moisture content along toposequence in the arid to semiarid area. Arid Land Research and Management, 24, 81–97.10.1080/15324981003635396Search in Google Scholar

Zhao, X.K., Li, Z.Y., Zhu, Q.K., 2016. Response of Soil moisture on climate characteristics based on SPI and SPEI in Loess Region of Northern Shaanxi. Trans. Chin. Soc. Agric. Mach., 47, 155–163.Search in Google Scholar

Zhu, Y.J., Shao, M.A., 2008. Variability and pattern of surface moisture on a small-scale hillslope in Liudaogou catchment on the northern Loess Plateau of China. Geoderma, 147, 185–191.10.1016/j.geoderma.2008.08.012Search in Google Scholar