1. bookVolume 71 (2023): Edizione 2 (June 2023)
Dettagli della rivista
Prima pubblicazione
28 Mar 2009
Frequenza di pubblicazione
4 volte all'anno
Accesso libero

Temporal response of urban soil water content in relation to the rainfall and throughfall dynamics in the open and below the trees

Pubblicato online: 14 May 2023
Volume & Edizione: Volume 71 (2023) - Edizione 2 (June 2023)
Pagine: 210 - 220
Ricevuto: 02 Dec 2022
Accettato: 06 Mar 2023
Dettagli della rivista
Prima pubblicazione
28 Mar 2009
Frequenza di pubblicazione
4 volte all'anno

Armson, D., Stringer, P., Ennos, A.R., 2013. The effect of street trees and amenity grass on urban surface water runoff in Manchester, UK. Urban For. Urban Green., 12, 282−286. Search in Google Scholar

ARSO, 2022. Measurements archive. http://www.meteo.si/met/sl/archive/ (Accessed 17 October 2022). Search in Google Scholar

Bartík, M., Jančo, M., Střelcová, K., Škvareninová, J., Škvarenina, J., Mikloš, M., Vido, J., Dagsson Waldhauserová, P., 2016. Rainfall interception in a disturbed montane spruce (Picea abies) stand in the West Tatra Mountains. Biologia, 71, 1002–1008. Search in Google Scholar

Bi, Y., Zou, H., Zhu, C., 2014. Dynamic monitoring of soil bulk density and infiltration rate during coal mining in sandy land with different vegetation. Int. J. Coal. Sci. Technol., 1, 198–206. Search in Google Scholar

Bialkowski, R., Buttle, J.M., 2015. Stemflow and throughfall contributions to soil water recharge under trees with differing branch architectures. Hydrol. Process., 29, 4068–4082. Search in Google Scholar

Buczko, U., Bens, O., Hüttl, R.F., 2006. Water infiltration and hydrophobicity in forest soils of a pine–beech transformation chronosequence. J. Hydrol., 331, 383–395. Search in Google Scholar

Buczko, U., Bens, O., Hüttl, R.F., 2007. Changes in soil water repellency in a pine–beech forest transformation chronosequence: Influence of antecedent rainfall and air temperatures. Ecol. Eng., 31, 154–164. Search in Google Scholar

Chen, W.Y., Jim, C.Y., 2008. Assessment and valuation of the ecosystem services provided by urban forests. In: Carreiro, M.M., Song, Y.C., Wu, J. (Eds.): Ecology, Planning, and Management of Urban Forests. Springer-Verlag, New York, pp. 53–83. Search in Google Scholar

Cui, Z., Huang, Z., Liu, Y., Lopez-Vicente, M., Wu, G.L., 2022. Natural compensation mechanism of soil water infiltration through decayed roots in semi-arid vegetation species. Sci. Total Environ., 819, 151985. Search in Google Scholar

Dai, L., Fu, R., Guo, X., Du, Y., Zhang, F., Cao, G., 2022. Soil moisture variations in response to precipitation across different vegetation types on the northeastern Qinghai-Tibet plateau. Front. Plant Sci., 13, 854152. Search in Google Scholar

Dohnal, M., Černý, T., Votrubová, J., Tesař, M., 2014. Rainfall interception and spatial variability of throughfall in spruce stand. J. Hydrol. Hydromech., 62, 277–284. Search in Google Scholar

Dos Santos, K.F., Barbosa, F.T., Bertol, I., de Souza Werner, R., Wolschick, N.H., Mota, J.M., 2018. Study of soil physical properties and water infiltration rates in different types of land use. Ciências Agrárias, 39, 87–98. Search in Google Scholar

Ford, E.D., Deans, J.D., 1978. The effects of canopy structure on stemflow, throughfall and interception loss in a young sitka spruce plantation. J. Appl. Ecol., 15, 905–917. Search in Google Scholar

He, Z., Zhao, W., Liu, H., Chang, X., 2012. The response of soil moisture to rainfall event size in subalpine grassland and meadows in a semi-arid mountain range: A case study in northwestern China’s Qilian Mountains. J. Hydrol., 420–421, 183–190. Search in Google Scholar

Hewelke, E., Oktaba, L., Gozdowski, D., Kondras, M., Olejniczak, I., Górska, E.B., 2018. Intensity and persistence of soil water repellency in pine forest soil in a temperate continental climate under drought conditions. Water, 10, 1121. Search in Google Scholar

Hewelke, E., Gozdowski, D., Korc, M., Małuszynska, I., Górska, E.B., Sas, W., Mielnik, L., 2022. Influence of soil moisture on hydrophobicity and water sorptivity of sandy soil no longer under agricultural use. Catena, 208, 105780. Search in Google Scholar

Hoppe, E., 1896. Precipitation measurements under tree crowns. Mitteilungen aus der Forstlichen Versuchswesen Osterreichs, 21, 1–75. (Translation from German language Krappe, A.H. 1935. Division of Silvics, U.S. Forest Serv., Trans. No. 291). Search in Google Scholar

Inkiläinen, N.M., McHale, M.R., Blank, G.B., James, A.L., Nikinmaa, E., 2013. The role of the residential urban forest in regulating throughfall: A case study in Raleigh, North Carolina, USA. Landscape Urban Plann., 119, 91−103. Search in Google Scholar

Iovino, M., Pekárová, P., Hallett, P.D., Pekár, J., Lichner, L., Mataix-Solera, J., Alagna, V., Walsh, R., Raffan, A., Schacht, K., Rodný, M., 2018. Extent and persistence of soil water repellency induced by pines in different geographic regions. J. Hydrol. Hydromech., 66, 360–368. Search in Google Scholar

Jančo, M., Mezei, P., Kvas, A., Danko, M., Sleziak, P., Minďáš, J., Škvarenina, J., 2021. Effect of mature spruce forest on canopy interception in subalpine conditions during three growing seasons. J. Hydrol. Hydromech., 69, 436–446. Search in Google Scholar

Kato-Huerta, J., Geneletti, D., 2022. Environmental justice implications of nature-based solutions in urban areas: A systematic review of approaches, indicators, and outcomes. Environ. Sci. Policy., 138, 122–133. Search in Google Scholar

Levia, D.F., Hudson, S.A., Llorens, P., Nanko, K., 2017. Through-fall drop size distributions: a review and prospectus for future research. WIREs Water, 4, e1225. Search in Google Scholar

Li, H., Si, B., Wu, P., McDonell, J.J., 2018. Water mining from the deep critical zone by apple trees growing on loess. Hydrol. Process., 33, 320–327. Search in Google Scholar

Lichner, L., Hallett, P.D., Drongová, Z., Czachor, H., Kovacik, L., 2012. Biohydrology - it has its uses. https://ui.adsabs.harvard.edu/abs/2012EGUGA..14.7450L/abstract (Accessed 15 October 2022). Search in Google Scholar

Livesley, S.J., Baudinette, B., Glover, D., 2014. Rainfall interception and stemflow by eucalypt street trees – The impacts of canopy density and bark type. Urban For. Urban Green., 13, 192–197. Search in Google Scholar

Matthews, T., Lo, A.Y., Byrne, J.A., 2015. Reconceptualizing green infrastructure for climate change adaptation: Barriers to adoption and drivers for uptake by spatial planners. Landscape Urban Plann., 138, 155–163. Search in Google Scholar

Molina, A.J., Llorens, P., Garcia-Estringana, P., Moreno de las Heras, M., Cayuela, C., Gallart, F., Latron, J., 2019. Contributions of throughfall, forest and soil characteristics to near-surface soil water-content variability at the plot scale in a mountainous Mediterranean area. Sci. Total Environ., 647, 1421–1432. Search in Google Scholar

Moslehi, M., Habashi, H., Khormali, F., Ahmadi, A., Brunner, I., Zimmermann, S., 2019. Base cation dynamics in rainfall, throughfall, litterflow and soil solution under Oriental beech (Fagus orientalis Lipsky) trees in northern Iran. Ann. For. Sci., 76, 55. Search in Google Scholar

Pérez-Harguindeguy, N., Diaz, S., Garnier, E., et al., 2013. New handbook for standardised measurement of plant functional traits worldwide. Aust. J. Bot., 61, 167–234. Search in Google Scholar

Peskett, L.M., Heal, K.V., MacDonald, A.M., Black, A.R., McDonell, J.J., 2021. Tracers reveal limited influence of plantation forests on surface runoff in a UK natural flood management catchment. J. Hydrol.: Reg. Stud., 36, 100834. Search in Google Scholar

Post, V.E.A., Zhou, T., Neukum, C., Koeniger, P., Houben, G.J., Lamparter, A., Šimůnek, J., 2022. Estimation of groundwater re-charge rates using soil-water isotope profiles: a case study of two contrasting dune types on Langeoog Island, Germany. Hydro-geol. J., 30, 797–812. Search in Google Scholar

R Core Team, 2020. R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. Available at: https://www.R-project.org/. Search in Google Scholar

Rahman, M. A., Moser, A. Anderson, M., Zhang, C., Rötzer, T., Pauleit, S., 2019. Comparing the infiltration potentials of soils beneath the canopies of two contrasting urban tree species. Urban Forestry and Urban Greening, 38, 22–32. Search in Google Scholar

Rascón-Ramos, A.E., Martínez-Salvador, M., Sosa-Pérez, G., Villarreal-Guerrero, F., Pinedo-Alvarez, A., Santellano-Estrada, E., Corrales-Lerma, R., 2021. Soil moisture dynamics in response to precipitation and thinning in a semi-dry forest in Northern Mexico. Water, 13, 105. Search in Google Scholar

Selbig, W.R., Loheide, S.P., Shuster, W., Scharenbroch, B.C., Coville, R.C., Kruegler, J., Avery, W., Haefner, R., Nowak, D., 2022. Quantifying the stormwater runoff volume reduction benefits of urban street tree canopy. Sci. Total Environ., 806, 151296. Search in Google Scholar

Staelens, J., De Schrijver, A., Verheyen, K., Verhoest, N.E.C., 2008. Rainfall partitioning into throughfall, stemflow, and interception within a single beech (Fagus sylvatica L.) canopy: influence of foliation, rain event characteristics, and meteorology. Hydrol. Process., 22, 33–45. Search in Google Scholar

Stevens, J.T., Boisramé, G.F.S., Rakhmatulina, E., Thompson, S.E., Collins, B.M., Stephens, S.L., 2020. Forest vegetation change and its impacts on soil water following 47 years of managed wild-fire. Ecosystems, 23, 1547–1565. Search in Google Scholar

Stout, B.B., McMahon, R.J., 1961. Throughfall variation under tree crowns. J. Geophys. Res., 66, 1839–1843. Search in Google Scholar

Špulák, O., Šach, F., Kacálek, D., 2021. Topsoil moisture depletion and recharge below young Norway spruce, white birch, and treeless gaps at a mountain-summit site. Forests, 12, 828. Search in Google Scholar

Šraj, M., Brilly, M., Mikoš, M., 2008. Rainfall interception by two deciduous Mediterranean forests of contrasting stature in Slovenia. Agr. Forest. Meteorol., 148, 121–134. Search in Google Scholar

Tao, Z., Li, H., Si, B., 2021. Stand age and precipitation affect deep soil water depletion of economical forest in the loess area. Agr. Forest. Meteorol., 310, 108636. Search in Google Scholar

Teixeira Lins, C.M., Rodrigues de Souza, E., Monteiro dos Santos Souza, T.E., Souza Paulino, M.K.S., Rodrigues Monteiro, D., de Souza Júnior, V.S., Magalhães Dourado, P.R., de Andrade Rego Junior, F.E., Agra da Silva, Y.J., Schaffer, B., 2023. Influence of vegetation cover and rainfall intensity on soil attributes in an area undergoing desertification in Brazil. Catena, 221, 106751. Search in Google Scholar

Vargas-Hernández, J.G., Zdunek-Wielgołaska, J., 2021. Urban green infrastructure as a tool for controlling the resilience of urban sprawl. Environ. Dev. Sustain., 23, 1335–1354. Search in Google Scholar

Vrščaj, B., Grčman, H., Kralj, T., 2019. Klasifikacija tal Slovenije 2019: sistem za opisovanje in poimenovanje tal Slovenije (in Slovenian). 156 p. Search in Google Scholar

Wu, X., Shi, W., Guo, B., Tao, F., 2020. Large spatial variations in the distributions of and factors affecting forest water retention capacity in China. Ecol. Indic., 113, 106152. Search in Google Scholar

Xiao, Q., McPherson, E.G., Ustin, S.L., Grismer, M.E., Simpson, J.R., 2000. Winter rainfall interception by two mature open-grown trees in Davis, California. Hydrol. Process., 14, 763–784. Search in Google Scholar

Yan, W., Zhou, Q., Peng, D., Wei, X., Tang, X., Yuan, E., Wang, Y., Shi, C., 2021. Soil moisture responses under different vegetation types to winter rainfall events in a humid karst region. Environ. Sci. Pollut. R., 28, 56984–56995. Search in Google Scholar

Yang, T., Ala, M., Zhang, Y., Wu, J., Wang, A., Guan, D., 2018. Characteristics of soil moisture under different vegetation coverage in Horqin Sandy Land, northern China. PLoS ONE, 13, e0198805. Search in Google Scholar

Yuan, Y., Zhang, Q., Chen, S., Li, Y., 2022. Evaluation of comprehensive benefits of sponge cities using meta-analysis in different geographical environments in China. Sci. Total Environ., 836, 155755. Search in Google Scholar

Zabret, K., Šraj, M., 2015. Can urban trees reduce the impact of climate change on storm runoff? Urbani izziv, 26, 165–178. Search in Google Scholar

Zabret, K., Šraj, M., 2019. Rainfall interception by urban trees and their impact on potential surface runoff. Clean Soil, Air, Water, 47, 8, 1800327. Search in Google Scholar

Zabret, K., Šraj, M., 2021. Relation of influencing variables and weather conditions on rainfall partitioning by birch and pine trees. J. Hydrol. Hydromech., 69, 456–466. Search in Google Scholar

Zabret, K., Rakovec, J., Mikoš, M., Šraj, M., 2017. Influence of raindrop size distribution on throughfall dynamics under pine and birch trees at the rainfall event level. Atmosphere, 8, 240. Search in Google Scholar

Zabret, K., Rakovec, J., Šraj, M., 2018. Influence of meteorological variables on rainfall partitioning for deciduous and coniferous tree species in urban area. J. Hydrol., 558, 29–41. Search in Google Scholar

Zhang, C., He, M., Zhang, Y., 2019. Urban sustainable development based on the framework of sponge city: 71 case studies in China. Sustainability, 11, 1544. Search in Google Scholar

Zölch, T., Henze, L., Keilholz, P., Pauleit, S., 2017. Regulating urban surface runoff through nature-based solutions – An assessment at the micro-scale. Environ. Res., 157, 135–144. Search in Google Scholar

Zore, A., Bezak, N., Šraj, M., 2022. The influence of rainfall interception on the erosive power of raindrops under the birch tree. J. Hydrol., 613, 128478. Search in Google Scholar

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