Global climate change may reduce the anti-erosion regulatory capacity of vegetation cover in Ukraine's Polissya and Forest-Steppe regions

  • Y. Nykytiuk Polissia National University
  • O. Kravchenko Polissia National University
  • A. Pitsil Polissia National University
  • V. Bambura M. V. Zubets Institute of Animals Breeding and Genetics National Academy of Agrarian Sciences of Ukraine
  • D. Seredniak Institute of Plant Protection of National Academy of Agrarian Sciences of Ukraine
DOI: https://doi.org/10.15421/0225004
Keywords:

References

Carollo, F. G., Serio, M. A., Pampalone, V., & Ferro, V. (2024). The unit plot of the universal soil loss equation (USLE): Myth or reality? Journal of Hydrology, 632, 130880.

Chang, J., Gong, L., Zeng, F., Xue, J., Mao, D., Cao, Y., Mu, G., & Wang, S. (2022). Using hydro-climate elasticity estimator and geographical detector method to quantify the individual and interactive impacts on NDVI in oasis-desert ecotone. Stochastic Environmental Research and Risk Assessment, 36(10), 3131–3148.

Doran, J. W. (2002). Soil health and global sustainability: Translating science into practice. Agriculture, Ecosystems and Environment, 88(2), 119–127.

Ebabu, K., Tsunekawa, A., Haregeweyn, N., Tsubo, M., Adgo, E., Fenta, A. A., Meshesha, D. T., Berihun, M. L., Sultan, D., Vanmaercke, M., Panagos, P., Borrelli, P., Langendoen, E. J., & Poesen, J. (2022). Global analysis of cover management and support practice factors that control soil erosion and conservation. International Soil and Water Conservation Research, 10(2), 161–176.

Feng, Q., Zhao, W., Ding, J., Fang, X., & Zhang, X. (2018). Estimation of the cover and management factor based on stratified coverage and remote sensing indices: A case study in the Loess Plateau of China. Journal of Soils and Sediments, 18(3), 775–790.

Gyssels, G., Poesen, J., Bochet, E., & Li, Y. (2005). Impact of plant roots on the resistance of soils to erosion by water: A review. Progress in Physical Geography: Earth and Environment, 29(2), 189–217.

Kerridge, B. L., Hornbuckle, J. W., Christen, E. W., & Faulkner, R. D. (2013). Using soil surface temperature to assess soil evaporation in a drip irrigated vineyard. Agricultural Water Management, 116, 128–141.

Kinnell, P. I. A. (2010). Event soil loss, runoff and the Universal Soil Loss Equation family of models: A review. Journal of Hydrology, 385, 384–397.

Kisic, I., Bogunovic, I., Birkás, M., Jurisic, A., & Spalevic, V. (2017). The role of tillage and crops on a soil loss of an arable Stagnic Luvisol. Archives of Agronomy and Soil Science, 63(3), 403–413.

Kouli, M., Soupios, P., & Vallianatos, F. (2009). Soil erosion prediction using the Revised Universal Soil Loss Equation (RUSLE) in a GIS framework, Chania, Northwestern Crete, Greece. Environmental Geology, 57(3), 483–497.

Kuhwald, M., Busche, F., Saggau, P., & Duttmann, R. (2022). Is soil loss due to crop harvesting the most disregarded soil erosion process? A review of harvest erosion. Soil and Tillage Research, 215, 105213.

Kunakh, O. M., Volkova, A. M., Tutova, G. F., & Zhukov, O. V. (2023). Diversity of diversity indices: Which diversity measure is better? Biosystems Diversity, 31(2), 131–146.

Kunakh, O. M., Yorkina, N. V., Zhukov, O. V., Turovtseva, N. M., Bredikhina, Y. L., & Logvina-Byk, T. A. (2020). Recreation and terrain effect on the spatial variation of the apparent soil electrical conductivity in an urban park. Biosystems Diversity, 28(1), 3–8.

Kunakh, O., & Zhukov, O. (2024). Spatial organization of the soil macrofauna community of an oak forest in the steppe zone of Ukraine. Studia Biologica, 18(3), 99–120.

Kunakh, O., Ivanko, I., Holoborodko, K., & Zhukov, O. (2024). A spontaneous spread of black locust (Robinia pseudoacacia L.): The importance of seed and vegetative reproduction. Folia Oecologica, 51(2), 120–135.

Lisovets, O., Khrystov, O., Kunakh, O., & Zhukov, O. (2024). Application of hemeroby and naturalness indicators for monitoring the aquatic macrophyte communities in protected areas. Biosystems Diversity, 32(2), 270–277.

Luvai, A., Obiero, J., & Omuto, C. (2022). Soil loss assessment using the revised universal soil loss equation (RUSLE) model. Applied and Environmental Soil Science, 2022(5), 2122554.

Martinez, A. de la I., & Labib, S. M. (2023). Demystifying normalized difference vegetation index (NDVI) for greenness exposure assessments and policy interventions in urban greening. Environmental Research, 220, 115155.

Molozhon, K. O., Lisovets, O. I., Kunakh, O. M., & Zhukov, O. V. (2023). Increased soil penetration resistance drives degrees of hemeroby in vegetation of urban parks. Biosystems Diversity, 31(4), 411–419.

Panagos, P., Borrelli, P., Meusburger, K., Alewell, C., Lugato, E., & Montanarella, L. (2015). Estimating the soil erosion cover-management factor at the European scale. Land Use Policy, 48, 38–50.

Pechanec, V., Mráz, A., Benc, A., & Cudlín, P. (2018). Analysis of spatiotemporal variability of C-factor derived from remote sensing data. Journal of Applied Remote Sensing, 12(1), 16022.

Pimentel, D., Harvey, C., Resosudarmo, P., Sinclair, K., Kurz, D., McNair, M., Crist, S., Shpritz, L., Fitton, L., Saffouri, R., & Blair, R. (1995). Environmental and economic costs of soil erosion and conservation benefits. Science, 267(5201), 1117–1123.

Pinson, A. O., & AuBuchon, J. S. (2023). A new method for calculating C factor when projecting future soil loss using the Revised Universal soil loss equation (RUSLE) in semi-arid environments. Catena, 226, 107067.

Rahman, E. L., Abd, M. A., Ali, R. R., Hussain, M. A., & El-Semey, M. A. (2009). Remote sensing and GIS based physiography and soils mapping of the Idku-Brullus Area, North Delta, Egypt. Egyptian Journal of Soil Science, 49(3), 409–432.

Renard, K. G., Foster, G. R., Weesies, G. A., & Porter, J. P. (1991). RUSLE: Revised Universal Soil Loss Equation. Soil and Water Conservation, 46, 30–33.

Renard, K., Foster, G., Weesies, G., McCool, D., & Yoder, D. (1997). Predicting soil erosion by water: A guide to conservation planning with the Revised Universal Soil Loss Equation (RUSLE). US Government Printing Office.

Ridolfi, L., D’Odorico, P., Porporato, A., & Rodriguez‐Iturbe, I. (2000). Impact of climate variability on the vegetation water stress. Journal of Geophysical Research: Atmospheres, 105(D14), 18013–18025.

Ruiz-Colmenero, M., Bienes, R., Eldridge, D. J., & Marques, M. J. (2013). Vegetation cover reduces erosion and enhances soil organic carbon in a vineyard in the Central Spain. Catena, 104, 153–160.

Schmidt, S., Alewell, C., & Meusburger, K. (2018). Mapping spatio-temporal dynamics of the cover and management factor (C-factor) for grasslands in Switzerland. Remote Sensing of Environment, 211, 89–104.

Sharma, S., Beslity, J. O., Rustad, L., Shelby, L. J., Manos, P. T., Khanal, P., Reinmann, A. B., & Khanal, C. (2024). Remote sensing and GIS in natural resource management: Comparing tools and emphasizing the importance of in-situ data. Remote Sensing, 16(22), 4161.

Suriyaprasita, M., & Shrestha, D. P. (2008). Deriving land use and canopy cover factor from remote sensing and field data in inaccessible mountainous terrain for use in soil erosion modeling. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 37, 1747–1750.

Tang, C., Liu, Y., Li, Z., Guo, L., Xu, A., & Zhao, J. (2021). Effectiveness of vegetation cover pattern on regulating soil erosion and runoff generation in red soil environment, Southern China. Ecological Indicators, 129, 107956.

Van der Knijff, J. M., Jones, R. J. A., & Montanarella, L. (2000). Soil erosion risk assessment in Europe. Office for Official publications of the European Communities. Pp. 34–35.

Wang, S., Nie, X., Ran, F., Liao, W., Yang, C., Xiao, T., Liu, Y., Liu, Y., & Li, Z. (2023). Human activities control the source of eroded organic carbon in lake sediments over the last 100 years: Evidence from stable isotope fingerprinting. Fundamental Research, 2023, in press.

Yakovenko, V., Kunakh, O., Tutova, H., & Zhukov, O. (2023). Diversity of soils in the Dnipro River valley (based on the example of the Dnipro-Orilsky Nature Reserve). Folia Oecologica, 50(2), 119–133.

Zelenova, V. O., Zelenov, P. V., & Tutova, G. F. (2024). Bioindication potentials of the grass stand and soil macrofauna for assessing the level of anthropogenic transformation of an urban park are complementary. Biosystems Diversity, 32(3), 306–313.

Zhou, P., Luukkanen, O., Tokola, T., & Nieminen, J. (2008). Effect of vegetation cover on soil erosion in a mountainous watershed. Catena, 75(3), 319–325.

Zhukov, O., Yorkina, N., Budakova, V., & Kunakh, O. (2022). Terrain and tree stand effect on the spatial variation of the soil penetration resistance in an Urban Park. International Journal of Environmental Studies, 79(3), 485–501.

Zymaroieva, A., Zhukov, O., Fedonyuk, T., & Pinkin, A. (2019). Application of geographically weighted principal components analysis based on soybean yield spatial variation for agro-ecological zoning of the territory. Agronomy Research, 17(6), 2460–2473.

Published
2025-01-04
How to Cite
Nykytiuk, Y., Kravchenko, O., Pitsil, A., Bambura, V., & Seredniak, D. (2025). Global climate change may reduce the anti-erosion regulatory capacity of vegetation cover in Ukraine’s Polissya and Forest-Steppe regions. Regulatory Mechanisms in Biosystems, 16(1), e25004. https://doi.org/10.15421/0225004
Issue
Vol 16 No 1 (2025): Regulatory Mechanisms in Biosystems
Section
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