DIGITALNA ARHIVA ŠUMARSKOG LISTA
prilagođeno pretraživanje po punom tekstu
| ŠUMARSKI LIST 9-10/2021 str. 49 <-- 49 --> PDF |
section area. To the contrary, increase in 30% or more of β / γ gley share increases the productivity. Plantations of Populus x euramericana I-214 on the two or more soil systematic units in a section larger than 1 hectare are concentrated in the FMU (Figure 12). The spatial pattern in relatively small space enables spatial separation of the soils. The separation would enable optimization of the land use. On the FMU surface differentiation of eugley soils to α, β and β/γ gley would be carried out. A special category would be represented in humogley. Optimizing the land use would result in reasonable substitution of tree species or its cultivars, heading to an increase in production characteristics in the researched area. Potential stable and vital species are represented as pedunculated oak on researched area on humogley and shallower systematic units of eugley soils. Increasing in the production characteristics would improve more easily fulfillment of other forest functions/services as reducing the pressure of natural forests and climate change mitigation (Sheng 2008, Zalesny et al., 2012). CONCLUSIONS ZAKLJUČCI Site conditions in FMU “Muzljanski rit” are heterogeneous and it was necessary to investigate the productivity of Poplar x euramericana I-214 plantations. Increase of α and β gley and humogley in soil mixture indicate a decrease in productivity of Populus x euramericana I-214 plantation. Decrease of productivity in Populus x euramericana I-214 plantations are observed on α gley with 10%, and the β gley with 20% of share. Increasing participation of β/γ gley causes increase of plantation (share more than 30%) and it was a slightly positive correlation (r2 0.3745). Although this correlation is statistically weak, in terms of studying the properties of the soil is an important value - because productivity analysis was performed based on the average volume. Optimizing the land use would result in reasonable substitution of tree species or its cultivars, heading to an increase in production characteristics in the researched area. Increasing in the production characteristics would improve more easily fulfillment of other forest functions/services. ACKNOWLEDGEMENT ZAHVALA This paper financed by the Ministry of Education, Science and Technological Development of the Republic of Serbia, Project No. 451-03-9/2021-14/ 200197. Especially thanks for reviewers suggestions in revision process of this paper. REFERENCES LITERATURA Anić, I., S. Mikac, M. Ognjenović, 2018. Izbor vrsta drveća za supstituciju nasada topola uz rijeku Dravu kod Osijeka (In Croatian). Šumarski list, 1–2: 7–18 Bradley Pinno, D., R. T. Barb, N. Bélanger, 2010: Predicting the productivity of a young hybrid poplar clone under intensive plantation management in northern Alberta, Canada using soil and site characteristics. New Forests. vol. 39, p. 89-103 De Mers M. N., 2005: Fundamentals of Geographic Information Systems. 3rd ed. Wiley, New York Galić, Z., 2010: Properties of fluvisol and humofluvisol in defended part of floods of alluvial zone in middle Danube. SEEFOR, vol 1. No. 1 p. 4-8 Galić, Z., S. Orlović, V. Vasić, V. Galović, B. Klašnja, D. Stojanović, V. Babić, 2011: Phytocoenological characteristics in poplar plantations in the protected region of the central Danube basin. Arch. Biol. Sci., vol. 63, p. 811-817 Galić, Z., R. Ponjarac, A. Kiš, Z. Novčić, S. Vasić (2017): Tipovi šuma u GJ Mužljanski rit. Topola (in Serbian) 199/200, str. 35-43 Galić, Z., R. Ponjarac, A. Kiš, Z. Novčić, 2016: Soil types in the management unit Muzljanski rit in PE “Vojvodinasume”, Serbia. VII scientific agriculture symposium. Book of abstracts p. 1203. Jahorina, Bosna i Hercegovina. ISBN 978-99976-632-6-9 Galić, Z., Z. Novčić, R. Ponjarac, A. Kiš, V. Vasić., S. Vasić, 2018: Proizvodnost bagrema u GJ Muzljanski rit. Topola (in Serbian), vol. 201/202, p. 7-14 Galić, Z., R. Ponjarac, M. Samardžić, Z. Novčić, A. Kiš, 2019: Rasprostranjenost i proizvodne karakteristike zemljišta u GJ „Kolut-Kozara“ (in Serbian). Topola, vol. 204, p. 71-78 Galić, Z., M. Samardžić, R. Ponjarac, A. Kiš 2020a: Uticaj osobina zemljišta na uzgoj topola u GJ GVO na području Ravnog Srema (in Serbian). Šumarstvo, vol. 1-2, 45-52 Galić, Z.., R. Ponjarac, M. Samardžić, A. Kiš 2020b: Rasprostranjenost sistematskih jedinica zemlјišta u G.J. „Kamarište“ na području Bačke (in Serbian). Šumarstvo, vol. 1-2, p. 71-81 FAO: World reference base for soil resources, 2014: International soil classification system for naming soils and creating legends for soil maps, p. 1-192 Ferré, C., R. Comolli,, A. Leip, G. Seufert, 2014: Forest conversion to poplar plantation in a Lombardy floodplain (Italy): effects on soil organic carbon stock. Biogeosciences, vol. 11, p. 6483–6493 Fuhrer, E., K. Redei, B. Toth, 2009: Ultetvenyszeru fatermesztes (in Hungarian). Mezogazda kiado, p. 1-244 Hassan R., R. Scholes, N. Ash, 2005: Ecosystems and Human Well-being: Current State and Trends. The millennium ecosystem assessment series, vol. 1, p. 585 – 614 (https://eunis.eea.europa.eu/habitats.jsp) Ivanišević, P, Z. Galić, S. Pekeč, S. Rončević, S. Andrašev, 2010: Zavisnost strukture drvnih sortimenata topola na kraju proizvodnog ciklusa od svojstava zemljista i tehnologije gajenja (in Serbian). Topola/Poplar, vol. 185/86, p. 98 – 113 Klašnja, B., S. Orlovic, Z. Galic, M. Drekic, V. Vasic, 2008: Poplar biomass of high density short rotation plantations as raw material for energy production. Wood Research, vol. 53, p. 27-38 Klašnja, B., S. Orlović, Z. Galić, 2012: Energy potential of poplar plantations in two spacing and two rotations. Šumarski list, vol 3-4, p. 161-167 |