Tytuł artykułu
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Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Wpływ zadrzewień na właściwości utleniania-redukcji i emisję gazów cieplarnianych z gleb
Języki publikacji
Abstrakty
The Typic Hapludalfs soils under two old shelterbelts (200 years old) Robinia pseudacacia and Crataegus monogyna, multi species of trees (young shelterbelt - 20 years old) and neighbouring cultivated fields were investigated. The function of shelterbelts of different age and plant composition in agricultural landscape and estimation of biochemical and chemical soil conditions for the decrease of greenhouse gases release from soil to the atmosphere was the aim of the research. In soils under shelterbelts were estimated activities of several enzymes participating in the oxidation-reduction processes, ferric and ferrous ions and the evolutions of gases like N2, N2O, CO2, and CH4. The soils under old shelterbelts characterized higher peroxidase activity than in young shelterbelt and adjoining cultivated fields. However, no significant differences were observed for nitrate reductase activity between old and young shelterbelts. There were proved differences between emission of N2O in soils under shelterbelts and in adjoining cultivated fields. Furthermore, it was observed significant effect of the young shelterbelt on the decrease of carbon dioxide release than in the adjoining cultivated field. The manipulation of the landscape through the introduction of shelterbelts of different age and the composition of plants leads to the modification of biogeochemical soil conditions for N2O and N2 formation and finally decrease of the greenhouse gases evolution from soils to the atmosphere. Thus the creation of new shelterbelts is favourable factor for agricultural landscape.
Czasopismo
Rocznik
Tom
Strony
643--658
Opis fizyczny
Bibliogr. 28 poz., wykr., tab.
Twórcy
autor
- Institute for Agricultural and Forest Environment, Polish Academy of Sciences, ul. Bukowska 19, 60-809 Poznań, Poland, phone +48 61 847 56 01, fax +48 61 847 36 68
autor
- Institute for Agricultural and Forest Environment, Polish Academy of Sciences, ul. Bukowska 19, 60-809 Poznań, Poland, phone +48 61 847 56 01, fax +48 61 847 36 68
autor
- Institute for Landscape Biogeochemistry, Leibniz Centre for Agricultural Landscape Research (ZALF), Eberswalder Strasse 84, D-15374 Münchenberg, Germany, phone (033432) 82-376, fax (033432) 82-343
autor
- Institute for Agricultural and Forest Environment, Polish Academy of Sciences, ul. Bukowska 19, 60-809 Poznań, Poland, phone +48 61 847 56 01, fax +48 61 847 36 68
Bibliografia
- [1] Szajdak LW, Gaca W. Nitrate reductase activity in soil under shelterbelt and an adjoining cultivated field. Chem Ecol. 2010;26:123-134. DOI: 10.1080/02757540.2010.501028.
- [2] Ryszkowski L, Kędziora A. Modification of water flows and nitrogen fluxes by shelterbelts. Ecol Eng. 2007;29:388-400. DOI: 10.1016/j.ecoleng.2006.09.023.
- [3] Recommendation No. R(94)6 of the Committee of Ministers to Member States for Sustainable Development and use of the Countryside with the Particular Focus on the Safeguarding of Wildlife and Landscapes (1994). Council of Europe Committee of Ministers. https://rm.coe.int/16804c1bdf.
- [4] Pedersen HD, Postma D, Jakobsen R, Larsen O. Fast transformation of iron oxyhydroxides by the catalytic action of aqueous Fe(II). Geochim Cosmochim Acta. 2005;69:3967-3977. DOI: 10.1016/j.gca.2005.03.016.
- [5] Bateman EJ, Baggs EM. Contributions of nitrification and denitrification to N2O emissions from soils at different water-filled pore space. Biol Fertil Soils. 2005;41:379-388. DOI: 10.1007/s00374-005-0858-3.
- [6] Marszałek M, Kowalski Z, Makara A. Emission of greenhouse gases and odorants from pig slurry - effect on the environment and methods of its reduction. Ecol Chem Eng S. 2018;25(3):383-394. DOI: 10.1515/eces-2018-0026.
- [7] Szajdak L, Gaca W, Karg M. Impact of the age of shelterbelts and the composition of plants on the dissimilatory nitrate reductase activity in soils. Pol J Soil Sci. 2005;38:135-144. http://www.pjss.org/artykuly/pjss/Polish_Journal_of_Soil_Science_2005_38_2_135.pdf.
- [8] Malinowski M, Wolny-Koładka K. Microbiological and energetic assessment of the effects of the biodrying of fuel produced from waste. Ecol Chem Eng S. 2017;24(4):551-564. DOI: 10.1515/eces-2017-0036.
- [9] Khalil MI, Baggs EM. CH4 oxidation and N2O emissions at varied soil water-filled pore spaces and headspace CH4 concentrations. Soil Biol Biochem. 2005;37:1785-1794. DOI: 10.1016/j.soilbio.2005.02.012.
- [10] Das SK, Varma A. Role of enzymes in maintaining soil health. In: Shukla G, Varma A, editors. Soil Enzymology, Soil Biology 22. Berlin Heidelberg: Springer-Verlag; 2011. DOI: 10.1007/978-3-642-14225-3_2.
- [11] Singh DK, Kumar S. Nitrate reductase arginine deaminase, urease and dehydrogenase activities in natural soil (ridges with forest) and in cotton soil after acetamipirid treatments. Chemosphere. 2008;71:412-418. DOI: 10.1016/j.chemosphere.2007.11.005.
- [12] Kool DM, Dolfing J, Wrage N, Van Groenigen JW. Nitrifier denitrification as a distinct and significant source of nitrous oxide from soil. Soil Biol Biochem. 2011;43:174-178. DOI: 10.1016/j.soilbio.2010.09.030.
- [13] Dec J, Haider K, Bollag JM. Release of substituents from phenolic compounds during oxidative coupling reactions. Chemosphere. 2003;52:549-556. DOI: 10.1016/S0045-6535(03)00236-4.
- [14] Smolander A, Kitunen V. Soil microbial activities and characteristics of dissolved organic C and N in relation to tree species. Soil Biol Biochem. 2002;34:651-660. DOI: 10.1016/S0038-0717(01)00227-9.
- [15] Meysner T, Szajdak LW. Impact of a forest island and Robinia pseudoacacia afforestation on peroxidase activity and iron ions in soils. In: Szajdak LW, Karabanov AK, editors. Physical, Chemical and Biochemical Processes in Soils. Poznań: Prodruk; 2010. ISBN: 9788361607564.
- [16] Butterbach-Bahl K, Willibald G, Papen H. Plant Soil. 2002;240:105-116. DOI: 10.1023/A:1015870518723.
- [17] Šimek M, Jíšová L, Hopkins DW. Soil Biol Biochem. 2002;34:1227-1234. DOI: 10.1016/S0038-0717(02)00059-7.
- [18] Partyka T, Hamkalo Z. Estimation of oxidizing ability of organic matter of forest and arable soil. Zemdirbyste. 2010;97:33-40.
- [19] Périé C, Ouimet R. Organic carbon, organic matter and bulk density relationships in boreal forest soils. Can J Soil Sci. 2008;88:315-325. DOI: 10.4141/CJSS06008.
- [20] Grybos M, Davranche M, Gruau G, Petitjean P. Is trace metal release in wetland soils controlled by organic matter mobility or Fe-oxyhydroxides reduction? J Colloid Interface Sci. 2007;314:490-501. DOI: 10.1016/j.jcis.2007.04.062.
- [21] Tian L, Shi W. Soil peroxidase regulates organic matter decomposition through improving the accessibility of reducing sugars and amino acids. Biol Fertil Soils. 2014.50: 785-794. DOI: 10.1007/s00374-014-0903-1.
- [22] Askin T, Kizilkaya R. Soil basal respiration and dehydrogenase activity of aggregates: a study in a toposequence of pasture soils. Zemdirbyste. 2009;96:98-112.
- [23] Kesik M, Ambus P, Baritz R, Bruggemann N, Butterbach-Bahl K, Damm M, et al. Inventories of N2O and NO emissions from European forest soils. Biogeosciences. 2005;2:353-375. DOI: 10.5194/bg-2-353-2005.
- [24] Abbasi MK, Adams WA. Gaseous N emission during simultaneous nitrification-denitrification associated with mineral N fertilization to a grassland under field conditions. Soil Biol Biochem. 2000;32:1251-1259. DOI: 10.1016/S0038-0717(00)00042-0.
- [25] Ullah S, Breitenbeck GA, Faulkner SP. Denitrification and N2O emission from forested and cultivated alluvial clay soil. Biogeochemistry. 2005;73:499-513. DOI: 10.1007/s10533-004-1565-0.
- [26] Luyssaert S, Schulze ED, Börner A, Knohl A, Hessenmöller D, Law BE, et al. Old-growth forests as global carbon sinks. Nature. 2008;455:213-215. DOI: 10.1038/nature07276.
- [27] Maryganowa V, Szajdak LW, Tychinskaya L. Hydrophobic and hydrophilic properties of humic acids from soils under shelterbelts of different ages. Chem Ecol. 2010;26(4):25-33. DOI: 10.1080/02757540.2010.501138.
- [28] Szajdak LW, Maryganova V, Skakovskii E, Tychinskaya L. Transformations of organic matter in soils under shelterbelts of different ages in agricultural landscape. In: Szajdak LW, editor. Bioactive Compounds in Agricultural Soils. Switzerland: Springer International Publishing AG; 2016. ISBN: 9783319431062, DOI: 10.1007/978-3-319-43107-9_9.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b2cbd973-a943-4c8b-92ba-8b44c8c3df34