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The influence of soil quality on the vitality of Trifolium pratense L. cenopopulations in the subzone of deciduous forests of Tatarstan, Russia | ||
| Caspian Journal of Environmental Sciences | ||
| دوره 18، شماره 5، اسفند 2020، صفحه 411-419 اصل مقاله (538.04 K) | ||
| نوع مقاله: Research Paper | ||
| شناسه دیجیتال (DOI): 10.22124/cjes.2020.4466 | ||
| نویسندگان | ||
| Galina Vladimirovna Demina* ؛ Nina Borisovna Prokhorenko؛ Luisa Ravilevna Kadyrova | ||
| Department of Botany and Plant Physiology, Institute of Fundamental Medicine and Biology, Kazan Federal University, Kazan, Russia | ||
| چکیده | ||
| The study of plant vitality is one of the important methods in population research. Trifolium pratense L. is a typical representative of meadow herbs that have medicinal value. It is one of the most ubiquitous species of natural flora in the subzone of deciduous forests in Tatarstan, Russia. Various morphometric indicators reflecting the level of plant development, such as dry biomass of aerial parts, the height of plants, and the number of generative sprouts, were used in this study, ensuring sufficiently informative analysis of the vitality of the studied cenopopulations. The quality of soil on which the plants grow has a significant impact on their development. Therefore, the agrochemical analysis of soils which are the habitats of the studied cenopopulations was carried out. Сenopopulation vitality index (CVI) and soil quality index (SQI) were proposed and used with the aim to determine the dependence of the vitality of T. pratense cenopopulations on the soil quality in their habitats. It was found that for the calculation of SQI, it was necessary to consider the contribution of each of the soil quality indicators: total humus content, pH of salt extract, and the content of mineral elements. The proposed algorithm for the determination of weighting coefficients is based on the analysis of the distribution of linear correlation coefficients between SQI and CVI samples. The revealed interrelations between the indicators of soil quality and the vitality of populations allow their use for the targeted selection of the most favorable soils and large-scale cultivation of T. pratense on agricultural lands. | ||
| کلیدواژهها | ||
| Trifolium pratense L؛ Cenopopulation؛ Vitality؛ Soil؛ Quality؛ Index | ||
| مراجع | ||
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Bastida, F et al. 2008, Past, present and future of soil quality indices: a biological perspective. Geoderma, 147: 159-171.
Cambi, M, Hoshika, Y, Mariotti, B, Paoletti, E, Picchio, R, Venanzi, R & Marchi, E 2017, Compaction by a forest machine affects soil quality and Quercus robur L. seedling performance in an experimental field. Forest Ecology and Management, 384: 406-414.
Chekmarev, PA, Lukmanov, AA, Davlyatshin, ID 2015, Guidebook for the agricultural chemist of the Republic of Tatarstan: 322 p. [In Russian].
Ehsanpour, E, Abdi, MR, Mostajaboddavati, M & Bagheri, H 2015, Monitoring the concentration of 238U, 232Th, 40K and 137Cs of soil in Anarak-Khour district, Central Iran, Caspian Journal of Environmental Sciences, 13: 247-257
Golub, VB, Sorokin, AN, Grechushkina, NA 2012, Descriptions of new associations and sub-associations with limited alteration of floristic composition. The vegetation of Russia, 21: 124-134. [In Russian].
Ishbirdin, AR, Ishmuratova, MM, Zhyrnova, TV 2005, Life strategies of cenopopulation Cephalanthera rubra (L.) Rich. on the territory of the Bashkir State Reserve. The journal "Vestnik of Lobachevsky University of Nizhni Novgorod". Series: Biology, 1: 85-98 [In Russian].
Kovalenko, I et al. 2019, Vitality Structure of the Populations of Vegetative Motile Plants of Forest Ecosystems of the North-East of Ukraine. The Open Agriculture Journal, 13(1).
Kozlov, MV, Zvereva, EL, Zverev, VE 2009, Plant growth and vitality. Impacts of point polluters on terrestrial biota. – Springer, Dordrecht, pp. 133-195.
Liu, Y, Zhu, G, Hai, X, Li, J, Shangguan, Z, Peng, C & Deng, L 2020, Long-term forest succession improves plant diversity and soil quality but not significantly increase soil microbial diversity: Evidence from the Loess Plateau. Ecological Engineering, 142: 105631.
Magomedova, NA, Adjieva, AI 2017, Comparative analysis of the morphometric signs variability and vitality of two Jurinea ciscaucasica (Sosn.) Iljin coenopopulations. Arid Ecosystems, 7: 121-124.
Polláková, N, Šimanský, V & Kravka, M 2018, The influence of soil organic matter fractions on aggregates stabilization in agricultural and forest soils of selected Slovak and Czech hilly lands. Journal of Soils and Sediments, 18: 2790-2800.
Posypanov, GS, Dolgodvorov, VE, Zherukov, BKh, Gataulina, GG, et al. 2006, Plant production. Moscow, Russia, KolosS, - 612 p. [In Russian].
Rasouli-Sadaghiani, M.H., Barin, M., Moghaddam, S.S., Damalas, C.A. and Ghodrat, K., 2018. Soil quality of an Iranian forest ecosystem after conversion to various types of land use. Environmental Monitoring and Assessment, 190: 447.
Rodríguez, E. et al. 2016, Dynamic quality index for agricultural soils based on fuzzy logic. Ecological Indicators, 60: 678-692.
Rozhkov, VA 2014, Experience in elaborating the national system for estimating the land suitability. Dokuchaev Soil Bulletin, 76: 33-51 [In Russian].
Rysin, LP, Kazantseva, TN 1975, The method of cenopopulation analysis in geobotanical studies. Botanical Journal, 60: 199-209 [In Russian].
Sharifi, A, Amini, J & Pourshakour, F 2016, development of an allometric model to estimate above-ground biomass of forests using MLPNN algorithm, case study: Hyrcanian forests of Iran, Caspian Journal of Environmental Sciences, 14: 125-137
Wienhold, BJ, Andrews, SS, Karlen, DL 2004, Soil quality: a review of the science and experiences in the USA. Environmental Geochemistry and Health, 26: 89-95.
Zaugolnova, LB, Zhukova, LA, Komarov, AS, et al. 1988, Cenopopulations of plants (population biology essays). Moscow, Nauka, 184 p. [In Russian].
Zent, S, Maffi, L 2009, Final report on indicator No. 2: A methodology for developing a vitality index of traditional environmental knowledge (VITEK). Global Indicators of the Status and Trends of Linguistic Diversity and Traditional Knowledge. VITEK Report. | ||
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