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مقایسه برخی عوامل بومشناختی مؤثر در انتشار گونههای Dactylis glomerata L. و Thymus kotschyanus Boiss and Hohen. در جنوب استان اردبیل | ||
نشریه علمی - پژوهشی مرتع و آبخیزداری | ||
مقاله 15، دوره 70، شماره 2، مرداد 1396، صفحه 449-464 اصل مقاله (903.98 K) | ||
نوع مقاله: مقاله پژوهشی | ||
شناسه دیجیتال (DOI): 10.22059/jrwm.2017.222256.1077 | ||
نویسندگان | ||
اردوان قربانی* 1؛ اردشیر پورنعمتی2؛ زهره سادات قاسمی3؛ علی اکبر شکوهیان4 | ||
1دانشیار گروه مرتع و آبخیزداری، دانشگاه محقق اردبیلی، اردبیل، ایران. | ||
2دانشجوی دکترای علوم مرتع، گروه مرتعداری، دانشگاه علوم کشاورزی و منابع طبیعی گرگان، ایران. | ||
3دانش آموختۀ کارشناسی ارشد مرتعداری، دانشگاه محقق اردبیلی، اردبیل، ایران. | ||
4استادیار گروه علوم باغبانی، دانشگاه محقق اردبیلی، اردبیل، ایران. | ||
چکیده | ||
هدف این تحقیق شناخت عوامل محیطی مؤثر بر پراکنش دو گونه Dactylis glomerata و Thymus kotschyanus در مراتع شهرستانهای خلخال و کوثر در بخش جنوبی استان اردبیل بوده است. از 111 مکان تعیین شده با استفاده از 5 پلات 1 متر مربعی در طول ترانسکت 40 متری به روش تصادفی- سیستماتیک نمونهبرداری انجام شد. در تمامی مکانها پارامترهای سطحی مرتع شامل درصد سنگ و سنگریزه، خاک لخت، لاشبرگ، و تراکم گونههای مورد مطالعهثبت شد. نمونهبرداری خاک از عمق 30 سانتیمتری خاک در هر ترانسکت انجام شد. خصوصیات خاک شامل اسیدیته، کربن آلی، پتاسیم، فسفر، هدایت الکتریکی، درصد شن، رس و سیلت اندازهگیری شد. برای بررسی تفاوت معنیداری بین اثرات عوامل محیطی بر حضور و عدم حضور گونههای مورد مطالعه، تجزیه واریانس یکطرفه انجام شد. برای مقایسه میانگین خصوصیات اندازهگیری شده از آزمون دانکن استفاده شد. برای تعیین درجۀ اهمیت متغیرهای اندازهگیری شده در پراکنش گونههای مورد مطالعه و تأیید گروهبندی مکانهای نمونهبرداری، از آنالیز تشخیص کانونیک استفاده شد. نتایج حاصل از تجزیه واریانس نشان داد که از لحاظ ارتفاع، شیب، دما، بارندگی، سنگ و سنگریزه، لاشبرگ، هدایت الکتریکی تفاوت معنیداری بین حضور و عدم حضور گونهها وجود دارد (01/0P<). گونۀ D.glomerataدر جهت شمالی و در سطوح با شیب، لاشبرگ، رس و مادۀ آلی بیشتر و گونۀ T.kotschyanus در دامنه غربی و در سطوح با شن، سنگ و سنگریزه و سیلت بیشتر رشد بهتری دارد. با توجه به نتایج حاصل از آنالیز تشخیص کانونیک، دو تابع به ترتیب 8/77 و 2/22 درصد و در مجموع 100 درصد از واریانس کل دادهها را توجیه کردند و به طور کلی 4/94 درصد موارد گروهبندی شده، بهدرستی طبقهبندی شدند. در کل نتایج تجزیه تشخیص کانونیک نشان داد که هدایت الکتریکی، لاشبرگ، بارندگی، دما و ارتفاع و همچنین خصوصیات مربوط به خاک مانند پتاسیم، سیلت و خاک لخت مهمترین عوامل مؤثر در پراکنش گونههای مورد مطالعه هستند. با توجه به نتایج میتوان در پیشنهاد این گونهها برای مدیریت، اصلاح و احیاء مراتع به طور مناسبتری تصمیمگیری نمود. | ||
کلیدواژهها | ||
عوامل محیطی؛ پراکنش گونه؛ آنالیز تشخیص کانونیک؛ خلخال؛ کوثر؛ Dactylis glomerata؛ Thymus kotschyanus | ||
عنوان مقاله [English] | ||
Comparison of some effective environmental factors on distribution of Dactylis glomerata L. and Thymus kotschyanus Boiss and Hohen. in South of Ardabil province | ||
نویسندگان [English] | ||
ardavan ghorbani1؛ ardeshir pour nematy2؛ zohreh sadat ghasemi3؛ aliakbar shokuhian4 | ||
چکیده [English] | ||
The aim of this study was identifying the effects of environmental factors on the distribution ofDactylisglomerataand Thymus kotschyanusin rangelands of Khalkhal and Kosar counties in the southern part of Ardabil province. From 111 selected sites, random systematic sampling was done using five 1m2 plots along a 40 m transect. In all sites, land cover parameters including stone and gravel percentage, bare soil, litter, and density of selected species were recorded. Soil samples were taken from the 0 to 30 cm of soil surface of each transect. Soil parameters including pH, organic carbon, potassium, phosphorus, electrical conductivity, Sand, Clay, and Silt were measured. One way ANOVA was used to study the significance of relationship between the effective environmental factors on the presence and absence of the selected species.Duncan's test was used to compare the measured factors.To determine the importance of measured variables on the distribution of selected species and grouping of sampling sites, canonical discriminant analysis was used. Results showed that variables of elevation, slope, temperature, rainfall, stone, gravel, litter, electrical conductivity are significantly different when species exist in contrast to the time that it does not exist (p<0.01). D. glomerata is mostly distributed on north aspect, and on sloppy areas, and the areas with the high litter, clay and organic matter, and T. kotschyanus is mostly distributed on west aspect, and on the areas with the high amount of sand, stone and gravel, and silt that create a good condition for the growth of this species. According to the results of canonical discriminant analysis, two functions with 77.8 and 22.2% and they explained totally 100% of the variance of data, and generally 94/4% of grouped cases, were correctly classified. Overall, the results of canonical discriminant analysis show that electrical conductivity, litter, precipitation, temperature, elevation, potassium, silt and bare soil are the most important variables in the distribution of D. glomerata and T. kotschyanus. Considering these results, better decisions can be made about management, restoration, and reclamation of rangelands. | ||
کلیدواژهها [English] | ||
environmental factors, Species Distribution, Discriminant Analysis, Khalkhal, Kosar, Dactylisglomerata, Thymus kotschyanus | ||
مراجع | ||
[1] Abd El-Ghani, M. (2003). Soil-vegetation relationships in a coastal desert plain of southern Sinai Egypt. Journal of Arid Environment, 55, 607-628. [2] Abd El-Ghani, M., Soliman, A. and Abd El-Fattahr, R. (2014). Spatial distribution and soil characteristics of the vegetation associated with common succulent plants in Egypt. Turkish Journal of Botany, 38, 550-565. [3] Asri, Y. (2012). Range Plants of Iran, Vol 1. Monocotyledons, Research Institute of Forests and Rangelands, 573Pp. [4] Asri, Y. (2012). Range Plants of Iran, Vol 2. Dicotyledons, Research Institute of Forests and Rangelands, 1107Pp. [5] Austin, M. (2007). Species distribution models and ecological theory: A critical assessment and some possible new approaches, Ecological Modelling, 200, 1–19. [6] Babalar, M., Khoshsohkan, F., Fatahi Moghadam, M.R. and Pourmeidani, A. (2013). Evaluation of morphological diversity and essential oils in some populations (Thymus kotschyanus Boiss. & Hohen). Iranian Journal of Horticultural Science, 44(2), 119-128. [7] Beers, T. W., Dress, P. E. and Wensel, L.C. (1966). Aspect transformation in productivity research. Journal of Forestry, 64, 691-692. [8] Bor, N.L. (1970). Gramineae. In: Reschinger. KH, (Ed.), Flora Iranica No. 70, Akademische, Druck. Verlagsanstalt, Graz, Austria, 646Pp. [9] Bretagnolle, F. and Thompson, J.D. (2001). Phenotypic plasticity in sympatric diploid and autotetraploid (Dactylis glomerata). International Journal of Plant Science, 162, 309-316. [10] Cimalova´, S. and Lososova, Z. (2009). Arable weed vegetation of the northeastern part of the Czech Republic: effects of environmental factors on species composition. Plant Ecology, 203, 45–57. [11] El-Sheikh, A.M. and Youssef, M.M. (1981). Halophytic and xerophytes vegetation near Al-Kharj springs. Journal of College of Science. University of Riyadh, 12, 5–21. [12] Fahimipour, E., Chahuki, M.A.Z. and Tavili, A. (2010). Investigation on some environmental factors influencing distribution of plant species (Case study: Taleghan rangeland). Iranian Journal of Rangeland, 13(1), 23-32. [13] Farajollahi, A., M.A., Zare Chahouki, H., Azarnivand, R., Yari and Gholinejad, B. (2012). The effects of environmental factors on distribution of plant communities in rangelands of Bijar protected region. Iranian Journal of Range and Desert Research, 19(1), 108-119. [14] Fattahi, B., Agha Beigi, S., Ayldrmy, A.R., Maleki, M., Hasani J. and Sabet Pour, T. (2009). Environmental [15] Franklin, J. and Miller, J. A. (2009). Mapping species distributions: spatial inference and prediction, Cambridge University Press, New York, 340Pp. [16] Gavili Kilaneh, E. and Vahabi, M.R. (2012). The effect of some soil characteristics on range vegetation distribution in central Zagros. Iranian Journal of Science and Technology, 16(59), 245- 258. [17] Ghasemi, Z. S. (2011). Assessment of the effects of environmental changes such as climate and topographic on spatial distribution patterns of rangeland species Dactylis glomerata L. and Thymus kotschyanus Boiss and Hohen. in Khalkhal and Kowsar counties, Ardabil province. MSc thesis, University of Mohaghegh Ardabili, 119Pp. [18] Ghorbani, A. and Asghari, A. (2014). Study the influence of ecological factors on Festuca ovina distribution in southeast rangelands of Sabalan. Journal of Range and Desert Research, 21(2), 368-381. [19] Ghorbani, A., Abbasi Khalaki, M., Asghari, A., Omidi, A. and Zare Hesari, B. (2015). Comparison of some effective environmental factors on the distribution of Artemisia fragrans and Artemisia austriaca in southeast faced slopes of Sabalan. Iranian Journal of Rangeland, 9(2), 129-141. [20] Ghorbani, A., Mirzaei Mossivand, A. and Esmali Ouri, A. (2012). Utility of the normalized difference vegetation index (NDVI) for land/canopy cover mapping in Khalkhal County (Iran). Annals of Biological Research, 3(12), 5494-5503. [21] Guisan, A. and Zimmermann, N.E. (2000). Predictive habitat distribution models in ecology. Ecological Modeling, 135, 147-186. [22] Gurgin Karaji, M., Karami, P., Shokri M. and Safaeian, N. (2006). Investigation relationship between some [23] Holechek, J.L., Pieper, R.D. and Herbel, C.H. (2004). Range management: Principles and Practices. Fifth ed. Upper Saddle River, NJ: Prentice-Hall. 607Pp. [24] Jacek, S., Kazimierz, J., Piotr, D., Dorota, H., Justyna K. and Alex, M. (2015). Relative feed value of different varieties of Dactylis glomerata and Festuca pratensis, Journal of Life Sciences, 9, 443-448. [25] Jafari, M., Zare Chahouki, M.A., Tavili A. and Kohandel, A. (2006). Relationship between soil and vegetation in rangelands of Qom province. Journal of Watershed Management Research, 73, 110-116. [26] Jafarian, Z., Arzani, H., Jafari, M., Zahedi, Gh. and Azarnivand, H. (2010). Application of discriminate analysis for determination relationship between distribution of plant species with environmental factors and satellite [27] Jafari Haghighi, M. (2003). Methods of Soil Analysis. Neday Zoha Press, 236 pp. [28] Kalburtji, K. L., Mamolos, A. P. and Kostopoulou, S. K. (1998). Litter dynamics of Dactylis glomerata and Vicia villosa with respect to climatic and soil characteristics, Grass and Forage Science, 53, 225-232. [29] Khademolhosseini, Z., Shokri, M. and Habibian, Sh. (2007). Effects of topographic and climatic factors on vegetation distribution in Arsanjan shrublands (case study: Bonab watershed). Iranian Journal of Rangeland, 3(1), 222-236. [30] Lavergne, S., Garnier, E. and Debussche, M. (2003). Do rock endemic and widespread plant species differ under the leaf-height seed plant ecology strategy scheme. Ecology Letters, 6, 398-404. [31] Mirdeylami, S.Z., Heshmati, Gh., Barani H. and Hemmatzade, Y. (2011). Environmental factors affecting ecological sites distribution of Kachik rangeland, Marave Tapeh. Iranian Journal of Range and Desert Research. 19(2), 333-343. [32] Mobin, P. (1980). Flora of Iranian Herb. Vascular Plants, Volume I, Tehran University Press. [33] Moghimi, J. (2005). Introduction of some important range species (suitable for development and improvement of Iran ranges). Ministry of Jahad Agriculture. Forest, Rangeland and Watershed Organization, Tehran, 672Pp. [34] Mohsennezhad, M., Shokri, M., Zali, H. and Jafarian, Z. (2010). The effects of soil properties and physiographic factors on plant community’s distribution (Case study: Behrestagh Rangeland, Haraz). Iranian Journal of Rangeland, 4(2), 262-275. [35] Nunes, GKN. and Santos, SB. (2012). Environmental factors affecting the distribution of land snails in the Atlantic Rain Forest of Ilha Grande, Angra dos Reis, RJ, Brazil. Brazilian Journal of Biology, 72(1), 79-86. [36] Ozkan, K., Gulsoy, S., Aerts R. and Muys, B. (2010). Site properties Crimean Juniper (Juniperus excelsa) in semiarid forests of southwestern Anatolia Turkey. Journal of Environmental Biology, 31, 97-100. [37] Pourfathi, M., Erfanzadeh, R. and Ghelichnia, H. (2010). Effects of altitude and some soil properties on distribution of Artemisia fragrans (Case study: Halichal, Amol). Iranian Journal of Rangeland, 4, 530-540. [38] Razghandi, E. (2011). Mapping the distribution of Juniperus and Pistacia species on Khalkhal County using remote sensing and GIS. M.Sc. thesis, University of Mohaghegh Ardabili, 143Pp. [39] Rechinger KH. (1982). Labiatae In: Flora Iranica, No. 150, Akademische Druch-u. Verlagsanstat, Austria, 600Pp. [40] Sanderson, M.A., Skinnerand, R.H. and Elwinger, G.F. (2002). Seedling development and field [41] Sefidkon, F. and Askari, F. (2002). Essential oil composition of five Thymus species. Iranian Journal of Medicinal and Aromatic Plants Research, 12, 29 -51. [42] Schimel, D.S, Stillwell, M.A. and Woodmansee, R.G. (1985). Biogeochemistry of C, N and P in a soil catena of the short grass steppe. Ecology, 66, 276-282. [43] Shokrollahi, SH., Moradi, H. R. and Dianati Tilaki, GH.A. (2012). A survey of some environmental factors affecting on distribution of Agropyron cristatum (Case study: Polur summer rangelands, Mazandaran province). Journal of Watershed Management Research, 97, 111-119. [44] Zare Chahouki, M.A. (2006). Modeling the spatial distribution of plant species in arid and semi-arid rangelands. Ph.D Thesis, in Range Management, Faculty of Natural Resources, University of Tehran, 180Pp. [45] Zare Chahouki, M.A. and Abasi, M. (2016). Habitat suitability modeling for Thymus kotschyanus Boiss. & Hohen. Using ecological-niche factor analysis (case study: rangeland of middle Taleghan), Iranian Journal of Medicinal and Aromatic Plants, 32(4), 561-573. [46] Zare Chahouki, M.A. and Shafizade, M. (2008). Environmental effective factors on distribution of arid plants (Case study: Chahbyki region of Yazd province). Iranian Journal of Range and Desert Research, 15(3), 403-414. [47] Zareh Hesari, B., Ghorbani, A., Azimi Motam, F., Hashmi Majd, K. and Asghari, A. (2014). Study the effective ecological factors on distribution of Artemisia fragrans in southeast faced slopes of Sabalan. Iranian Journal of Rangeland, 8(3), 38-250. [48] Zho, M., Hastie, T.J. and Walther, G. (2005). Constrained ordination analysis with flexible response function. Ecological Modeling, 187, 524-536. [49] Zimmermann, N. E., Edwards Jr. T.C., Graham, C. H., Pearman, P. B. and Svenning, J. (2010). New trends in species distribution modelling, Ecography, 33, 985-989. | ||
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