Evalution of Crops Biodiversity in Kermanshah Province During 2003-2012

Document Type : Research Article

Authors

Razi University

Abstract

Ecological functions of ecosystems are highly related to biodiversity at different levels. Nevertheless, ecological roles of biodiversity and its benefits are less considered in agroecosystems. Therefore, the aim of present study was to assess crops biodiversity in Kermanshah province. Data including crops and their cultivated area were collected from Ministry of Agriculture of Iran during 2003-2012. After data collection, some of important biodiversity indices such as Species richness, Shannon-Wiener diversity index and Sorensen’s similarity index were calculated. The results showed that the number of cultivated species was 29. It nearly shows high biodiversity of crop species cultivated in the province. Among the cities, Kermanshah, Sahneh, Harsin had the maximum species while Paveh had the lowest species. The highest average of crops Shannon-Wiener index was related to Harsin (1.7) and the lowest average of crops Shannon-Wiener index was related to Dalahoo (1) for period of 10 years. In all cities, except Qasr-shirin, Salas-babajani and Paveh Shannon-Wiener index increased over 10 years. The crops Shannon-Wiener index of province was 1.35 in 2003 and it increased to 1.44 in 2012 (about 0.011 in each year). The trend of crops Shannon-Wiener index than all agricultural plants also improved about 0.01 in each year (from 1.25 in 2003 to 1.35 in 2012). The Sorensen’s similarity index also increased in 2012 compare to 2003. The Sorensen’s similarity index of Kermanshah with Eslamabad-gharb and Dalahoo with Salas-babajani were the highest for 2012 while it was the lowest for Paveh compare to other cities in both 2003 and 2012. According to our results, crops biodiversity in Kermanshah province was nearly suitable while similarity in cultivated crops between cities was almost high.

Keywords

References

1- اردکانی، م. ر. 1380. اکولوژی. انتشارات دانشگاه تهران. تهران. 367 ص.
2- قربانی، ر. 1388. اکولوژی عمومی. انتشارات جهاد دانشگاهی مشهد. مشهد. 344 ص.
3- کوچکی، ع.، م. نصیری محلاتی، م. جهانی کندری، و ز. برومند رضازاده. 1390. مطالعه تنوع زیستی گیاهان صنعتی ایران. نشریه پژوهشهای زراعی ایران 9: 309-301.
4- کوچکی، ع.، م. نصیری محلاتی، م. اصغری پور، و ع. خداشناس. 1383. مطالعه تنوع زیستی محصولات باغی، سبزی و صیفی ایران. پژوهشهای زراعی ایران 2: 87– 79.
5- کوچکی، ع.، م. نصیری محلاتی، ا. زراع فیض آبادی، و م. جهان بین. 1383. ارزیابی تنوع نظام های زراعی ایران. پژوهش و سازندگی 63: 83– 70.
6- مهدوی دامغانی، ع.، ع. کوچکی، پ. رضوانی مقدم، و م. نصیری محلاتی. 1386. ارزیابی تنوع زیستی کشاورزی و اثرات آن بر پایداری یک سامانه کشاورزی گندم-پنبه در خراسان. علوم محیطی 3: 68-61.
7- نصیری محلاتی، م.، ع. کوچکی، و د. مظاهری. 1383. تنوع گونه های زراعی در ایران. بیابان 10: 50-33.
8- هاشمی شادگان، ف.، ک. خوشبخت، ع. مهدوی دامغانی، ه. ویسی، و ه. لیاقتی. 1389. بررسی تنوع زیستی کشاورزی شهرستان گچساران و تأثیر عوامل اقلیمی بر آن. نشریه بوم شناسی کشاورزی 1: 11-1.
9- Altieri, M. A. 1999. The ecological role of biodiversity in agroecosystems: Agriculture, Ecosystems & Environment 73:19-31.
10- Barnes, B. V. 1998. Forest ecology, John Wiley and Sons. INC.
11- Didier Le, C., B. Jacques, B. Françoise, and T. Claudine. 2002. Why and how we should study field boundary biodiversity in an agrarian landscape context. Agriculture, Ecosystems & Environment 89: 23-40.
12- Falco, S., M. Bezabih, and M. Yesuf. 2010. Seeds for livelihood: Crop biodiversity and food production in Ethiopia. Ecological Economics 69: 1695-1702.
13- Gliessman, S. R. 1992. Agroecology in the tropics: achieving a balance between land use and preservation. Environmental Management 16: 681-689.
14- Jenkins, M., and A. Parker. 1998. Composition and diversity of woody vegetation in silvicultural openings of southern Indiana forests. Forest Ecology and Management 109: 57-73.
15- Magurran, A. E. 1988. Ecological Diversity and Its Measurement. London: Croom Helm.
16- Meff, G. K., and C. R. Carroll. 1997. Principle of Conservation Biology, 2nd Edition, Sinaucr Associates, Sunderland.
17- Naeem, S., and S. Li. 1995. Biodiversity enhances ecosystem reliability. Nutrition 390: 505-509.
18- Oldfield, M. L., and J. B. Alcorn. 1987. Conservation of traditional agroecosystems. BioScience 37: 199-208.
19- Pimentel, D., U. Stachow, D. A. Takacs, H. W. Brubaker, A. R. Dumas, J. J. Meaney, J. A. S. O'Neil, D. E. Onsi, and D. B. Corzilius. 1992. Conserving biological diversity in agricultural/forestry systems. BioScience 32: 354-362.
20- Smale, E., J. P. Meng, N. Brennan, and R. Hu. 2003. Determinants of spatial diversity in modern wheat: example from Australia and china. Agricultural Economics 28: 13-26.
21- Stocking, M. 1999. Agrobiodiversity: A positive means of addressing land degradation and suitable rural livelihoods. pp. 1-16, In: Conacher, A. J. (ed.), Land Degradation; Dordrecht: Kluwer Academic Publishers.
22- Thrupp, L. A. 1998 .Cultivating diversity: agrobiodiversity and food security. World Resources Institute, Washington D.C.
23- Tscharntke, T., Y. Clough, T. Wanger, and L. Jackson. 2012. Global food security, biodiversity conservation and future of agricultural intensification. Biological Conservation 151: 53-59.
24- Vigouroux, Y., A. Barnaud, N. Scarcell, and A. C. Thuillet. 2011. Biodiversity, evolution and adaptation of cultivated crops. Comptes Rendus Biologies 334: 450-457.
25- WWW.kermanshah.agri-jahad.ir
Send comment about this article
CAPTCHA Image

Files

Share

How to cite

Statistics