Assessment of bio climatic grapes in Ardabil province
Paper Details
Assessment of bio climatic grapes in Ardabil province
Abstract
In this study, daily, monthly and annual weather data of synoptic stations in Ardebi region was gathered from Iran Meteorological Organization and then, the homogeneity of data were examined by run test method. To study agro-climatic features of viticulture, deviation from optimal conditions and the degree of active days index (GDD) methods are used. Based on the analysis of deviations from optimal conditions at different altitudes in the study area, Meshkinshahr station has optimal conditions for planting, among the stations. This is important in terms of development of cultivation areas and commercial production of crops. Based on the agro-climatic analysis, western and central regions (Meshkinshahr and Khalkhal stations) are most suitable areas of viticulture in the region. While eastern, northwestern and southern (Parsabad, Ardebi stations) areas are next in this ranking.
Amerine MA. Winkler AJ. 1944. Composition and quality of musts and wines of California grapes. Hilgard 15, 493–673.
Coombe BG. 1987. Influence of temperature on composition and quality of grapes. In: Proceedings of the Symposium on Grapevine Canopy and Vigor Management. Acta Hortic. 206, 23–35.
Conde C, Silva P, Fontes N, Dias ACP and others. 2007. Biochemical changes throughout grape berry development and fruit and wine quality. Food 1, 1−22
Conradie WJ. Carey VA. Bonnardot V. Saayman D. Schoor van LH. 2002. Effect of different environmental factorson the performance of Sauvignon blanc grapevines in the Stellenbosch/Durbanville districts of South Africa. I. geology, soil, climate, phenology and grape composition. South African J. Enol. Vitic. 23(2), 79–91.
Duchêne E, Schneider C. 2005. Grapevine and climatic changes: a glance at the situation in Alsace. Agron Sustain Dev 25, 93−99
Duchêne E, Huard F, Dumas V, Schneider C, Merdinoglu D. 2010. The challenge of adapting grapevine varieties to climate change. Clim Res 41, 193−204
Fregoni C. Pezzutto S. 2000. Principes et premières approches de l’indice bioclimatique de qualité de Fregoni. Progr. Agric. Vitic. 18, 390–396.
Hall A, Jones GV. 2010. Spatial analysis of climate in winegrape-growing regions in Australia. Aust J Grape Wine Res 16, 389−404.
Huglin P. 1978. Nouveau mode d’évaluation des possibilites héliothermiques d’un milieu viticole. In: Proceedings of the Symposium International sur l’ecologie de la Vigne. Ministère de l’Agriculture et de l’Industrie Alimentaire, Contança, pp. 89–98.
IPCC. 2007. Climate change 2007: impacts, adaption and vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge.
Jackson RS. 2000. Wine science: principles, practice, perception. Academic Press, San Diego, CA .
Jones GV, Davis RE. 2000. Climate influences on grapevine phenology, grape composition, and wine production and quality for Bordeaux, France. American Journal of Enology and Viticulture 51, 249−261
Jones GV, White MA, Cooper OR, Storchmann K (2005) Climate change and global wine quality. Clim Change 73, 319−343
Jorquera-Fontena E, Orrego-Verdugo R. 2010. Impact of global warming on the phenology of a variety of grape -vine grown in southern Chile. Agrociencia 44, 427−435
Lisek J. 2008. Climatic factors affecting development and yielding of grapevine in central PolandJournal of Fruit and Ornamental Plant Research 16, 285−293
Malheiro AC, Santos JA, Fraga H, Pinto JG. 2010. Climate change scenarios applied to viticultural zoning in Europe. Clim Res 43, 163−177
Mullins MG, Bouquet A, Williams LE. 1992. Biology of the grapevine. Cambridge University Press, Cambridge.
Robinson J. 2006. The Oxford companion to wine. Oxford University Press, Oxford.
Unwin T. 1991. Wine and the vine: an historical geography of viticulture and the wine trade. Routledge, London
Urhausen S, Brienen S, Kapala A, Simmer C. 2011. Climatic conditions and their impact on viticulture in the Upper Moselle region. Clim Change, doi:10.1007/s10584-011-0059-z
van Leeuwen C, Friant P, Chone X, Tregoat O, Koundouras S, Dubourdieu D. 2004. Influence of climate, soil, and cultivar on terroir. American Journal of Enology and Viticulture 55, 207−217
Singleton VL. Esau P. 1969. Phenolic substances in grapes and wine, and their significance. Adv. Food Res. Supp. 1, 112–133.
Webb LB, Whetton PH, Barlow EWR. 2007. Modelled impact of future climate change on the phenology of winegrapes in Australia. Aust J Grape Wine Res 13, 165−175.
Winkler AJ. 1962. General Viticulture. University of California, Berkeley, 633 pp.
S.R. Hassanpour Avanji, M. Shojaei Poor, Navid adibifard, Mehrdad Esfandiari, 2014. Assessment of bio climatic grapes in Ardabil province. J. Biodiv. Environ. Sci., 5(4), 81-88.
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