The most important of climatic parameters affecting product performance potato ardabil province using the of GIS system

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Research Paper 01/10/2014
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The most important of climatic parameters affecting product performance potato ardabil province using the of GIS system

Mehrdad Esfandiari, S.R. Hassanpour Avanji, M. Shojaei Poor, Navid adibifard
J. Bio. Env. Sci.5( 4), 74-80, October 2014.
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Abstract

The present article is aimed at study on agroclimatic conditions of cultivation of potato throughout selected substations at Ardabil Province by means of GIS system. In this investigation, meteorological data have been received from synoptic stations based on daily, monthly, and annually trend from Iran Meteorological Organization (IMO) at Ardabil Province and then homogeneity of data has been explored by (Wald- Wolfowitz) Run Test. Methodology of the research is of statistical descriptive type. Data analysis was carried out by means of Growing Degree Day (GDD) technique and method of Deviation from Optimum Percentage (DOP) plus phenology index as well as thermal potential within environment of statistical software (EXCEL and SPSS). Under agroclimatic conditions, the results of this survey may indicate that the time period among July and September is considered as active months in terms of agriculture based on thermal potential in this region. The early days of May are the best calendar for cultivation of potato month in all the aforesaid substations. Time of harvesting potato crop is middle August for Ardabil, parsabad, and Meshginshahr substations while this time is early September for Khalkhal substation. With respect to the phenological method, dates of cultivation until budding, flowering, and the end of flowering stage and maturation start respectively sooner in parsabad substation than other substations in this region.

VIEWS 8

Coelho dt, Dale rf. 1980 An energy-crop growth variable and temperature function for predicting corn growth and development. Planting to silking. Agronomy Journal, Madison, v.72, p.503-510,.

Haverkort aj. 1990 Ecology of potato cropping systems in relation to latitude and altitude. Agricultural Systems, Amsterdam, v. 32, p.251-272,.

Kadaja J, Toominc, H. 2004. Potato production model based on principle of maximum plant productivity. Agricultural and Forest Meteorology, Amsterdam, v. 127, p.1-16.

Midmore dj, Ppange rk. 1992. Growth responses of two Solanum species to contrasting temperatures and irradiance levels: relations to photosynthesis, dark respiration and chlorophyll fluorescence. Annuals of Botany, London, v.69, p.13-20.

Pereira ab. Shock cc. 2006. Development of irrigation best management practices for potato from a research perspective in the United States. Sakia.org e-publish, Australia, v.1, p.1- 20,. Available on-line at http://www.sakia.org/.

Stuttle  GW.  Yorio  NC.  Wheeler  RM.  1996. Interacting effects of photoperiod and photosynthetic photon flux on net carbon assimilation and starch accumulation in potato leaves. Journal of the American Society of Horticultural Science, v.121, p.264-268,.

Villanova NA. Santlago AV. Rezende FC. 2001. Energia Solar. Aspectos físicos de captura pela biomassa. Piracicaba: Departamento de Ciências Exatas/ ESALQ/USP,. 20p.

Villanova NA. Pilau FG. Dourado neto D. Manfron PA. 2005. Estimativa da produtividade de cana-deaçúcar irrigada com base na fixação de CO2, radiação solar e temperatura do ar. Revista Brasileira de Agrometeorologia, Piracicaba, v.13, n.3, p.405-411.

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

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