- Azizzadeh J., Ahmadi H., Baaghideh M., and Entezari A. 2020. Whether climate change is an opportunity or a threat? evaluation of potential climate change on tropical trees of Iran, Case Study: Palm Dates. Journal of Climate Research (40): 61-80. (In Persian)
- Berhane A. 2018. Climate change and variability impacts on agricultural productivity and food security. Journal of Climatology & Weather Forecasting 6(3): 1-6.
- Bishnoi O.P. 2010. Applied Agroclimatology. Oxford book company, India.
- Ceglar A., Zampieri M., Toreti A., and Dentener F. 2019. Observed northward migration of agro‐climate zones in Europe will further accelerate under climate change. Earth's Future 7(9): 1088–1101.
- Chmielewski F-M., and Rötzer T. 2002. Annual and spatial variability of the beginning of growing season in Europe in relation to air temperature changes. Climate Research 19(3): 257–264.
- Christiansen D.E., Markstrom S.L., and Hay L.E. 2011. Impacts of climate change on the growing season in the United States. Earth Interactions 15(33): 1-17.
- Egbebiyi T.S., Crespo O., Lennard C., Zaroug M., Nikulin G., Harris I., Price J., Forstenhäusler N., and Warren R. 2020. Investigating the potential impact of 1.5, 2 and 3 °C global warming levels on crop suitability and planting season over west Africa. PeerJ, 8:e8851.
- Fallah Ghalhary G., and Ahmadi H. 2017. Trend analysis of phenological stages length and chilling requirements of apple tree (Case study: Karaj station). Journal of Agricultural Meteorology 5(1):57-70. (In Persian with English abstract)
- Frich P., Alexander L.V., Della-Marta P., Gleason B., Haylock M., Klein Tank A.M.G., and Peterson T. 2002. Observed coherent changes in climatic extremes during the second half of the twentieth century. Climate Research 19(3): 193–212.
- Grigorieva E. 2020. Evaluating the sensitivity of growing degree days as an agro-climatic indicator of the climate change impact: A Case Study of the Russian far east. Atmosphere, 11, 404.
- Hejabi S., Abasalinezhad Sheramin H., and Doulati Baneh H. 2019. Effect of climate change on the phenology of "Bidaneh Sefid" table grape variety in West Azerbaijan province. Research in Pomology 4(2): 43-52. (In Persian)
- Høgda K.A., Tømmervik H., and Karlsen S.R. 2013. Trends in the start of the growing season in fennoscandia 1982–2011. Remote Sensing (5): 4304-4318.
- Kamali G., Mollaei P., and Behyar M. 2010. Development of Zanjan province dry land wheat atlas by using climatic data and GIS. Journal of Water and Soil 24(5): 894-907. (In Persian with English abstract)
- Karlsen S.R., Solheim I., Beck P.S.A., Høgda K.A., Wielgolaski F.E., and Tømmervik H. 2007. Variability of the start of the growing season in Fennoscandia, 1982–2002. International Journal of Biometeorology 51: 513–524.
- Kheirandish M., Ghahreman N., and Bazrafshan J. 2014. A study of the effects of climate change on length of growing season in several climatic regions of Iran. Iranian Journal of Soil and Water Research 44(2): 143-150. (In Persian)
- Kiani S., Shahraki J., Akbari A., and Sardar Shahraki A. 2020. The effect of climate change on Iran's agricultural production: A case study of Wheat crop. Applied Field Crops Research 32(04): 109-127. (In Persian with English abstract)
- Koocheki A. 2002. Crop Production in Dry Regions. Mashhad Jahad Daneshgahi Press, Mashhad.
- Koocheki A., Nassiri M., Kamali G.A., and Shahandeh H. 2006. Potential impacts of climate change on agrometeorological indicators in Iran. Arid Land Research and Management 20(3): 245-259.
- Linderholm H.W. 2006. Growing season changes in the last century. Agricultural and Forest Meteorology 137: 1–14.
- Liu X., Yin Z., Shao X., and Qin N. 2006. Temporal trends and variability of daily maximum and minimum, extreme temperature events, and growing season length over the estern and central Tibetan Plateau during 1961-2003. Journal of Geophysical Research 111(D19): 1–19.
- Lobell D.B., Schlenker W., and Costa-Roberts J. 2011. Climate trends and global crop production since 1980. Science 333: 616-620.
- Masoodian S.A., and Darand M. 2014. Recognition and analysis of agro climatic indices changes in Iran. Geographical Researches 29(2): 39-50. (In Persian)
- Mirdrikvand F., Nasiri B., and Karampour M. 2017. The effect of climate change on the length of growing season of wheat in Lorestan province (A case study of Khorramabad, Boroujerd and Doroud stations). In: Proceedings of 5th natioal & 1st international conference on organic vs. conventional agriculture, 16-17 Aug. University of Mohaghegh Ardabili, Ardabil, Iran.
- Morovat S., Ebrahimi H., and Bakhsh Kelarestaghi K. 2013. Evaluate conditions climate change and effect of that upon farming calendar implant of Wheat in Mashhad. New Finding in Agriculture 7(4): 341-356. (In Persian)
- Mozaffari G., and Torki M. 2010. Surveying about trend of variations of growth season's length in Iran. Geographic Thought 4(8): 24-43. (In Persian)
- Mozaffari G., and Dehghan H. 2013. Zoning the length of growing period based on temperature characteristics in Iran. Journal of Geography and Regional Development 11(21): 121-137. (In Persian)
- Mozaffari G., Fatemi M., and Dehghan H. 2019. Zonation and estimation of the trend of the thermal unit of growing season due to temperature changes, Iran. Physical Geography Research Quarterly 50(4): 731-746. (In Persian)
- Pathak T.B., Maskey M.L., Dahlberg J.A., Kearns F., Bali K.M., and Zaccaria D. 2018. Climate change trends and impacts on California agriculture: A detailed review. Agronomy, 8, 25.
- Rasooli S.J., and Ghaemi A.R. 2012. Canola cultivation area dividing about climatic temperature needs used GIS in Khorasan provinces. Journal of Crop Production 3(1): 121-138. (In Persian with English abstract)
- Robeson S.M. 2002. Increasing growing-season length in Illinois during the 20th century. Climatic Change 52: 219- 238.
- Serrano A., Mateos V.L., and Garcia J.A. 1999. Trend analysis of monthly precipitation over the Iberian Peninsula for the period 1921-1995. Physics and Chemistry of the Earth, Part (B) 24(1-2): 85-90.
- Sharma P., Singh M., Bhardwaj S.K., and Bhatia H.S. 2019. Impact of accumulated growing degree days (GDD) on phenology of apple (Malus domestica Borkh) in Kullu district of Himachal Pradesh. Pharma Innovation 8(6): 850-854.
- Shokouhi M. 2019. Evaluation of the impact of climate change on temperature and precipitation of rainfed wheat production in Kurdistan province. Journal of Agricultural Meteorology 7(1): 22-35. (In Persian with English abstract)
- Tao F., Yokozawa M., Xu Y., Hayashi Y., and Zhang Z. 2006. Climate changes and trends in phenology and yields of field crops in China, 1981–2000. Agricultural and Forest Meteorology 138: 82-92.
- Weikai Y., and Hunt L.A. 1999. An equation for modelling the temperature response of plants using only the cardinal temperatures. Annals of Botany 84(5): 607–614.
- Wypych A., Sulikowska A., Ustrnul Z., and Czekierda D. 2017. Variability of growing degree days in Poland in response to ongoing climate changes in Europe. International Journal of Biometeorology 61: 49–59.
- Yasari T., and Shahsavari M.R. 2013. Growing degree days zoning of developmental stages of spring Safflower in Isfahan province. Journal of Crop Production and Processing 3(8): 61-71. (In Persian)
- Yazdanpanah H., Ebrahimi R., and Taghavi nia F. 2017. The introduction of a new system of zoning Iran the cooling needs in the coming decade. Journal of Climate Research 1396(29): 125-139. (In Persian)
- Yin Y., Deng H., and Wu S. 2019. Spatial-temporal variations in the thermal growing degree-days and season under climate warming in Chaina during 1960-2011. International Journal of Biometeorology 63(5): 649-658.
|