Interannual Effects of Early Season Growing Degree Day Accumulation and Frost in the Cool Climate Viticulture of Michigan

References

• Amerine, M. A. 1980. The technology of wine making. Westport, CT: AVI.
   Google Scholar
• Andresen, J. A., and J. A. Winkler. 2009. Weather and climate. In Michigan geography and geology, ed. R. J. Schaetzl, J. Darden, and D. Brandt, 288–314. Boston: Pearson Custom.
   Google Scholar
• Baskerville, G. L., and P. Emin. 1969. Rapid estimation of heat accumulation from maximum and minimum temperatures. Ecology 50:514–17.
   Google Scholar
• Bindi, M., F. Miglietta, B. Gozzini, S. Orlandini, and L. Seghi. 1997. A simple model for simulation of growth and development in grapevine (Vitis vinifera L.): II. Model validation. VITIS 36:73–76.
   Google Scholar
• Bureau of Alcohol, Tobacco, Firearms, and Explosives. 1987. Code of Federal Regulations: §9.79 Lake Michigan Shore. Title 27: Alcohol, Tobacco and Firearms; Part 9: American Viticultural Areas; Subpart C: Approved American Viticultural Areas. Washington, DC: Bureau of Alcohol, Tobacco, Firearms, and Explosives.
   Google Scholar
• Cleland, E. E., I. Chuine, A. Menzel, H. A. Mooney, and M. D. Schwartz. 2007. Shifting plant phenology in response to global change. Trends in Ecology and Evolution 22 (7): 357–65.
   Google Scholar
• Eichhorn, K. W., and D. H. Lorenz. 1977. Phänologische Entwicklungsstadien der Rebe [Phenological development stages of the vine]. Nachrichtenblatt des Deutschen Pflanzenschutzdienstes.
   Google Scholar
• Filo, A., P. Sabbatini, G. W. Sundin, T. J. Zabadal, G. R. Safir, and S. R. Cousins. 2013. Grapevine crown gall suppression using biological control and genetic engineering: A review of recent research. American Journal of Enology and Viticulture 64 (1): 1–11.
   Google Scholar
• Geiger, R. 1965. The climate near the ground. Cambridge, MA: Harvard University Press.
   Google Scholar
• Gladstones, J. 1992. Viticulture and environment. Adelaide, Australia: Winetitles.
   Google Scholar
• ———. 2000. Past and future climatic indices for viticulture. Australia and New Zealand Wine Industry Journal 15:67–73.
   Google Scholar
• ———. 2005. Climate and Australian viticulture. In Viticulture 1—Resources, ed. P. R. Dry, and B. G. Coombe, 90–118. Adelaide, Australia: Winetitles.
   Google Scholar
• Hathaway, L., and S. Kegerreis. 2010. The history of Michigan wines: 150 years of winemaking along the Great Lakes. Charleston, SC: History Press.
   Google Scholar
• Huglin, P. 1978. Nouveau mode d’évaluation des possibilités héliothermiques d'un milieu viticole [New method of assessment of possibilities in solar thermals (in the) middle of a vineyard]. Comptes-rendus des Seances de l'Academie d'Agriculture de France 64:1117–26.
   Google Scholar
• Jones, G. V. 2007. Climate change and wine: Observations, impacts and future implications. Wine Industry Journal 21 (4): 21–26.
   Google Scholar
• Jones, G. V., and R. E. Davis. 2000. Climate influences on grapevine phenology, grape composition, and wine production and quality for Bordeaux, France. American Journal of Enology and Viticulture 51 (3): 249–61.
   Google Scholar
• Jones, G. V., A. A. Duff, A. Hall, and J. W. Myers. 2010. Spatial analysis of climate in winegrape growing regions in the western United States. American Journal of Enology and Viticulture 61:313–26.
   Google Scholar
• Jones, G. V., M. A. White, O. R. Cooper, and K. Storchmann. 2005. Climate change and global wine quality. Climatic Change 73 (3): 319–43.
   Google Scholar
• Köppen, W. 1900. Versuch einer Klassifikation der Klimate, vorzugsweise nach ihren Beziehungen zur Pflanzenwelt [Attempted classification of climates, preferably to its relation to the plant world]. Geographische Zeitschrift 6:593–611, 657–79.
   Google Scholar
• McCarthy, M. G. 1999. Weight loss from ripening berries of Shiraz grapevines (Vitis vinifera L. cv. Shiraz). Australian Journal of Grape and Wine Research 5 (1): 10–16.
   Google Scholar
• McMaster, G. S., and W. W. Wilhelm. 1997. Growing degree-days: One equation, two interpretations. Agricultural and Forest Meteorology 87:291–300.
   Google Scholar
• Molitor, D., A. Caffarra, P. Sinigoj, I. Pertot, L. Hoffmann, and J. Junk. 2014. Late frost damage risk for viticulture under future climate conditions: A case study for the Luxembourgish winegrowing region. Australian Journal of Grape and Wine Research 20 (1): 160–68.
   Google Scholar
• Moroz, W. J. 1967. A lake breeze on the eastern shore of Lake Michigan: Observations and model. Journal of Atmospheric Science 24:337.
   Google Scholar
• Mullins, M. G., A. Bouquet, and L. E. Williams. 1992. Biology of the grapevine. Cambridge, UK: Cambridge University Press.
   Google Scholar
• Nendel, C. 2010. Grapevine bud break prediction for cool winter climates. International Journal of Biometeorology 54 (3): 231–41.
   Google Scholar
• Pfister, C. 1988. Variations in the spring–summer climate of central Europe from the High Middle Ages to 1850. Berlin: Springer.
   Google Scholar
• Robock, A., and J. Mao. 1995. The volcanic signal in surface temperature observations. Journal of Climate 8 (5): 1086–1103.
   Google Scholar
• Santos, J. A., A. C. Malheiro, M. K. Karremann, and J. G. Pinto. 2011. Statistical modelling of grapevine yield in the Port Wine region under present and future climate conditions. International Journal of Biometeorology 55 (2): 119–31.
   Google Scholar
• Schultze, S. R., P. Sabbatini, and J. A. Andresen. 2013. Spatial and temporal study of climatic variability on grape production in southwest Michigan. American Journal of Enology and Viticulture 65 (2): 179–88.
   Google Scholar
• Schwartz, M. D., R. Ahas, and A. Aasa. 2006. Onset of spring starting earlier across the northern hemisphere. Global Change Biology 12 (2): 343–51.
   Google Scholar
• Swan, J. B., J. A. Staricka, M. J. Shaffer, W. H. Paulson, and A. E. Peterson. 1990. Corn yield response to water stress, heat units, and management: Model development and calibration. Soil Science Society of America Journal 54 (1): 209–16.
   Google Scholar
• U.S. Department of Agriculture–National Agricultural Statistics Service. 2012. Fruit inventory results for grapes. News release NR 12–53, Michigan Field Office, MI: East Lansing, MI.
   Google Scholar
• van Leeuwen, C., P. Friant, X. Choné, O. Tregoat, S. Koundouras, and D. Dubourdieu. 2004. Influence of climate, soil, and cultivar on terroir. American Journal of Enology and Viticulture 55 (3): 207–17.
   Google Scholar
• Walther, G. R., E. Post, P. Convey, A. Menzel, C. Parmesan, T. J. Beebee, J. M. Fromentin, O. Hoegh-Guldberg, and F. Bairlein. 2002. Ecological responses to recent climate change. Nature 416 (6879): 389–95.
   Google Scholar
• Webb, L. B., P. H. Whetton, and E. W. R. Barlow. 2007. Modelled impact of future climate change on the phenology of winegrapes in Australia. Australian Journal of Grape and Wine Research 13 (3): 165–75.
   Google Scholar
• Wermelinger, B., J. Baumgärtner, and A. P. Gutierrez. 1991. A demographic model of assimilation and allocation of carbon and nitrogen in grapevines. Ecological Modeling 53:1–26.
   Google Scholar
• Winkler, J. A, J. A. Andresen, J. M. Bisanz, G. Guentchev, J. Nugent, K. Piromsopa, N. Rothwell, et al. 2013. Michigan's tart cherry industry: Vulnerability to climate variability and change. In Climate change in the Midwest: Impacts, risks, vulnerability, and adaptation, ed. S. C. Pryor, 129–46. Bloomington: Indiana University Press.
   Google Scholar
• Winkler, J. A., J. Andresen, J. Black, G. Bujdoso, F. Chmielewski, D. Kirschke, … and S. Zhong. 2012. Climate change impact assessments for international market systems (CLIMARK). In AGU fall meeting abstracts. Vols. 1, 2. American Geophysical Union, San Francisco, CA, December 3–7.
   Google Scholar
• Wolfe, D., L. H. Ziska, C. Petzoldt, A. Seaman, L. Chase, and K. Hayhoe. 2008. Projected change in climate thresholds in the northeastern U.S.: Implications for crops, pests, livestock, and farmers. Mitigation and Adaptation Strategies for Global Change 13 (5): 555–75.
   Google Scholar
• Zabadal, T. J., and J. A. Andresen. 1997. Vineyard establishment I: Site selection, vineyard design, obtaining grapevines, and site preparation. Extension bulletin E-2644. Michigan State University, East Lansing, MI.
   Google Scholar
• Zabadal, T. J., I. E. Dami, M. C. Goffinet, T. E. Martinson, and M. L. Chien. 2007. Winter injury to grapevines and methods of protection. Extension Bulletin E2930. East Lansing: Michigan State University.
   Google Scholar