Abstract
This study assessed the wine vocation of two grapevine cultivars (Maceratino and Sangiovese) in Macerata Province (Central Italy) for different periods: 1931–1960, 1961–1990 and 1991–2014. The maps of viti-cultural potential were edited using GIS software, on the basis of late frosts, optimum temperatures, water requirement and slope. Raster math allowed the summation of the parameters considered, also assessing climate change between periods, in relation to the crops. The aim of this research was to provide a valuable tool for more rational spatial planning.
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References
Allen, R.G., Pereira, R., Raes, D., Smith, M.: Crop evapotranspiration: guidelines for computing water requirements. FAO irrigation and drainage paper no. 56, Food and Agricultural Organization, Rome, Italy (1998)
Cesaraccio, C., Spano, D., Snyder, R.L., Duce, P.: Chilling and forcing model to predict budburst of crop and forest species. Agric. For. Meteorol. 126, 1–13 (2004)
Doorenbos, J., Kassam, A.H.: Yield response to water. FAO irrigation and drainage paper no. 33. FAO, Rome, Italy (1979)
Doorenbos, J., Pruit, W.O.: Guidelines for predicting water requirements. FAO irrigation and drainage paper 24. FAO, Rome, Italy (1977)
ERSA (Agenzia regionale per lo sviluppo rurale), Gestione dell’irrigazione: http://www.ersa.fvg.it/tematiche/suoli-e-carte-derivate/cartografia-derivata/zonazione-viticola/zona-a-d-o-c-collio/manuale-duso-del-territorio/gestionedellirrigazione/?searchterm=gestione%20dell%27irrigazione. Last accessed 27 Apr 2018
Fraga, H., Santos, J., Moutinho-Pereira, J., Carlos, C., Silvestre, J., Eiras-Dias, J., Malheiro, A.: Statistical modelling of grapevine phenology in Portuguese wine regions: observed trends and climate change projections. J. Agri Sci 154(5), 795–811 (2016)
Gentilucci, M.: Grapevine prediction of end of flowering date. In: Acts of the 1st Euro-Mediterranean Conference for Environmental Integration (EMCEI), pp. 1231–1234, Springer, Tunisia (2017)
Hall, A., Jones, G.: Spatial analysis of climate in winegrape-growing regions in Australia. Aust. J. Grape Wine Res. 16, 389–404 (2010)
Hargreaves, G.H., Samani, Z.A.: Estimating potential evapotranspiration. J. Irrig Drainage Eng, ASCE 108(IR3), 223–230 (1982)
Huglin, P.: Nouveau Mode d’Évaluation des Possibilités Héliothermiques d’un Milieu Viticole. Comptes Rendus de l’Académie d’Agriculture de France 64, 1117–1126 (1978)
Moriondo, M., Bindi, M.: Impact of climate change on the phenology of typical mediterranean crops. Ital. J. Agrometeorol. 5–12 (2007)
Richardson, E.A., Seeley, S.D., Walker, D.R.: A model for estimating the completation of rest for Redhaven and Elberta peach trees. HortScience 9(4), 331–332 (1974)
Zapata, D., Salazar-Gutierrez, M., Chaves, B., Keller, M., Hoogenboom, G.: Predicting key phenological stages for 17 grapevine cultivars (Vitisvinifera L.). Am. J. Enol. Viticulture (2016)
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Gentilucci, M., Barbieri, M., Burt, P. (2019). Climate and Territorial Suitability for the Vineyards Developed Using GIS Techniques. In: Chenchouni, H., Errami, E., Rocha, F., Sabato, L. (eds) Exploring the Nexus of Geoecology, Geography, Geoarcheology and Geotourism: Advances and Applications for Sustainable Development in Environmental Sciences and Agroforestry Research. CAJG 2018. Advances in Science, Technology & Innovation. Springer, Cham. https://doi.org/10.1007/978-3-030-01683-8_3
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