Search Results - "АГРОМЕТЕОРОЛОГИЯ"

Source: BOSHQARUV VA ETIKA QOIDALARI ONLAYN ILMIY JURNALI; 2022: Ijtimoiy-gumanitar fanlar ta’limida raqamli texnologiyalarni qo‘llash.; 46-48 ; 2181-2616

Subject Terms: физика, агрометеорология, межпредметная связь, интеграция, лабораторное занятие, влажность, гигрограф

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Relation: https://sciencebox.uz/index.php/sjeg/article/view/2955/2700; https://sciencebox.uz/index.php/sjeg/article/view/2955

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10

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Structuring ampelographic collections by phenotypic characteristics and comparing the reaction of grape varieties to climate change ; Структурирование ампелографической коллекции по фенотипическим характеристикам и сравнение реакции сортов винограда на изменение климата

Authors: L. Yu. Novikova, L. G. Naumova, Л. Ю. Новикова, Л. Г. Наумова

Contributors: The analysis of polymorphism of the collection and of the trends in the dynamics of agrobiological indicators were carried out in the framework of the State Assignment No. 0662-2019-0004. Creation of the database and of the VTS program was supported by the Grant No. 18-016-00213 of the Russian Foundation for Basic Research.

Source: Vavilov Journal of Genetics and Breeding; Том 23, № 6 (2019); 772-779 ; Вавиловский журнал генетики и селекции; Том 23, № 6 (2019); 772-779 ; 2500-3259

Subject Terms: адаптивность, climate change, information system, time series, agrometeorology, adaptability, изменение климата, информационная система, временные ряды, агрометеорология

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Data Integration as a key step for future grapevine: Book of Abstracts. Chania, Greece, 25–28 March, 2019;17. Available at: http://www.integrape.eu/images/pdf/CA17111-integrape2019.pdf; Eliseeva I.I., Kuryshevа S.V., Kosteeva T.V., Pantina I.V., Mikhaylov B.A., Neradovskaya Yu.V., Stroe G.G., Bartels K., Rybkina L.R. Econometrics. Moscow, 2007. (in Russian); Hausmann L., Maul E., Ganesch A., Kecke S., Töpfer R. The Vitis International Variety Catalogue and the European Vitis Database. In: INTEGRAPE 2019. Data Integration as a key step for future grapevine: Book of Abstracts. Chania, Greece, 25–28 March, 2019;9. Available at: http://www.integrape.eu/images/pdf/CA17111-integrape2019.pdf; Iler A.M., Inouye D.W., Schmidt N.M., Høye T.T. Detrending phenological time series improves climate–phenology analyses and reveals evidence of plasticity. Ecology. 2017;98(3):647-655.; Jones G. Climate, grapes, and wine: structure and suitability in a changing climate. Acta Hortic. 2012;931:19-28. DOI 10.17660/ActaHortic.2012.931.1.; Kelchevskaya L.S. Methods of Processing of Observations in Agroclimatology. Leningrad, 1971. (in Russian); Lamine M., Zemni H., Ziadi S., Chabaane A., Melki I., Mejr S., Zoghlami N. Multivariate analysis and clustering reveal high morphological diversity in Tunisian autochthonous grapes (Vitis vinifera): insights into characterization, conservation and commercialization. OENO One. 2014;48(2):111-122. DOI 10.20870/oeno-one.2014.48.2.1565.; Lazarevsky M.A. Role of Heat in the Life of the European Vine. Rostov-on-Don, 1961. (in Russian); Lazarevsky M.A. The Study of Grape Varieties. Rostov-on-Don, 1963. (in Russian); Leão P., Cruz C., Motoike S. Genetic diversity of table grape based on morphoagronomic traits. Sci. Agric. 2011;68(1):42-49. DOI 10.1590/S0103-90162011000100007.; Leeuwen C., Friant Ph., Chone X., Tregoat O., Koundouras S., Dubourdieu D. Influence of climate, soil and cultivar on terroir. Am. J. Enol. 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Varietal Composition of Vineyards of the USSR. Krasnodar, 2015. (in Russian); Novikova L.Y., Naumova L.G. Trends of changes in sugar content and acidity of grape varieties from the collection of the Potapenko All-Russia Research Institute of Viticulture and Winemaking. Vinodelie i Vinogradarstvo = Wine-making and Viticulture. 2013;6:54-57. (in Russian); Novikova L.Y., Naumova L.G. Analysis of economically valuable characters of grape varieties of different origin from the Potapenko All-Russia Research Institute of Viticulture and Winemaking under climate change conditions. Nauchnye trudy SKFNTsSVV = Proceedings of the North Caucasian Research Institute of Horticulture and Viticulture. 2018;19:113-119. DOI 10.30679/2587-9847-2018-19-113-119. (in Russian); Quenol H., Grosset M., Barbeau G., van Leeuwen K., Hofmann M., Foss Ch., Irimia L., Rochard J., Boulanger J.-Ph., Tissot C., Miranda C. Adaptation of viticulture to climate change: high resolution observation of adaptation scenario for viticulture. Bull. de l’OIV. 2014;1001-1002-1003(87):385-406.; Richardson A.D., Anderson R.S., Arain M.A. Terrestrial biosphere models need better representation of vegetation phenology: results from the North American Carbon Program Site Synthesis. Glob. Change Biol. 2012;18:566-584. DOI 10.1111/j.1365-2486.2011.02562.x.; Santibáñez F., Sierra H., Santibanez P. Degree day model of table grape (Vitis vinifera L.) phenology in Mediterranean temperate climates. Int. J. Sci. Environ. Technol. 2014;3(1):10-22.; Sirotenko O.D. Fundamentals of Agricultural Meteorology. Vol. 2, Book 1: Mathematical Models in Agrometeorology. Obninsk, 2012. (in Russian); Troshin L.P. Ampelography and Grape Breeding. Krasnodar, 1999. (in Russian); Vršič S., Vodovnik T. Reactions of grape varieties to climate changes in North East Slovenia. Plant Soil Environ. 2012;58(1):34-41.; Wenjiao S., Fulu T., Zhao Z. A review on statistical models for identifying climate contributions to crop yields. J. Geogr. Sci. 2013;23(3):567-576.; Zarmaev A.A., Borisenko M.N. Grape Breeding, Genetics and Ampelography. From theory to practice. Simferopol, 2018. (in Russian); https://vavilov.elpub.ru/jour/article/view/2268

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https://doi.org/10.18699/VJ19.551

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11

Academic Journal