___

• Amatya S, Karkee M, Zhang Q, Whiting MD, 2017. Automated detection of branch shaking locations for robotic cherry harvesting using machine vision. Robotics, 6(4), 1– 16. https://doi.org/10.3390/robotics6040031
• Anonim, 2021. İklim değişikliği ve tarım. Tarım Reformu Genel Müdürlüğü (https://www.tarimorman.gov.tr/TRGM/Belgeler/%C4%B0klim%20De%C4%9Fi%C5%9Fikli%C4%9Fi%20ve%20Tar%C4%B1m.pdf).
• Anonymous, 2014. The horticulture handbook. Western Australian Agriculture Authority, Department of Agriculture and Food, Bulletin 4847, ISSN 1833-7236, https://www.agric.wa.gov.au/sites/gateway/files/The%20horticulture%20handbook.pdf
• Anonymous, 2015. Assessment of B.C. apple & sweet cherry varieties. A report by Globalwise, Inc. & Belrose Inc. for British Columbia Ministry of Agriculture.
• Atay AN, Atay E, 2018. Elma ıslahında ve çeşit yönetiminde yenilikçi eğilimler. Yüzüncü Yıl Üniversitesi Tarım Bilimleri Dergisi, 28(2): 234-240. DOI: 10.29133/yyutbd.364892.
• Atkinson CJ, Brennan RM, Jones HG, 2013. Declining chilling and its impact on temperate perennial crops.Environ. Exp. Bot., 91, 48–62.
• Barber A, 2019. Managing climate risk. Australian Fruitgrower, 13 (1): 42-43.
• Bayav A, Karlı B, 2020. Isparta ve Karaman illerinde elma üretim maliyetinin karşılaştırılması. MKU. Tar. Bil. Derg. 25(2) : 225-236. DOI: 10.37908/mkutbd.687080.
• Bhausaheb KG, Haribhau MP, Subhash PA, Chandrakant KY, 2017. A review on bearing sorting system. InternationalResearch Journal of Engineering and Technology, 4(2), 993-994.
• Bossi Fedrigotti V, Fischer C, 2020. Why Per Capita Apple Consumption Is Falling: Insights from the Literature and Case Evidence from South Tyrol. Horticulturae, 6, 79. https://doi.org/10.3390/horticulturae6040079.
• Britt H, 2019. The digital orchard: how agritech is addressing common pain-points. Australian Fruitgrower, 13 (1): 8-11.
• Brookes J, Spark S, 2020. What is orchard excellence now and into the future? https://apal.org.au/wp-content/uploads/2019/08/Future-Orchards-Future-Orchards-Southern-Loop-June-2020-Steve-Sparks.pdf.
• Caprio JM, Quamme HA 1998. Weather conditions associated with apple production in the Okanagan Valley of British Columbia, Canadian Journal of Plant Science 79: 129-137.
• Drum S, 2020. Optimising the performance of your seasonal workforce. https://apal.org.au/optimising-the-performance-of-your-seasonal-workforce/.
• Erez A, 2000 'Bud dormancy; phenomenon, problems and solutions in the tropics and subtropics' in Erez, A., ed. Temperate Fruit Crops in Warm Climates, Kluwer Academic Publishers, 17 - 47.
• Gaikar TG, Zadokar SN, Bhandari RS 2016.Object sorting using color sensor and arduino. International Journal onRecent and Innovation Trends in Computing and Communication. 4 (4): 483 – 486.
• Gongal A, Amatya S, Karkee M, Zhang Q, Lewis K, 2015. Sensors and systems for fruit detection and localization: a review. Comput. Electron. Agric.116, 8–19.
• Green S, Goodwin I, Cornwall D, 2011. Over-tree sprinkler cooling to reduce sunburn on fruit. Aust. Fruitgrow. 5 (10), 12–14.
• Hancock JF, Luby JJ, Brown SK, Lobos GA 2008. Apples. In: J.F. Hancock, editor, Temperate fruit crop breeding. Springer, Netherlands. p. 1–37. doi:10.1007/978- 1-4020-6907-9-1.
• Iglesias I, Graell J, Echeverria G, Vendrell M, 2000. Orchard cooling with overtree sprinkler irrigation to improve fruit color of ‘Delicious’ apples. HortScience, 35(7): 1207–1208.
• Iwanami H, 2011. Breeding for fruit quality in apple. In: M.A. Jenks, P. Bebeli (Eds), Breeding for Fruit Quality, Wiley-Blackwell Publishing pp. 1948-1965.
• Jones HG, Brennan RM, 2009. Potential impacts of climate change on soft fruit production: the example of winter chill n ribes. Acta Hortic. 838, 27-33. 10.17660/ActaHortic.2009.838.2.
• Kadıoğlu M, Ünal Y, İlhan A, Yürük C, 2017. Türkiye'de iklim değişikliği ve tarımda sürdürülebilirlik. Türkiye Gıda ve İçecek Sanayi Dernekleri Federasyonu Yayını (https://www.tgdf.org.tr/wp-content/uploads/2017/10/iklim-degisikligi-rapor-elma.compressed.pdf).
• Lauri PÉ, Simon S, 2019. Advances and challenges in sustainable apple cultivation. In: Lang, G.A. (ed.), Achieving sustainable cultivation of temperate zone tree fruits and berries Vol 2: Burleigh Dodds Science Publishing, Cambridge, UK. ISBN: 978 1 78676 212 2; p261-288.
• Lauri PÉ, Pitchers B, Dufour L, Simon S, 2020. Apple farming systems - current initiatives and some prospective views on how to improve sustainability. Acta Horticulturae, 10.17660/ActaHortic.2020.1281.42.
• Lewis KM, 2015. Labor Management in Modern Orchards and Opportunities for Mechanization. https://apal.org.au/wp-content/uploads/2019/09/Karen-Lewis-Future-Orchards-Mar-2015.pdf.
• Lin B, Mentzer Morrison R, 2016. A closer look at declining fruit and vegetable consumption using linked data sources. Food Choices and Health. United States Department of Agriculture Economic Research Service. https://www.ers.usda.gov/amber-waves/2016/july/a-closerlook-at-declining-fruit-and-vegetable-consumption-using-linked-data-sources/.
• Lu Y, Chadwick D, Norsec D, Powlson D, Shi W, 2015. Sustainable intensification of China’s agriculture: the key role of nutrient management and climate change mitigation and adaptation. Agriculture, Ecosystems and Environment 209, 1–4.
• Luby J, 2011. Challenges and opportunities of breeding for consumer preferences in apple and grape. www.appliedplantsciences.umn.edu/prod/.../cfans_content_324270.pdf.
• Luby JJ, Bedford DS, 2015. Cultivars as consumer brands: Trends in protecting and commercializing apple cultivars via intellectual property rights Crop Sci. 55: 2504–2510. doi: 10.2135/cropsci2014.10.0684.
• Luedeling E, Girvetz EH, Semenov MA, Brown PH, 2011. Climate change affects winter chill for temperate fruit and nut trees. PLoS ONE, 6, e20155.
• Luedeling E, 2012. Climate change impacts on winter chill for temperate fruit and nut production: A review. Scientia Horticulturae 144:218-229.
• Middleton S, McWater A, 2002. Hail netting of apple orchards - Australian experience. The Compact Fruit Tree. Volume 35, 2.
• Nath V, Kumar G, Pandey SD, Pandey S, 2019. Impact of climate change on tropical fruit production systems and its mitigation strategies. In: Sheraz Mahdi S. (eds) Climate Change and Agriculture in India: Impact and Adaptation. Springer, 10.1007/978-3-319-90086-5_11.
• O'Rourke D, 2013. Positioning Turkey's fruit industry for the future. Meyve Bilimi, 1:1-6.
• Parkes H, Murphy White S, Bound S, 2016. Dormancy-breaking sprays for low winter chill in apples. Department of Agriculture and Fisheries Queensland, Pomewest, University of Tasmania. 28 pp.
• Parkes HA, White NA, Goodwin L, Treeby J, MurphyWhite S, 2017. Understanding apple and pear production systems in a changing climate. Project Report. Horticulture Innovation Australia Ltd (http://era.daf.qld.gov.au/id/eprint/6037/1/AP12029-Final-Report-Complete-web.pdf).
• Petri JL, Leite GB, 2004. Consequences of insufficient winter chilling on apple tree budbreak', Acta Horticulturae, 662, 53-60.
• Rai R, Joshi S, Roy S, Singh O, Samir M, 2015. Implications of Changing Climate on Productivity of Temperate Fruit Crops with Special Reference to Apple. J Horticulture 2: 135. doi:10.4172/2376-0354.1000135.
• Robinson TL, 2003. Apple-orchard planting systems. In: Apples - Botany, Production and Uses (D. C. Ferree and I. J. Warrington, Eds). CABI Publishing, Wallingford, UK, pp. 345–408.
• Schrader L, Sun J, Zhang J, Seo J, Jedlow L, Felicetti D, 2004. Fruit Skin Disorders. Proc. 100th Annu. Meeting, Washington State Hort. Association, p.4. http://postharvest.tfrec.wsu.edu/PC2004E.pdf.
• Thomson G, McCaskill M, Goodwin I, Kearney G, Lolicato S, 2014. Potential impacts of rising global temperatures on Australia’s pome fruit industry and adaptation strategies. N Z J Crop Hortic Sci 42: 21–30.
• Tromp J, 2005a. Flower bud formation. Tromp J., Webster A.D., Wertheim S.J. (eds.). Fundamentals of temperate zone tree fruit production. Leiden, The Netherlands, p. 204–215.
• Tromp J, 2005b. Fruit ripening and quality. In: Tromp, J., Webster, A.D., Wertheim, S.J. (Eds.), Fundamentals of Temperate Zone Tree Fruit Production. Backhuys Publ., Leiden, The Netherlands, pp. 295-310.
• Verbiest R, Ruysen K, Vanwalleghem T, Demeester E, Kellens K, 2020. Automation and robotics in the cultivation of pome fruit: Where do we stand today? J Field Robotics. 1– 19. https://doi.org/10.1002/rob.22000.
• Wertheim SJ, 2005. Planting system and tree shape, p. 190–203. In: J. Tromp, A.D. Webster, and S.J. Wertheim (eds.). Fundamentals of temperate zone tree fruit production. Leiden, The Netherlands.
• Wertheim SJ, Webster AD, 2005. Manipulation of growth and development by plant bioregulators, p. 267–294. In: J. Tromp, A.D. Webster, and S.J. Wertheim (eds.). Fundamentals of temperate zone tree fruit production. Leiden, The Netherlands.
• Westwood MN, 1995. Temperate Zone Pomology: Physiology and Culture (Third Edition). Timber Press, 523pp. Oregon.
• Wilton J, 2020. Looking back to the future: building on 50 years’ gains. Australian Fruitgrower, 14 (1): 35-39.
• Wilson R, Spark S, 2018. Improving Fruit Quality. https://apal.org.au/wp-content/uploads/2019/09/FO-winter-2018-Fruit-quality-AgFirst.pdf.
• Wilson R, Spark S, 2019. Climate impacts on quality, https://apal.org.au/wp-content/uploads/2019/08/Climate-Impacts-on-Quality-Steve-Spark-1.pdf.
• Wilson R, Hornblow C, 2021. Lessons learnt from the Global pandemicand a vision of improvement going forward. https://apal.org.au/wp-content/uploads/2019/08/FO-Autumn-Walk-Mar-2021-AgFirst-presentation-slides.pdf.
• Wilton J, 2017. Pros and cons of club varieties. Australian Fruitgrower, 11(4): 24-27.
• Wilton J, 2019. The Effects of Climate Change. Australian Fruitgrower, 13 (1): 39-41.
• Wünsche JN, Greer DH, Palmer JW, Lang A, McGhie T, 2001. Sunburn—the cost of a high light environment. Acta Hortic. 557, 349–356.