Long-term Elevated Temperature Affects the Growth and Quality of ‘Shiranuhi’ Mandarin Grown in a Green House

Korean Journal of Environmental Agriculture Pub Date : 2022-12-31 DOI:10.5338/kjea.2022.41.4.37

Misun Kim, Young-eel Moon, S. Kim, J. Joa, S. Yun, Yosup Park

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Abstract

BACKGROUND: The mean annual temperature of the Korean Peninsula will continue to rise due to global warming. ‘Shiranuhi’ mandarin—a late-harvest cultivar —is primarily cultivated in plastic greenhouses where high temperatures cannot be directly avoided. Therefore, growth and fruit quality changes under elevated temperatures must be investigated. METHODS AND RESULTS: Elevated temperatures were divided into three groups [2°C (T-I), 4°C (T-II), and 6℃ (T-III) above the ambient temperature] during the 2019-2020 season. Mean temperatures were 17.1℃, 18.6 ℃, and 20.2℃ in T-I, T-II, and T-III, respectively. The bud bursts in T-II and T-III were earlier than that in T-I at 7 days and 11 days, respectibely. And the full blooms in T-II and T-III were earlier than that in T-I at 11 days and 23 days, respectively. Fruit size significantly increased with increased temperature. The citrus color index in the coloring phase markedly differed across treatments. Fur-ther, total soluble solid and acid contents markedly chan-ged with temperature rise but the sugar-to-acid ratio did not. Sucrose content tended to decrease with increase in temperature, but citric acid content remained unaffected. CONCLUSION(S): Elevated temperature accelerated plant growth and development but delayed rind color development in ‘Shiranuhi’ mandarin. Therefore, rise in ambient temperature by >4.6°C may negatively affect yield and fruit quality.

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长期高温对温室栽培的白野柑生长和品质的影响

背景:受全球变暖影响，朝鲜半岛年平均气温将持续上升。“Shiranuhi”柑橘是一种晚收品种，主要种植在塑料大棚中，高温无法直接避免。因此，必须研究高温下的生长和果实品质变化。方法与结果:将2019-2020季节的高温分为3组[高于环境温度2°C (T-I)、4°C (T-II)和6℃(T-III)]。T-I、T-II和T-III的平均温度分别为17.1℃、18.6℃和20.2℃。T-II和T-III的芽爆时间分别早于T-I的7天和11天。T-II和T-III的开花时间分别早于T-I，分别为11天和23天。果实大小随温度升高而显著增大。柑桔着色期的显色指数在不同处理间差异显著。随着温度的升高，可溶性固形物和总酸含量发生显著变化，但糖酸比无显著变化。蔗糖含量随温度升高有降低的趋势，而柠檬酸含量不受影响。结论(S):高温促进了白野柑植株的生长发育，但延缓了其果皮颜色的发育。因此，环境温度升高>4.6°C可能会对产量和果实品质产生负面影响。

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来源期刊

Korean Journal of Environmental Agriculture

CiteScore

0.50

自引率

0.00%

发文量