高岭土对酿酒葡萄光合、荧光特性及果实品质的影响

Effect of kaolin on the photosynthetic and fluorescence characteristics and fruit quality of wine grapes

  • 摘要: 针对新疆天山北麓产区酿酒葡萄果实发育过程中所存在的高温频发所引起的问题, 本研究以‘赤霞珠’(Cabernet Sauvignon)、‘梅鹿辄’(Merlot)和‘品丽珠’(Cabernet Franc) 3个红色酿酒葡萄(Vitis vinifera)为试材, 于果实膨大期对叶面进行喷施高岭土(6%)处理, 以常规管理为对照(CK), 通过测定光合特性、荧光特性以及果实品质等指标, 对其进行综合分析, 系统探究高岭土对新疆天山北麓产区酿酒葡萄的影响。结果表明: ‘赤霞珠’、‘梅鹿辄’和‘品丽珠’这3个红色酿酒葡萄经过高岭土处理后, 叶温对比CK分别降低8.9%、8.2%、9.3%, 有效增加了叶绿素a的含量, 其中‘梅鹿辄’对比CK增加52%; 3个品种经高岭土处理后有效提高了净光合速率, 在JIP-test参数中VJ对比CK显著降低, 电子传输通量的量子产率(φEO)和每光子吸收的PSⅡ最终电子受体还原的量子产率(φRO)显著提高, 3个品种φEO参数对比CK分别提高58.1%、93%、61.1%, φRO参数分别提高87.5%、33.3%、66.6%, 3个品种单位反应中心吸收光能(ABS/RC)和单位面积吸收的光能(ABC/CSm)对比CK均显著提高, 有效提高了单位反应中心及单位面积对光能的吸收和利用, 单位反应中心耗散能量(DIO/RC)和单位面积热耗散能量(DIO/CSm)参数对比CK均显著降低, 在一定程度上避免了高温胁迫所造成的危害; 在果实品质方面, 高岭土处理后的各品种葡萄果皮中的总黄酮、类黄酮、黄烷醇含量显著提升, 赤霞珠’ ‘梅鹿辄’和‘品丽珠’果皮中类黄酮含量对比CK分别提升62.3%、63.9%和54.4%, 黄酮含量分别提升79.1%、69.1%和56.7%, 黄烷醇含量分别提升48.6%、66.0%和27.2%; 在种子中, ‘品丽珠’类黄酮含量提升68.2%, ‘赤霞珠’总黄酮含量提升67.1%。本研究表明, 对新疆酿酒葡萄叶面进行喷施高岭土可以有效降低天山北麓产区‘赤霞珠’ ‘梅鹿辄’和‘品丽珠’这3个红色酿酒葡萄的叶温, 减少单位面积叶片的热耗散, 提高光合速率, 提高叶片单位反应中心及单位面积对光能的吸收和利用, 有效避免了夏季高温胁迫所造成的危害; 叶面喷施高岭土还有效增加了这3个酿酒葡萄果实的总酸和部分酚类物质的含量, 提高了3个酿酒葡萄的果实品质。

     

    Abstract: In response to the problems caused by frequent high temperatures during the development of wine grape fruits in the northern foothills of the Tianshan Mountains in Xinjiang, this study used three red wine grapes (Vitis vinifera), namely ‘Cabernet Sauvignon’, ‘Merlot’, and ‘Cabernet Franc’, as test materials. During the fruit swelling period, the leaves were sprayed with kaolin (6%) treatment, with conventional management as the control (CK). By measuring photosynthetic characteristics, fluorescence characteristics, and fruit quality indicators, a comprehensive analysis was conducted to systematically explore the effect of kaolin on wine grapes in the northern foothills of the Tianshan Mountains in Xinjiang. The results showed that after being treated with kaolin, the leaf temperature of three red wine grapes, ‘Cabernet Sauvignon’, ‘Merlot’, and ‘Pinot Noir’, decreased by 8.9%, 8.2%, and 9.3% respectively compared to CK, effectively increasing the content of chlorophyll a. Among them, ‘Merlot’ increased by 52% compared to CK. After treatment with kaolin, the net photosynthetic rate of three varieties was effectively improved. In the JIP-test parameters, Vj was significantly reduced compared to CK, and the quantum yield of electron transport flux (φEO) and the quantum yield of PSⅡ final electron acceptor reduction per photon (φRO) were significantly increased. The φEO parameters of the three varieties increased by 58.1%, 93%, and 61.1% compared to CK, and the φRO parameters increased by 87.5%, 33.3%, and 66.6%, respectively. The absorption of light energy per unit reaction center (ABS/RC) and unit area (ABC/CSm) of the three varieties were significantly increased compared to CK, effectively improving the absorption and utilization of light energy per unit reaction center and unit area. The dissipated energy per unit reaction center (DIO/RC) and unit area (ABC/CSm) The parameters of surface heat dissipation energy (DIO/CSm) were significantly reduced compared to CK, which to some extent avoided the harm caused by high temperature stress; In terms of fruit quality, the total flavonoids, flavonoids, and flavanols in the skins of various grape varieties treated with kaolin significantly increased. Compared with CK, the flavonoid content in the skins of Cabernet Sauvignon, Merlot, and Merlot increased by 62.3%, 63.9%, and 54.4%, the flavonoid content increased by 79.1%, 69.1%, and 56.7%, and the flavanols content increased by 48.6%, 66.0%, and 27.2%, respectively; In the seeds, the flavonoid content of ‘Pinlizhu’ increased by 68.2%, and the total flavonoid content of 'Cabernet Sauvignon' increased by 67.1%. This study shows that spraying kaolin on the leaves of Xinjiang wine grapes can effectively reduce the leaf temperature of three red wine grapes, 'Cabernet Sauvignon', 'Merlot' and ‘Pinlizhu’, in the northern foothills of the Tianshan Mountains. It reduces the heat dissipation per unit area of leaves, increases the photosynthetic rate, enhances the absorption and utilization of light energy per unit reaction center and unit area of leaves, and effectively avoids the harm caused by high temperature stress in summer; Spraying kaolin on the leaves also effectively increased the total acid and some phenolic substances in the fruits of these three wine grapes, improving their fruit quality

     

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