[目的]探究调环酸钙(Pro-Ca)对葡萄光合作用、抗氧化特性和果实品质的影响机制,筛选出可应用于葡萄实践生产的Pro-Ca适宜处理方法.[方法]以11年生酿酒葡萄霞多丽为试材,于初花后22、42、62和82d分别用200(T1)、400(T2)、600(T3)和800 mg·L-1(T4)的Pro-Ca溶液进行叶面喷施,以喷施蒸馏水作为对照(CK),测定初花后25、45、65、85和105 d(成熟期)叶片光合色素含量、叶绿素荧光参数、光合参数、保护酶活性和成熟期果实品质相关指标.[结果]Pro-Ca处理可以增强霞多丽葡萄叶片光合色素含量,提高净光合速率(Pn),降低活性氧的积累量,并提高果实品质,其中,各时期T3处理叶绿素a(Chl a)、叶绿素b(Chl b)含量和Pn平均较对照分别提高了19.63%、16.67%和20.13%,且T3处理在初花后45d时显著降低了过氧化氢(H2O2)含量,初花后65和85d使超氧阴离子(O2-)产生速率分别降低了34.42%和24.98%.此外,Pro-Ca处理增加了果实可溶性固形物、可滴定酸、果皮总酚和类黄酮含量,其中,T3处理提升效果最为明显,分别较对照显著提高了12.12%、8.77%、4.37%和21.9%.[结论]Pro-Ca处理可以增强霞多丽葡萄的光合作用和改善抗氧化特性和果实品质,根据主成分分析的结果,使用600 mg·L-1的Pro-Ca处理效果最佳.
[Objective]The quality of wine grape determines the quality of the wine.In the arid regions of the Northwest,low rainfall and the cool climate in spring and autumn shorten the growing period of grape.Intermediate and late maturity varieties often have problems of insufficient maturity,insufficient sugar content,and low yield,which seriously impact the sustainable development of the wine grape in-dustry.Previous studies have shown that the exogenous spraying of natural or synthetic inducers,such as abscisic acid,gibberellin,methyl jasmonate,etc.,can effectively guarantee crop nutrition supply,im-prove resistance,enhance photosynthesis,and ultimately achieve the production goal of high quality and high yield.Prohexadione-calcium(Pro-Ca)is a low-toxicity,artificially synthesized non-polluting plant growth regulator and is thought to promote plant growth and improve fruit quality.The experi-ment intended to use Pro-Ca effervescent granules(containing 5%effective Pro-Ca)for whole-tree spraying of Chardonnay grape to explore the impact of Pro-Ca on grape physiological characteristics and fruit quality,and to screen out the suitable application concentration,providing a theoretical basis for improving the quality of wine grape.[Methods]The experiment used 11-year-old trees of wine grape Chardonnay as materials.On the 22 d,42 d,62 d,and 82 d from the initial flowering,the leaves were sprayed with 200 mg·L-1(T1),400 mg·L-1(T2),600 mg·L-1(T3),and 800 mg·L-1(T4)Pro-Ca so-lution,respectively.The distilled water was used as control.The content of photosynthetic pigments,chlorophyll fluorescence parameters,photosynthetic characteristics,protective enzyme activity,and fruit quality-related indicators were measured on the 25,45,65,85,and 105 days(maturity stage)after the initial flowering.[Results](1)The pro-Ca treatment could enhance the content of photosynthetic pigments in Chardonnay grape leaves,increase the net photosynthetic rate(Pn),and result in changes in the chlorophyll fluorescence parameters.The T3 treatment increased the chlorophyll a(Chl a),chloro-phyll b(Chl b)content,and Pn,by 19.63%,16.67%,and 20.13%respectively,compared with the con-trol.On the 65,85,and 105 days after the initial flowering,the T3 treatment enhanced the leaf transpira-tion rate(Tr)compared with control by 10.50%,28.68%,and 8.64%,respectively.On the 45,65,and 85 days after initial flowering,the T3 treatment significantly(p<0.05)increased the leaf stomatal conduc-tance(Gs)compared with the control by 24.69%,15.26%,and 7.24%,respectively.The leaf intercellu-lar CO2 concentration(Ci)in the T3 treatment was significantly(p<0.05)higher than those of the other treatments on the 65 and 85 days after the initial flowering,with increases of 3.13%and 5.55%,respec-tively.The pro-Ca treatment increased the leaf parameters Fv/Fm,Y(Ⅱ),qP,qN,and ETR to varying de-grees,while reducing the leaf non-photochemical quenching(NPQ).Among them,on the 25,45,85,and 105 days after the initial flowering,the T3 treatment significantly(p<0.05)increased Fv/Fmby 11.01%,13.93%,6.60%,and 7.55%,respectively,compared with the control.On the 25,45,65,85,and 105 days after the initial flowering,the T3 treatment significantly(p<0.05)increased Y(Ⅱ)by 4.42%,7.35%,8.16%,3.69%,and 6.32%,respectively,compared with the control.(2)The pro-Ca treatment re-duced the accumulation of reactive oxygen species in the leaves and increased the activity of protective enzymes.On the 45 days after the initial flowering,the T3 treatment significantly(p<0.05)reduced the hydrogen peroxide(H2O2)content.On the 65 and 85 days after the initial flowering,the T3 treatment de-creased the production rate of superoxide anion(O2-)by 34.42%and 24.98%,respectively.On the 25,45,and 85 days after the initial flowering,the T2 treatment showed the highest APX activity,with in-creases of 5.18%,9.70%,and 15.26%,respectively,compared with control.The T3 treatment signifi-cantly(p<0.05)increased CAT activity by 16.83%,13.58%,and 31.70%on the 65,85,and 105 days after the initial flowering,respectively.The T3 treatment significantly enhanced(p<0.05)POD activity by 25.62%,34.81%,12.00%,and 27.26%on the 45,65,85,and 105 days after the initial flowering,re-spectively.The SOD activity in the leaves increased by 6.86%,13.15%,4.48%,and 14.43%on the 45,65,85,and 105 days after the initial flowering,respectively,in the T3 treatment compared with the con-trol.(3)Pro-Ca treatment increased the content of soluble solids,titratable acidity,total phenols,and fla-vonoids in the berries.Among them,the T3 treatment showed the most significant enhancement,with increases of 12.12%,8.77%,4.37%,and 21.9%,respectively,compared with control.(4)The principal component analysis was conducted on 29 indicators,including the physiological characteristics of the leaves and fruit quality,with different treatments.The comprehensive evaluation of the effects of Pro-Ca treatment on wine grapes revealed that leaf spray with 600 mg L-1 Pro-Ca iwould be the most suit-able concentration.[Conclusion]In summary,the pro-Ca treatment can enhance the photosynthesis,an-tioxidant properties and fruit quality of Chardonnay grape.600 mg·L-1 Pro-Ca treatment had the best ef-fect.