果树学报2025,Vol.42Issue(7):1397-1406,10.DOI:10.13925/j.cnki.gsxb.20250131
杂交杏李种质的抗寒性鉴定及生理机制解析
Cold hardiness evaluation and physiological mechanism elucidation in apricot-plum hybrid(Prunus salicina × P.armeniaca)germplasm
摘要
Abstract
[Objective]The Prunus salicina × P.armeniaca hybrid is a novel interspecific hybrid de-rived from the cross between plum(P.salicina)and apricot(P.armeniaca),renowned for its exception-al fruit quality and economic value.P.salicina × P.armeniaca hybrid trees are widely planted in Xinji-ang,where they are known as the climatically marginal zone for economic cultivation due to its harsh cold winters characterized by prolonged subzero temperatures.In recent years,recurrent freezing inju-ries have severely constrained the sustainable development of P.salicina × P.armeniaca hybrid planta-tions,positioning low-temperature stress as a critical abiotic factor limiting its cultivation.However,systematic investigations into cold tolerance evaluation and physiological response mechanisms of this hybrid fruit crop remain scarce.This study aimed to evaluate the cold tolerance capacity of P.salicina × P.armeniaca hybrid germplasms and elucidate the physiological mechanisms underlying genotype-spe-cific responses to low-temperature stress,thereby facilitating the breeding of cold-resistant varieties.[Methods]Ten P.salicina × P.armeniaca hybrid genotypes comprising six commercial cultivars and four elite lines selected through our previous efforts were used for this study.In the winter of 2023,their annual dormant branches were collected and were subjected to controlled low-temperature treat-ments at-10,-15,-20,-25 and-30 ℃ for 12 h,respectively.The relative electrical conductivity(REC)at different temperatures was measured immediately,and the half-lethal temperature(LT50)was calculated by combining the logistic equation to identify their cold tolerance.Furthermore,comparative physiological analysis was conducted on two strong cold-tolerant genotypes(Weiwang and XL9)and two cold-sensitive cultivars(Konglongdan and Weidi).The malondialdehyde(MDA)content was mea-sured using thiobarbituric acid method.The determination of soluble sugar(SS)content was carried out using the anthrone method.The proline(Pro)content was determined using the indene ketone colorimet-ric method.In addition,the superoxide anion(O2-·)content,hydrogen peroxide(H2O2)content,superox-ide dismutase(SOD)activity,and peroxidase(POD)activity were determined using commercial re-agent kits purchased from Suzhou Mengxi Biomedical Technology Co.,Ltd.Finally,their cold toler-ance was comprehensively evaluated through membership function analysis.[Results]With the de-creasing of cold treatment temperature,the relative conductivity of the annual dormant branches of 10 P.salicina × P.armeniaca hybrid genotypes gradually increased,with LT50 values ranging from-23.02 ℃ to-31.67 ℃,and the fit of the logistic equation for each genotype was R2 between 0.822 and 0.996.Based on these data,their cold tolerance is divided into three levels:strong cold tolerance(LT50<-30 ℃,including Weiwang and XL9),moderate cold tolerance(-30 ℃<LT50<-25 ℃,including Feng-weihuanghou,Fengweimeigui and XL8),and low temperature sensitivity(LT50>-25 ℃,including Wei-hou,Weidi,Konglongdan,XL7 and XL 10).Two strong cold-tolerant genotypes(Weiwang and XL9)and low-temperature sensitive genotypes(Konglongdan and Weidi)were selected to comparatively ana-lyze the physiological response mechanism to low-temperature stress.Physiological responses diverged significantly between cold-tolerant and sensitive genotypes.In Weiwang and XL9,antioxidant enzymes(SOD and POD)and osmolytes(SS and Pro)displayed coordinated regulation,peaking at intermediate temperatures(-20 ℃ to-25 ℃)before declining,suggesting adaptive stress mitigation.Conversely,sensitive genotypes exhibited progressive oxidative damage,evidenced by linearly increasing O2-·,H2O2,and MDA levels(up to 195.4%increase in H2O2 at-30 ℃),coupled with declining SS(44.2%re-duction)and Pro contents,which indicated the oxidative damage they suffered increased gradually and the cell osmotic balance was disrupted.Additionally,SOD and POD activity of Konglongdan and Weidi fluctuated significantly.Membership function analysis confirmed the cold tolerance hierarchy:XL9>Weiwang>Konglongdan>Weidi,aligning with LT50 rankings.[Conclusion]LT50 serves as a reliable indicator for cold tolerance evaluation in P.salicina × P.armeniaca hybrids.The superior cold toler-ance of Weiwang and XL9 primarily stems from enhanced antioxidant capacity and osmotic adjustment in dormant branches.These findings provide valuable germplasm resources for cold-tolerant breeding programs and offer theoretical guidance for the introduction and cultivation of P.salicina × P.armenia-ca hybrids in cold-prone regions.关键词
杂交杏李/低温胁迫/抗寒性/生理响应/隶属函数分析/综合评价Key words
Prunus salicina × P.armeniaca hybrid/Low temperature stress/Cold tolerance/Physiolog-ical response/Membership function analysis/Comprehensive evaluation分类
农业科技引用本文复制引用
王阿宁,齐安国,王梦瑶,朱高浦,李泰山,李芳东,杨绍彬,虎海防,白丹凤..杂交杏李种质的抗寒性鉴定及生理机制解析[J].果树学报,2025,42(7):1397-1406,10.基金项目
中国林科院中央级公益性科研院所基本科研业务费专项资金资助项目(CAFYBB2024QF044) (CAFYBB2024QF044)
2023年新疆维吾尔自治区重点研发计划专项(2023B02016) (2023B02016)
河南省科技攻关项目(232102110228) (232102110228)
