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番茄IL渐渗系开花坐果期抗旱性评价

李思琪赵鑫武灿灿屈世铎王小宁谢林杰罗涵刘玉东庞胜群

中国瓜菜2026，Vol.39Issue(5)：48-60,13.

中国瓜菜2026，Vol.39Issue(5)：48-60,13.DOI:10.16861/j.cnki.zggc.2025.0616

番茄IL渐渗系开花坐果期抗旱性评价

Evaluation of drought resistance at flowering and fruit-setting period in tomato introgression lines

李思琪 ¹赵鑫 ¹武灿灿 ¹屈世铎 ¹王小宁 ¹谢林杰 ¹罗涵 ¹刘玉东 ¹庞胜群¹

作者信息

1. 石河子大学农学院·特色果蔬栽培生理与种质资源利用兵团重点实验室新疆石河子 832003
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摘要

Abstract

The flowering and fruit-setting period represents a critical water-sensitive stage for tomato.Screening drought-resistant germplasm specifically adapted to this phase is therefore of paramount importance for breeding.To sys-tematically evaluate the long-term drought tolerance of tomato introgression lines(ILs)at this key reproductive stage,a population of 49 ILs derived from Solanum pennellii(LA0716)and the cultivated tomato M82 was subjected to field-im-posed natural drought stress for 28 days,encompassing the transition from flowering to fruit setting.A multidimensional assessment was conducted by integrating evaluations of plant morphology and fruit yield with leaf physiological indica-tors,combined with a scoring method,principal component analysis(PCA),and K-means clustering analysis.The results showed that prolonged drought stress resulted in a yield reduction exceeding 50%for the majority of the ILs,coupled with significant oxidative damage.PCA extracted four principal components,and cluster analysis classified the 49 ILs in-to four distinct categories:Highly drought-tolerant(4 lines),moderately drought-tolerant(31 lines),drought-sensitive(12 lines),and special-response type(2 lines).Among them,the highly drought-tolerant line IL4-2 maintained optimal plant architecture under drought stress,exhibiting an 18.8%increase in yield per plant and stable fruit size compared to the well-watered control.At the physiological level,IL4-2 displayed no significant accumulation of H2O2,a decrease in MDA content,and significant increases the content of Pro and SS,alongside enhanced activity of SOD,POD,and CAT.In con-clusion,IL4-2 possesses outstanding comprehensive drought resistance during the flowering and fruit-setting period.Its adaptive mechanism likely involves the synergistic enhancement of both osmotic adjustment and the antioxidant defense system.Consequently,IL4-2 can serve as an important candidate germplasm resource for breeding drought-resistant toma-to cultivar.

关键词

番茄渐渗系(ILs)/开花坐果期/干旱胁迫/抗旱性评价

Key words

Tomato introgression line(ILs)/Flowering and fruit-setting period/Drought stress/Drought resistance evalu-ation

分类

农业科技

引用本文复制引用

李思琪,赵鑫,武灿灿,屈世铎,王小宁,谢林杰,罗涵,刘玉东,庞胜群..番茄IL渐渗系开花坐果期抗旱性评价[J].中国瓜菜,2026,39(5):48-60,13.

基金项目

国家自然科学基金(32160713) （32160713）

中国瓜菜

ISSN：1673-2871

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