首页|期刊导航|果树学报|3,5,6-TPA促进荔枝果实增大和成熟的原因分析

3,5,6-TPA促进荔枝果实增大和成熟的原因分析OA

Analysis of the reasons why 3,5,6-TPA promotes the enlargement and maturation of litchi fruits

中文摘要英文摘要

[目的]探究全树喷施40mg·L-1 3,5,6-三氯-2-吡啶氧乙酸(3,5,6-TPA)对荔枝果实生长发育的调控作用及其潜在原因.[方法]以砧木为妃子笑的16年生的仙进奉为试验材料,在荔枝花后5周全树喷施浓度(ρ,后同)为40mg·L-13,5,6-TPA,测定和分析果实主要的生理和品质指标.[结果]喷施3,5,6-TPA能够显著增大仙进奉荔枝果实,促使果实提前1周成熟,对果实的内在品质没有显著影响.3,5,6-TPA处理促进果实增大的潜在原因包括:(1)短暂抑制了荔枝叶片的光合作用,导致部分果实在早期发育阶段受阻,后期发生脱落,起到了类似疏果的作用.(2)提高了果实发育前期果皮、假种皮和种子中的内源IAA含量.(3)增强了细胞壁转化酶、酸性转化酶、中性转化酶以及蔗糖磷酸合成酶活性,进而促进了糖分的积累.促进果实成熟提前的潜在原因包括:(1)提高了果实发育期间果皮、假种皮和种子中内源ABA含量.(2)促进了果实成熟期间内源IAA含量的提前下降.[结论]3,5,6-TPA可以在仙进奉荔枝的内在品质无显著影响的情况下,短暂抑制荔枝叶片净光合速率,改变假种皮中相关代谢酶活性,调控果实中各组织内源IAA、ABA含量,从而有效增加荔枝的果实大小和提高优质果率,促进果实提前成熟.

[Objective]3,5,6-trichloro-2-pyridinyloxyacetic acid(3,5,6-TPA)has been proven to have a positive effect on the enlargement and maturation of litchi fruits.However,previous studies have been limited to phenotypic observations,lacking in research on the mechanisms by which it regulates fruit size and maturation.This study used the high-quality late-maturing litchi variety Xianjinfeng as the ex-perimental material to explore the regulatory mechanisms by whole-tree spraying of 40 mg·L-1 3,5,6-TPA on litchi fruit growth and development,aiming to provide a scientific basis for its rational applica-tion in litchi production.[Methods]Sixteen-year-old Xianjinfeng litchi trees grafted onto Feizixiao rootstocks were used as experimental materials.Six trees with relatively consistent vigor were selected,with three trees sprayed with 40 mg·L-1 3,5,6-TPA and the other three sprayed with water as controls.The spraying was conducted five weeks after flowering(when the young fruit was about 1 g),until the leaf surface was dripping wet,with a volume of 8 L per tree.Fifteen branches were randomly selected from each treatment for tagging and fruit drop rate statistics.If fruit splitting occurred,the fruits were re-moved after counting and 20 fruits were randomly selected from each treatment for tagging to measure their transverse and longitudinal diameters for dynamic fruit development analysis.Eight mature leaves of the same age and position were selected from the external canopy of each tree and tagged,and their net photosynthetic rate was measured using a CIRAS-3 portable photosynthesis system(PP system,USA)every three days between 9:00-11:00 a.m.,before and after treatment,until photosynthetic dam-age was restored.Fruit samples were collected once a week,with 30 fruits per sample.The pericarp,pulp,and seeds were separated,frozen in liquid nitrogen,and stored in a-80 ℃ freezer for the determi-nation and analysis of major physiological indices of the fruit.The fruit quality was finally measured at harvest.[Results]Spraying with 3,5,6-TPA significantly enlarged the Xianjinfeng litchi fruit.The aver-age fruit weight of the treated group reached 25.0 g,while that of the control was only 22.9 g,represent-ing a 9.2%increase in the treated group compared to the control.The proportion of first-grade fruit in the treated group increased by 137.5%compared to the control,while the proportion of substandard fruit decreased by 128.3%.The treatment also advanced fruit maturation by one week but did not alter the final coloration of the pericarp after maturation.It had no significant effect on the fruit soluble sol-ids,titratable acid,solid-acid ratio,edible rate,or rate of sunken seeds.Spraying with 3,5,6-TPA inhibit-ed fruit drop in the first four weeks after treatment.However,some fruits on the panicles stopped grow-ing and the pericarp turned yellow.These developmentally arrested fruits began to drop from the third week,and by harvest,the cumulative fruit drop rate in the treated group was higher than that in the con-trol,although the difference was not significant.Spraying with 3,5,6-TPA temporarily induced photo-synthetic damage in litchi leaves within 10 days after treatment,which then returned to normal.Spray-ing with 3,5,6-TPA significantly increased the sucrose content in the aril 2-3 weeks after treatment,as well as the contents of fructose,glucose,and total sugar,with no significant differences at harvest.Spraying with 3,5,6-TPA altered the activity of key enzymes in aril sucrose metabolism,significantly in-creasing acid invertase activity in the third week after treatment,neutral invertase activity in the second week,with no significant difference in sucrose synthase activity,and increased sucrose phosphate syn-thase activity before the fourth week,which then fell below the control.Foliar application of 3,5,6-TPA advanced the peak of endogenous IAA during fruit ripening and accelerated the subsequent decline by 1 week relative to the control,while it increased the ABA content in various tissues of the fruit.The poten-tial reasons for the promotion of fruit enlargement by 3,5,6-TPA treatment include:(1)Briefly inhibit-ing the net photosynthetic rate of litchi leaves,causing some fruits to be abortted in the early develop-mental stage and then drop,which had a thinning effect;(2)Increasing the endogenous IAA content in the pericarp,aril,and seeds during the early stages of fruit development;(3)Enhancing the activities of cell wall invertase,acid invertase,neutral invertase,and sucrose phosphate synthase,thereby promoting sugar accumulation and fruit development.The potential reasons for the accelerated fruit maturation in-clude:(1)Increasing the endogenous ABA content in the pericarp,aril,and seeds during fruit develop-ment;(2)Promoting the early decline of endogenous IAA content in the pericarp and aril during fruit maturation.[Conclusion]Compared with the control,3,5,6-TPA can temporarily inhibit the net photo-synthetic rate of litchi leaves without significantly affecting the intrinsic quality of Xianjinfeng litchi.It can also alter the activity of related metabolic enzymes in the aril,promote sugar accumulation in the early stages of fruit development,and regulate the endogenous IAA and ABA contents in various fruit tissues,thereby effectively increasing fruit size and the rate of high-quality fruit,and promoting early fruit maturation.

黄志强;刘旋;严婷;邓嘉辉;赵明磊;李建国

华南农业大学园艺学院,广州 510642华南农业大学园艺学院,广州 510642华南农业大学园艺学院,广州 510642华南农业大学园艺学院,广州 510642华南农业大学园艺学院,广州 510642华南农业大学园艺学院,广州 510642

农业科技

荔枝3,5,6-TPA果实大小果实成熟果实品质

Litchi3,5,6-TPAFruit sizeFruit maturationFruit quality

《果树学报》 2026 (1)

122-135,14

国家重点研发计划(2023YED2300805)国家荔枝龙眼产业技术体系(CARS-32-09)

10.13925/j.cnki.gsxb.20250304

评论