«上一篇/Previous Article|本期目录/Table of Contents|下一篇/Next Article»

j.issn.1000-4440.2025.08.016]
点击复制

不同光质和光周期对樱桃番茄幼苗生长及果实品质的影响()

江苏农业学报[ISSN:1006-6977/CN:61-1281/TN]

卷:
期数:: 2025年08期

页码:: 1592-1605

栏目:: 园艺

出版日期:: 2025-08-31

文章信息/Info

Title:: Effects of different light qualities and photoperiods on the growth of cherry tomato seedlings and fruit quality

作者:: 赵慧¹; 李利平¹; 王璐璐¹; 陈祥¹; 罗璐¹; 杨广平²; 付金军²; 胡新华²; 裴卓强³; (1.宁夏大学葡萄酒与园艺学院,宁夏银川750021；2.宁夏巨丰种苗有限责任公司,宁夏银川750021；3.宁夏泰金种业股份有限公司,宁夏石嘴山753000)

Author(s):: ZHAO Hui¹; LI Liping¹; WANG Lulu¹; CHEN Xiang¹; LUO Lu¹; YANG Guangping²; FU Jinjun²; HU Xinhua²; PEI Zhuoqiang³; (1.School of Enology and Horticulture, Ningxia University, Yinchuan 750021, China；2.Ningxia Jufeng Seedling Co., Ltd., Yinchuan 750021, China；3.Ningxia Taijin Seed Co., Ltd., Shizuishan 753000, China)

关键词:: 樱桃番茄; 光质; 光周期; 生长发育; 果实品质

Keywords:: cherry tomato; light quality; photoperiod; growth and development; fruit quality

分类号:: S641.2

DOI:: doi:10.3969/j.issn.1000-4440.2025.08.016

文献标志码:: A

摘要:: 为探究不同光质和光周期对粉色樱桃番茄幼苗生长和果实品质的影响,本研究以纯合粉色樱桃番茄自交系20CL0125-0为材料,设置6种光质处理[白光(CK)、红光∶蓝光∶白光=3∶2∶3(T1)、红光∶蓝光∶白光=2∶1∶3(T2)、红光∶蓝光∶白光∶紫外光=8∶5∶5∶1(T3)、红光∶蓝光∶白光∶远红光=4∶2∶3∶1(T4)、红光∶蓝光∶白光∶远红光∶紫外光=6∶4∶5∶2∶1(T5),总光量子通量密度为(360±10) μmol/(m2·s)]和5种光周期处理
[12 h光照/12 h黑暗(T4-1)、14 h光照/10 h黑暗(T4-2)、16 h光照/8 h黑暗(T4-3)、18 h光照/6 h黑暗(T4-4)、20 h光照/4 h黑暗(T4-5)]。结果表明:播种后14 d,T3处理番茄幼苗净光合速率和相对电子传递速率显著高于CK、T1处理、T4处理和T5处理(P＜0.05), T4处理番茄幼苗超氧化物歧化酶活性显著高于CK、T1处理、T2处理、T3处理和T5处理(P＜0.05)；T5处理番茄幼苗过氧化物酶活性显著高于CK、T1处理、T2处理、T3处理和T4处理(P＜0.05)。T3处理番茄果实可溶性糖和可溶性固形物含量显著高于CK、T2处理、T4处理和T5处理(P＜0.05)。播种后24 d,T4-5处理番茄幼苗全株鲜重、全株干重、壮苗指数和根冠比显著高于T4-1处理、T4-3处理(P＜0.05)。播种后14 d,T4-3处理番茄幼苗叶绿素a含量、叶绿素b含量和净光合速率最高,显著高于T4-1处理、T4-2处理、T4-4处理和T4-5处理(P＜0.05)。T4-3处理番茄果实可溶性糖含量和可溶性固形物含量显著高于T4-1处理、T4-2处理(P＜0.05)。隶属函数评价结果表明,采用红光∶蓝光∶白光∶远红光=4∶2∶3∶1(光子通量密度比)的光质,结合16 h光照/8 h黑暗的光周期,能够显著促进番茄的生长发育,并有效提升果实品质。本研究结果为樱桃番茄工厂化高效栽培提供了理论依据。

Abstract:: To explore the effects of different light qualities and photoperiods on the growth of pink cherry tomato seedlings and fruit quality, this study used the purebred pink cherry tomato inbred line 20CL0125-0 as the experimental material. Six light quality treatments were set up, including white light (CK), red light∶blue light∶white light = 3∶2∶3 (T1), red light∶blue light∶white light = 2∶1∶3 (T2), red light∶blue light∶white light∶ultraviolet light = 8∶5∶5∶1 (T3), red light∶blue light∶white light∶far-red light = 4∶2∶3∶1 (T4), and red light∶blue light∶white light∶far-red light∶ultraviolet light = 6∶4∶5∶2∶1 (T5), with a total photon flux density of (360 ± 10) μmol/(m2·s). Five photoperiod treatments were also applied, including 12 h light/12 h darkness (T4-1), 14 h light/10 h darkness (T4-2), 16 h light/8 h darkness (T4-3), 18 h light/6 h darkness (T4-4), and 20 h light/4 h darkness (T4-5). The results showed that 14 days after sowing, the net photosynthetic rate and relative electron transport rate of tomato seedlings under T3 treatment were significantly higher than those under CK, T1, T4, and T5 treatments (P＜0.05). The superoxide dismutase activity of tomato seedlings under T4 treatment was significantly higher than that under CK, T1, T2, T3, and T5 treatments (P＜0.05). The peroxidase activity of tomato seedlings under T5 treatment was significantly higher than that under CK, T1, T2, T3, and T4 treatments (P＜0.05). The soluble sugar and soluble solids contents in the tomato fruits under T3 treatment were significantly higher than those under CK, T2, T4, and T5 treatments (P＜0.05). Twenty-four days after sowing, the fresh weight, dry weight, seedling vigor index, and root-to-shoot ratio of tomato seedlings under T4-5 treatment were significantly higher than those under T4-1 and T4-3 treatments (P＜0.05). Fourteen days after sowing, the chlorophyll a content, chlorophyll b content, and net photosynthetic rate of tomato seedlings under T4-3 treatment were the highest and were significantly higher than those under T4-1, T4-2, T4-4, and T4-5 treatments (P＜0.05). The soluble sugar and soluble solids contents in the tomato fruits under T4-3 treatment were significantly higher than those under T4-1 and T4-2 treatments (P＜0.05). The results of the membership function evaluation indicated that the light quality with a photon flux density ratio of red light∶blue light∶white light∶far-red light = 4∶2∶3∶1, combined with a photoperiod of 16 h light/8 h darkness, could significantly promote the growth and development of tomato plants and effectively improve fruit quality. The results of the study provide a theoretical basis for the factory efficient cultivation of cherry tomatoes.

参考文献/References:

[1]陈豪斌,金临轩,杨素华,等. 模拟运输振动胁迫对樱桃番茄生理品质和电学特性的影响[J]. 核农学报,2024,38(4):715-724.
[2]陈永快,王涛,兰婕,等. 植物工厂内LED光调控在作物栽培中的研究进展[J]. 江苏农业科学,2020,48(23):40-46.
[3]李雪,赵士文,包星星,等. 光周期对黄瓜幼苗形态、光合特性及碳水化合物含量的影响[J]. 中国农业大学学报,2024,29(4):164-172.
[4]李燕,樊正炎,张曼,等. 不同LED光照对柑橘幼苗生长的影响[J]. 果树学报,2024,41(10):2038-2050.
[5]罗媛,叶林,郭文忠,等. 红蓝光补光对设施番茄生长发育及荧光特性的影响[J]. 中国农业气象,2024,45(5):506-516.
[6]孙斌,吕璐平,李灵芝,等. LED红蓝光配比对番茄生长和光合的影响[J]. 中国农业气象,2024,45(5):517-524.
[7]何伟明,刘庞源,武占会,等. 不同光强与光质处理下对番茄幼苗生长的影响[J]. 北方园艺,2017(19):72-75.
[8]董飞,王传增,张现征,等. 不同光质对樱桃番茄幼苗生理与光合特性的影响[J]. 植物生理学报,2017,53(7):1208-1214.
[9]文莲莲,李岩,秦利杰,等. 白光与红蓝光比例对番茄壮苗及光合特性的影响[J]. 植物生理学报,2018,54(7):1223-1232.
[10]唐深国,郑桂填,戴泽毫,等. 不同含量紫外光对矮生黄番茄生长的影响[J]. 中国照明电器,2021(9):15-19.
[11]黄薪历,于捷,艾楷棋,等. 红光和远红光对番茄生长发育的影响[J]. 西北农林科技大学学报(自然科学版),2018,46(3):111-118,127.
[12]CAO K, YU J, XU D W, et al. Exposure to lower red to far-red light ratios improve tomato tolerance to salt stress[J]. BMC Plant Biology,2018,18(1):92.
[13]吴泽英,薛占军,高志奎. 全光期LED白光对番茄植株干物质累积及光合性能的影响[J]. 河北农业大学学报,2015,38(4):56-61.
[14]DORAIS M, YELLE S, GOSSELIN A. Influence of extended photoperiod on photosynthate partitioning and export in tomato and pepper plants[J]. New Zealand Journal of Crop and Horticultural Science,1996,24(1):29-37.
[15]NEMESKRI E, HELYES L. Physiological responses of selected vegetable crop species to water stress[J]. Agronomy，2019,9(8):447.
[16]HERNNDEZ R, KUBOTA C. Tomato seedling growth and morphological responses to supplemental led lighting red:blue ratios under varied daily solar light integrals[J]. Acta Horticulturae,2012,956:187-194.
[17]何蔚,陈丹艳,胡晓婷,等. 不同光周期与光质配比对番茄植株生长发育的影响[J]. 西北农业学报,2018,27(4):562-570.
[18]李合生. 植物生理生化实验原理和技术[M]. 北京:高等教育出版社,2000.
[19]张振贤,程智慧. 高级蔬菜生理学[M]. 北京:中国农业大学出版社,2008.
[20]MURAKAMI K, MATSUDA R, FUJIWARA K. Effects of supplemental lighting to a lower leaf using light-emitting diodes with different spectra on the leaf photosynthetic rate in sweet pepper[J]. Journal of Agricultural Meteorology,2013,69(2):55-63.
[21]温璐,马小红,马海霞,等. 宁夏不同播期胡萝卜品种综合评价[J]. 江西农业大学学报,2023,45(5):1166-1182.
[22]孟畅,赵杨,杨菊,等. 光质对皂荚幼苗生长发育、光合特性及相关生理指标的影响[J]. 植物生理学报,2022,58(10):1961-1972.
[23]LI Y M, JIANG H Z, GAO M F, et al. Far-red-light-induced morphology changes, phytohormone, and transcriptome reprogramming of Chinese kale (Brassica alboglabra bailey)[J]. International Journal of Molecular Sciences,2023,24(6):5563.
[24]任毛飞,毛桂玲,刘善振,等. 光质对植物生长发育、光合作用和碳氮代谢的影响研究进展[J]. 植物生理学报,2023,59(7):1211-1228.
[25]苏志能,杨婷,陈光彩. LED灯不同光质对番茄生长形态特征的影响[J]. 照明工程学报,2017,28(6):92-99.
[26]KALAITZOGLOU P, VAN IEPEREN W, HARBINSON J, et al. Effects of continuous or end-of-day far-red light on tomato plant growth, morphology, light absorption, and fruit production[J]. Frontiers in Plant Science,2019,10:322.
[27]JI Y R, OUZOUNIS T, COURBIER S, et al. Far-red radiation increases dry mass partitioning to fruits but reduces botrytis cinerea resistance in tomato[J]. Environmental and Experimental Botany,2019,168:103889.
[28]汪星星,陈钢,曹光球,等. 不同光质对杉木幼苗抗氧化酶活性和叶绿素含量的影响[J]. 甘肃农业大学学报,2022,57(4):137-146.
[29]KOBAYASHI T, TABUCHI T. Tomato cultivation in a plant factory with artificial light:effect of uv-a irradiation during the growing period on yield and quality of ripening fruit[J]. Horticulture Journal,2022,91(1):16-23.
[30]韩文,郭鹏飞,张坤,等. 弱光条件下不同补光方式对设施番茄幼苗生长的影响[J]. 新疆农业科学,2018,55(4):655-663.
[31]ZHANG Y, LIANG Y, HAN J, et al. Interactive effects of iron and photoperiods on tomato plant growth and fruit quality[J]. Journal of Plant Growth Regulation,2023,42(1):376-389.
[32]张毅,梁祎,韩静,等. 光周期和外源铁对番茄光合特性、果实品质及矿质元素含量的影响[J]. 西北农林科技大学学报(自然科学版),2022,50(1):104-111.

相似文献/References:

[1]闻婧,李倩中,李淑顺,等.不同ＬＥＤ光源对铁皮石斛生长和叶绿素荧光参数的影响[J].江苏农业学报,2016,(04):910.[doi:10.3969/j.issn.100-4440.2016.04.031]
　WEN Jing,LI Qian-zhong,LI Shu-shun,et al.Growth and chlorophyll fluorescence parameters of Dendrobium officinale exposed to different LED light qualities[J].,2016,(08):910.[doi:10.3969/j.issn.100-4440.2016.04.031]
[2]刘金龙,辛寒晓,范学明,等.盐胁迫下鱼蛋白多肽对樱桃番茄种子发芽特性的影响[J].江苏农业学报,2017,(03):662.[doi:doi:10.3969/j.issn.1000-4440.2017.03.026]
　LIU Jin-long,XIN Han-xiao,FAN Xue-ming,et al.Effects of fish protein polypeptide on salt-stressed cherry tomato seed germination[J].,2017,(08):662.[doi:doi:10.3969/j.issn.1000-4440.2017.03.026]
[3]周蓉,徐丽萍,王银磊,等.樱桃番茄果实光泽度测定方法的建立和应用[J].江苏农业学报,2018,(03):623.[doi:doi:10.3969/j.issn.1000-4440.2018.03.021]
　ZHOU Rong,XU Li-ping,WANG Yin-lei,et al.Establishment and application of glossiness determination method for cherry tomatoes[J].,2018,(08):623.[doi:doi:10.3969/j.issn.1000-4440.2018.03.021]
[4]徐达勋.不同增氧滴灌方法对温室樱桃番茄产量、品质及光合作用的影响[J].江苏农业学报,2020,(01):152.[doi:doi:10.3969/j.issn.1000-4440.2020.01.021]
　XU Da-xun.Effects of different aerobic drip irrigation methods on yield, quality and photosynthesis of cherry tomato in greenhouse[J].,2020,(08):152.[doi:doi:10.3969/j.issn.1000-4440.2020.01.021]
[5]王换换,潘拓宇,姜胜行,等.不同光质对留兰香薄荷生长及次生代谢产物的影响[J].江苏农业学报,2024,(06):1111.[doi:doi:10.3969/j.issn.1000-4440.2024.06.018]
　WANG Huanhuan,PAN Tuoyu,JIANG Shenghang,et al.Effects of different light qualities on the growth and secondary metabolites of Mentha spicata L.[J].,2024,(08):1111.[doi:doi:10.3969/j.issn.1000-4440.2024.06.018]

备注/Memo

备注/Memo:: 收稿日期:2024-12-20基金项目:宁夏回族自治区科技领军人才培养项目(2023GKLRLX12)；宁夏回族自治区重点研发计划项目(2021BBF02024)；宁夏博士创新站项目；宁夏回族自治区科技创新团队项目(2024CXTD010)作者简介:赵慧(1999-),女,山西朔州人,硕士研究生,主要从事蔬菜生物技术与遗传育种研究,(E-mail)2910526022@qq.com。李利平为共同第一作者。通讯作者:王晓敏,(E-mail)wangxiaomin_1981@163.com

常用功能

工具/Tools

统计/Statistics

摘要浏览/Viewed1332
全文下载/Downloads1186
评论/Comments

更新日期/Last Update: 2025-09-23