Xinjiang Agricultural Sciences ›› 2023, Vol. 60 ›› Issue (10): 2486-2495.DOI: 10.6048/j.issn.1001-4330.2023.10.018
• Horticultural Special Local Products·Agricultural Product Processing Engineering • Previous Articles Next Articles
MA Yuanyuan1(), LI Gang2, HE Wang3, ZHAO Baolong1(), LU Qianjun1, CHEN Liliang1, LIU Ying1
Received:
2023-02-11
Online:
2023-10-20
Published:
2023-11-01
Correspondence author:
ZHAO Baolong(1976-)male,Shihezi,Xinjiang,associate professor,research direction: the horticultural plant cultivation and breeding,(E-mail)Supported by:
马媛媛1(), 李刚2, 何旺3, 赵宝龙1(), 鲁倩君1, 陈丽靓1, 刘迎1
通讯作者:
赵宝龙(1976-),男,新疆人,研究员,研究方向为园艺植物栽培与育种,(E-mail)作者简介:
马媛媛(1998-)女,新疆人,硕士研究生,研究方向为草莓生理生态,(E-mail)2352156001@qq.com
基金资助:
CLC Number:
MA Yuanyuan, LI Gang, HE Wang, ZHAO Baolong, LU Qianjun, CHEN Liliang, LIU Ying. Alleviating effect of exogenous melatonin on strawberry seedling under NaCl stress[J]. Xinjiang Agricultural Sciences, 2023, 60(10): 2486-2495.
马媛媛, 李刚, 何旺, 赵宝龙, 鲁倩君, 陈丽靓, 刘迎. 外源褪黑素对NaCl胁迫下草莓幼苗生理特性的缓解效应[J]. 新疆农业科学, 2023, 60(10): 2486-2495.
Add to citation manager EndNote|Ris|BibTeX
URL: http://www.xjnykx.com/EN/10.6048/j.issn.1001-4330.2023.10.018
处理 Treatment | NaCl浓度 NaCl concentration (g/L) | 褪黑素浓度 MT concentration (μmol/L) |
---|---|---|
CK(清水对照) | 0 | 0 |
T0 | 5 | 0 |
T1 | 5 | 50 |
T2 | 5 | 100 |
T3 | 5 | 150 |
T4 | 5 | 200 |
Tab.1 Different MT concentration combinations of strawberry seedlings
处理 Treatment | NaCl浓度 NaCl concentration (g/L) | 褪黑素浓度 MT concentration (μmol/L) |
---|---|---|
CK(清水对照) | 0 | 0 |
T0 | 5 | 0 |
T1 | 5 | 50 |
T2 | 5 | 100 |
T3 | 5 | 150 |
T4 | 5 | 200 |
指标 Index | 处理 Treatment | 3 d | 6 d | 9 d |
---|---|---|---|---|
株高 Plant height (cm) | CK | 12.93±0.67a | 13.1±0.26a | 13.24±0.15a |
T0 | 12.28±0.06a | 11.18±0.14d | 8.73±0.36c | |
T1 | 12.27±1.01a | 11.46±0.1 | 8.53±0.32c | |
T2 | 12.33±0.15a | 11.67±0.40bcd | 9.1±0.35c | |
T3 | 12.50±0.06a | 12.13±0.15b | 10.8±0.50b | |
T4 | 12.42±0.25a | 11.99±0.10bc | 10.23±0.06b | |
茎粗 Stem diameter (cm) | CK | 2.83±0.08a | 2.86±0.18a | 2.87±0.36a |
T0 | 2.68±0.07b | 2.35±0.32b | 1.72±0.10c | |
T1 | 2.56±0.10b | 2.39±0.17b | 1.91±0.12c | |
T2 | 2.63±0.03b | 2.47±0.29ab | 2.03±0.11bc | |
T3 | 2.75±0.11ab | 2.57±0.03ab | 2.37±0.08b | |
T4 | 2.77±0.12ab | 2.49±0.04ab | 2.11±0.11bc | |
鲜重 Fresh weight (g) | CK | 17.85±0.83a | 18.04±0.65a | 18.18±0.23a |
T0 | 16.87±0.30a | 15.7±0.16c | 13.41±1.10c | |
T1 | 17.11±0.51a | 16.14±0.29c | 14.24±0.23c | |
T2 | 17.31±0.40a | 16.41±0.26bc | 14.40±0.30c | |
T3 | 17.63±0.09a | 17.29±0.29ab | 15.94±0.73b | |
T4 | 17.53±0.27a | 17.12±0.48ab | 15.53±0.19b |
Tab.2 Effects of exogenous melatonin on plant height, stem diameter and fresh weight of strawberry seedlings under NaCl stress
指标 Index | 处理 Treatment | 3 d | 6 d | 9 d |
---|---|---|---|---|
株高 Plant height (cm) | CK | 12.93±0.67a | 13.1±0.26a | 13.24±0.15a |
T0 | 12.28±0.06a | 11.18±0.14d | 8.73±0.36c | |
T1 | 12.27±1.01a | 11.46±0.1 | 8.53±0.32c | |
T2 | 12.33±0.15a | 11.67±0.40bcd | 9.1±0.35c | |
T3 | 12.50±0.06a | 12.13±0.15b | 10.8±0.50b | |
T4 | 12.42±0.25a | 11.99±0.10bc | 10.23±0.06b | |
茎粗 Stem diameter (cm) | CK | 2.83±0.08a | 2.86±0.18a | 2.87±0.36a |
T0 | 2.68±0.07b | 2.35±0.32b | 1.72±0.10c | |
T1 | 2.56±0.10b | 2.39±0.17b | 1.91±0.12c | |
T2 | 2.63±0.03b | 2.47±0.29ab | 2.03±0.11bc | |
T3 | 2.75±0.11ab | 2.57±0.03ab | 2.37±0.08b | |
T4 | 2.77±0.12ab | 2.49±0.04ab | 2.11±0.11bc | |
鲜重 Fresh weight (g) | CK | 17.85±0.83a | 18.04±0.65a | 18.18±0.23a |
T0 | 16.87±0.30a | 15.7±0.16c | 13.41±1.10c | |
T1 | 17.11±0.51a | 16.14±0.29c | 14.24±0.23c | |
T2 | 17.31±0.40a | 16.41±0.26bc | 14.40±0.30c | |
T3 | 17.63±0.09a | 17.29±0.29ab | 15.94±0.73b | |
T4 | 17.53±0.27a | 17.12±0.48ab | 15.53±0.19b |
指标或参数 Indicators or parameters | 第1主成分 The first principal component | 第2主成分 The second principal component |
---|---|---|
株高Plant height | 0.980 | -0.025 |
茎粗Stem diameter | 0.992 | 0.080 |
单株重Weight per plant | 0.996 | -0.046 |
总叶绿素Total chlorophyll | 0.958 | 0.285 |
Car | 0.985 | 0.105 |
Pn | 0.996 | -0.075 |
Ci | 0.992 | -0.042 |
Fm | 0.934 | 0.355 |
F0 | -0.846 | -0.452 |
POD | -0.443 | 0.817 |
SOD | -0.266 | 0.895 |
CAT | -0.121 | 0.982 |
APX | -0.285 | 0.928 |
特征值 Eigen values | 8.750 | 3.733 |
方差贡献率 Proportion of variance(%) | 67.304 | 28.712 |
累计贡献率 Cumulative variance(%) | 67.304 | 96.016 |
Tab.3 Principal component analysis load matrix
指标或参数 Indicators or parameters | 第1主成分 The first principal component | 第2主成分 The second principal component |
---|---|---|
株高Plant height | 0.980 | -0.025 |
茎粗Stem diameter | 0.992 | 0.080 |
单株重Weight per plant | 0.996 | -0.046 |
总叶绿素Total chlorophyll | 0.958 | 0.285 |
Car | 0.985 | 0.105 |
Pn | 0.996 | -0.075 |
Ci | 0.992 | -0.042 |
Fm | 0.934 | 0.355 |
F0 | -0.846 | -0.452 |
POD | -0.443 | 0.817 |
SOD | -0.266 | 0.895 |
CAT | -0.121 | 0.982 |
APX | -0.285 | 0.928 |
特征值 Eigen values | 8.750 | 3.733 |
方差贡献率 Proportion of variance(%) | 67.304 | 28.712 |
累计贡献率 Cumulative variance(%) | 67.304 | 96.016 |
处理 Trea- tment | Y1 | Y2 | 综合主成分Y Comprehensive principal components | 排名 |
---|---|---|---|---|
CK | 5.344 | 0.321 | 3.49 | 1 |
T0 | -3.107 | -2.141 | -2.61 | 6 |
T1 | -1.97 | -0.443 | -1.37 | 5 |
T2 | -1.019 | 0.505 | -0.51 | 4 |
T3 | 0.788 | 1.304 | 0.89 | 2 |
T4 | -0.035 | 0.454 | 0.11 | 3 |
Tab.4 principal component analysis values and ranking of melatonin in different concentrations
处理 Trea- tment | Y1 | Y2 | 综合主成分Y Comprehensive principal components | 排名 |
---|---|---|---|---|
CK | 5.344 | 0.321 | 3.49 | 1 |
T0 | -3.107 | -2.141 | -2.61 | 6 |
T1 | -1.97 | -0.443 | -1.37 | 5 |
T2 | -1.019 | 0.505 | -0.51 | 4 |
T3 | 0.788 | 1.304 | 0.89 | 2 |
T4 | -0.035 | 0.454 | 0.11 | 3 |
[1] | 周艳孔, 陆利民, 倪秀红, 等. 不同叶面肥对大棚草莓生长和果实品质的影响[J]. 中国果树, 2017,(1):34-36. |
ZHOU Yankong, LU Liming, NI Xiuhong, et al. Effects of Different Foliar Fertilizers on growth and fruit quality of strawberry in greenhouse[J]. China Fruits, 2017,(1): 34-36. | |
[2] | 冯航, 勒系意. 不同品种草莓的品质测定[J]. 陕西农业科学, 2015, 61(9):16-17,33. |
FENG Hang, LE Xiyi. Quality determination of different strawberry varieties[J]. Shanxi Agricultural Sciences, 2015, 61(9): 16-17, 33. | |
[3] | 赵宝龙, 郁松林, 刘怀锋, 等. 新疆地区草莓生产历史、现状及发展建议[J]. 新疆农垦科技, 2014, 37(1):15-17. |
ZHAO Baolong, YU Songlin, LIU Huaifeng, et al. Strawberry production history, current situation and development suggestions in Xinjiang[J]. Xinjiang Agricultural Reclamation Technology, 2014, 37(1):15-17. | |
[4] | 孔德庸. 新疆焉耆盆地土壤盐分空间变异特征分析及盐渍化土壤制图技术研究[D]. 乌鲁木齐: 新疆农业大学, 2008. |
KONG Deyong. Analysis of spatial variation characteristics of soil salinity and Research on salinized soil mapping technology in Yanqi Basin,Xinjiang[D]. Urumqi: Xinjiang Agricultural University, 2008. | |
[5] | 丁晓丽, 马刘峰, 姜国斌, 等. 南疆盐碱地生境条件下吴屯杨与新疆杨适应性比较[J]. 新疆农业科学, 2015, 52(12): 2314-2319. |
DING Xiaoli, MA Liufeng, JIANG Guobin, et al. Comparison of adaptability between Wutun poplar and Xinjiang poplar under saline alkali soil habitat in southern Xinjiang[J]. Xinjiang Agricultural Sciences, 2015, 52(12): 2314-2319. | |
[6] |
吴雯雯, 安玉艳, 汪良驹. 5-氨基乙酰丙酸缓解‘红颜’草莓盐胁迫伤害的时间效应研究[J]. 园艺学报, 2017, 44(6):1038-1048.
DOI |
WU Wemwem, AN Yuyan, WANG Liangju. Time effect of 5-aminolevulinic acid on alleviating salt stress injury of 'Hongyan' Strawberry[J]. Journal of Horticulture, 2017, 44(6):1038-1048. | |
[7] | Kanwar M K, Yu J Q, Zhou J. Phytomelatonin: Recent advances and future prospects[J]. Journal of pineal Research, 2018, 65(4):el12526. |
[8] | Erland L A, Murch S J, Reiter R J, et al. A new balancing act: The many roles of melatonin and serotonin in plant growth and development[J]. Plant Signaling & Behavior, 2015, 10(11):1-14. |
[9] |
杜卓, 侯雯, 王丽, 等. 外源褪黑素对干旱胁迫下玉米幼苗的影响[J]. 中国农学通报, 2020, 36(27):14-19.
DOI |
DU Zhuo, HOU Wen, WANG Li, et al. Effects of exogenous melatonin on Maize Seedlings under drought stress[J]. Chinese Agricultural Science Bulletin, 2020, 36(27): 14-19.
DOI |
|
[10] | 周永海, 杨丽萍, 马荣雪, 等. 外源褪黑素对高温胁迫下甜瓜幼苗抗氧化特性及其相关基因表达的影响[J]. 西北农业学报, 2020, 29(5):745-751. |
ZHOU Yonghai, YANG Liping, MA Rongxue, et al. Effects of exogenous melatonin on antioxidant characteristics and related gene expression of Melon Seedlings under high temperature stress[J]. Acta Agriculturae Boreali-occidentalis Sinica, 2020, 29(5): 745-751. | |
[11] | 张俊峰. 基于外源褪黑素作用的辣椒耐低温弱光生理及分子响应机理研究[D]. 兰州: 甘肃农业大学, 2020. |
ZHANG Junfeng. Study on low temperature and low light tolerance physiology and molecular response mechanism of pepper based on exogenous melatonin[D]. Lanzhou: Gansu Agricultural University, 2020. | |
[12] | 倪知游, 夏惠, 高帆, 等. 外源褪黑素对猕猴桃幼苗盐胁迫的缓解作用[J]. 四川农业大学学报, 2017, 35(4):535-539. |
NI Zhiyou, XIA Hui, GAO Fan, et al. Alleviating effect of exogenous melatonin on salt stress of kiwifruit seedlings[J]. Journal of Sichuan Agricultural University, 2017, 35 (4): 535-539. | |
[13] | 王芳, 刘燕, 王铁兵, 等. 外源褪黑素对玉米幼苗盐胁迫的缓解效应研究[J]. 中国草地学报, 2020, 42(5):14-21. |
WANG Fang, LIU Yan, WANG Tiebing, et al. Mitigation effect of exogenous melatonin on salt stress of maize seedlings[J]. Chinese Journal of Grassland, 2020, 42 (5): 14-21. | |
[14] | 偶春, 张敏, 姚侠妹, 等. 褪黑素对盐胁迫下香椿幼苗生长及离子吸收和光合作用的影响[J]. 西北植物学报, 2019, 39(12):2226-2234. |
OU Chun, ZHANG Min, YAO Xiamei, et al. Effects of melatonin on growth, ion absorption and Photosynthesis of Toona sinensis Seedlings under salt stress[J]. Acta Botanica Boreali-Occidentalia Sinica, 2019, 39 (12): 2226-2234. | |
[15] | 石桃雄, 朱丽伟, 王红霞, 等. 褪黑素处理对盐胁迫下苦荞萌发及幼苗生长的影响[J]. 湖北农业科学, 2021, 60(15):25-28. |
SHI Taoxiong, ZHU Liwei, WANG Hongxia, et al. Effects of melatonin treatment on Germination and seedling growth of Tartary Buckwheat under salt stress[J]. Hubei Agricultural Sciences, 2021, 60(15): 25-28. | |
[16] | 范海霞, 赵飒, 李静, 等. 外源褪黑素对盐胁迫下金盏菊幼苗生长、光合及生理特性的影响[J]. 热带作物学报, 2021, 42(5):1326-1334. |
FAN Haixia, ZHAO Sa, LI Jing, et al. Effects of exogenous melatonin on growth, photosynthesis and physiological characteristics of Calendula seedlings under salt stress[J]. Journal of Tropical Crops, 2021, 42 (5): 1326-1334. | |
[17] | 李红杰. 外源褪黑素和硅对盐胁迫下芹菜幼苗生长及生理特性的影响[J]. 河南农业科学, 2020, 49(1):96-102. |
LI Hongjie. Effects of exogenous melatonin and silicon on growth and physiological characteristics of celery seedlings under salt stress[J]. Henan Agricultural Sciences, 2020, 49 (1): 96-102. | |
[18] | 彭玲, 李爱, 杨漫, 等. 外施褪黑素对盐胁迫下红花生长和生理特性的影响[J]. 中药材, 2019, 42(8):1730-1737. |
PENG Ling, LI Ai, YANG Man, et al. Effects of melatonin on the growth and physiological characteristics of safflower under salt stress[J]. Journal of Chinese Medicinal Materials, 2019, 42(8): 1730-1737. | |
[19] | 李春平. 褪黑素处理对草莓果实采后品质的影响[J]. 分子植物育种, 2020, 18(21):7203-7208. |
LI Chunping. Effect of melatonin treatment on postharvest quality of strawberry fruit[J] Molecular Plant Breeding, 2020, 18(21):7203-7208. | |
[20] | 顾里娟. 外源褪黑素处理对草莓果实保鲜效果研究[D]. 南京: 南京农业大学, 2019. |
GU Lijuan. Effect of exogenous melatonin treatment on strawberry fruit preservation[D] Nanjing: Nanjing Agricultural University, 2019. | |
[21] | 孙子荀, 倪照君, 高志红, 等. 外源褪黑素提高草莓黑斑病抗性的效果和作用机制初探[J]. 西北植物学报, 2020, 40(10):1679-1687. |
SUN Zixun, NI Zhaojun, GAO Zhihong. Preliminary study on the mechanism and effect of exogenous melatonin on improving the resistance of strawberry to melatonin[J]. Acta Botanica Boreali-Occidentalia Sinica, 2020, 40 (10): 1679-1687. | |
[22] | 邹琦. 植物生理学试验指导[M]. 北京: 中国农业出版社, 2000. |
ZOU Qi. Experimental guidance of plant physiology[M] Beijing: China Agricultural Press, 2000. | |
[23] | 张志良. 植物生理学实验指导[M]. 北京: 北京高等教有出版社 2009. |
ZHANG Zhiliang. Experimental guidance of plant physiology[M]. Beijing: Beijing Higher Education Press, 2009. | |
[24] | 陈建勋, 王晓峰. 植物生理学实验指导[M]. 广州: 华南理工大学出版社, 2002. |
CHEN Jianxun, WANG Xiaofeng. Experimental guidance of plant physiology[M] .Guangzhou: South China University of Technology Press, 2002. | |
[25] | Juniper S, Abbott L K. Soil salinity delays germination and limits growth of hyphae from propagules of arbuscular mycorrhizal fungi[J]. Mycrorrhiza, 2006, 16(5):371-379. |
[26] | 王丽英. 褪黑素预处理对黄瓜幼苗耐盐性的影响[D]. 杨凌: 西北农林科技大学, 2014. |
WANG Liying. Effect of melatonin pretreatment on salt tolerance of cucumber seedlings[D]. Yangling: Northwest A & F University, 2014. | |
[27] | 范海霞, 赵飒, 李静, 等. 外源褪黑素对盐胁迫下金盏菊幼苗生长、光合及生理特性的影响[J]. 热带作物学报, 2021, 42(5):1326-1334. |
FAN Haixia, ZHAO Sa, LI Jing, et al. Effects of exogenous melatonin on growth, photosynthesis and physiological characteristics of Calendula officinalis seedlings under salt stress[J]. Journal of Tropical Crops, 2021, 42 (5): 1326-1334. | |
[28] |
Sarropoulou V N, Therios I N, Dimassi T, et al. Melatonin promotes adventitious root regeneration in in vitro shoottip explants of the commercial sweet cherry rootstocks CAB-6P[J]. Journal of Pineal Research, 2012, 52(1): 38-46.
DOI PMID |
[29] | 朱新广, 张其德. NaCl对光合作用影响的研究进展[J]. 植物学通报, 1999, 16(4):332-338. |
ZHU Xinguang, ZHANG Qide. Research progress on the effect of NaCl on photosynthesis[J]. Chinese Bulletin of Botany, 1999, 16 (4): 332-338. | |
[30] | Tan D X, Manchester L C, Reiter R J, et al. Significance of melatonin in antioxidative defense system: Reactionsand products[J]. Biological Signals and Receptors, 2000, 9(3-4):137- 159. |
[31] | Movahed N, Eshghi S, Jamali B, et al. Ameliorative effects of paclobutrazolon vegetative and physiological traits of grapevine cuttings under water stress condition[J]. Acta Horticulturae, 2012,(931): 475-483. |
[32] |
韩国民, 刘茜, 唐美玲, 等. 外源褪黑素对NaCl胁迫下5BB葡萄叶片生理特性的影响[J]. 浙江农业学报, 2019, 31(4):556-564.
DOI |
HAN Guomin, LIU Qie, TANG Meiling, et al. Effects of exogenous melatonin on physiological characteristics of 5bb grape leaves under NaCl stress[J]. Acta Agriculturae Zhejiangensis, 2019, 31(4): 556-564.
DOI |
|
[33] | 赵丽娟, 麻冬梅, 王文静, 等. 外源褪黑素对盐胁迫下紫花苜蓿幼苗抗氧化能力以及光合作用效率的影响[J]. 西北植物学报, 2021, 41(8);1355-1363. |
ZHAO Lijuan, MA Dongmei, WANG Wenjing, et al. Effects of exogenous melatonin on antioxidant capacity and photosynthetic efficiency of Alfalfa Seedlings under salt stress[J]. Acta Botanica Boreali-Occidentalia Sinica, 2021, 41(8): 1355-1363. | |
[34] | 林丽果, 宋锐, 林选栋, 等. 不同盐浓度下硅对高羊茅苗期生长及光合特征的影响[J]. 草业科学, 2017, 34(7):1442-1451. |
LIN Liguo, SONG Rui, LIN Xuandong, et al. Effects of silicon on seedling growth and photosynthetic characteristics of Tall Fescue under different salt concentrations[J]. Grassland Science, 2017, 34(7): 1442-1451. | |
[35] |
李阳, 陈静, 刘绍东, 等. 外源褪黑素对盐胁迫下棉花幼苗生长及光合特性的影响[J]. 新疆农业科学, 2021, 58(8):1418-1426.
DOI |
LI Yang, CHEN Jing, LIU Shaodong, et al. Effects of exogenous melatonin on growth and photosynthetic characteristics of Cotton Seedlings under salt stress[J]. Xinjiang Agricultural Sciences, 2021, 58(8): 1418-1426.
DOI |
|
[36] | 陈少裕. 膜脂过氧化与植物逆境胁迫[J]. 植物学通报, 1989,(4):211-217. |
CHEN Shaoyu. Membrane lipid peroxidation and plant stress[J]. Chinese Bulletin of Botany, 1989,(4): 211-217. | |
[37] | 周家旭, 高轶楠, 徐艺格, 等. 不同浓度NaCl溶液对草莓光合生理特性的影响[J]. 天津农业科学, 2020, 26(7):4-7. |
ZHOU Jiaxu, GAO Yinan, XU Yige, et al. Effects of different concentrations of NaCl solution on Photosynthetic Physiological Characteristics of strawberry[J]. Tianjin Agricultural Sciences, 2020, 26(7): 4-7. | |
[38] | Bonnefont-Rousselot Dominique, Collin Fabrice, Jore Daniel, et al. Reaction mechanism of melatonin oxidation by reactive oxygen species in vitro.[J]. Journal of pineal research, 2011, 50(3). |
[39] | 辛悦, 邹彩瑜, 时宇, 等. 互花米草叶绿素荧光参数对盐胁迫的响应[J]. 环境生态学, 2020, 2(7):8-12. |
XIN Yue, ZOU Caiyu, SHI Yu, et al. Response of chlorophyll fluorescence parameters of Spartina alterniflora to salt stress[J]. Environmental Ecology, 2020, 2(7): 8-12. | |
[40] |
齐晓媛, 王文莉, 胡少卿, 等. 外源褪黑素对高温胁迫下菊花光合和生理特性的影响[J]. 应用生态学报, 2021, 32(7):2496-2504.
DOI |
QI Xiaoyuan, WANG Wenli, HU Shaoqin, et al. Effects of exogenous melatonin on Photosynthetic and physiological characteristics of Chrysanthemum under high temperature stress[J]. Chinese Journal of Applied Ecology, 2021, 32 (7): 2496-2504.
DOI |
|
[41] | 李超. 外源褪黑素和多巴胺对苹果抗旱耐盐性的调控功能研究[D]. 杨凌: 西北农林科技大学, 2016. |
LI Chao. Study on the regulatory function of exogenous melatonin and dopamine on drought and salt tolerance of Apple[D]. Yangling: Northwest A & F University, 2016. |
[1] | WANG Xiaoyu, WANG Xiaoping, SHI Wenyu, LIU Meiyan, MA Jian, GUO Yunpeng, SONG Ruixin, WANG Qingtao. Responses of photosynthetic characteristics, dry matter accumulation and yield to drought stress in winter wheat at jointing stage [J]. Xinjiang Agricultural Sciences, 2023, 60(9): 2163-2172. |
[2] | HAN Shouan, WANG Min, Maihemuti Turupu, XIE Hui, Aiermaike Caikasimu, LIU Jiale, ZHANG Wen, PAN Mingqi. Effects of different light quality treatments on leaf photosynthetic characteristics and fruit quality of Cabernet Sauvignon grapes [J]. Xinjiang Agricultural Sciences, 2023, 60(8): 1894-1903. |
[3] | ZHU Xuehui, ZHANG Wen, MA Yunlong, HE Pengfei, HAN Shouan, WANG Min, TIAN Jia, XIE Hui. Effects of high temperature stress on photosynthetic characteristics of grape [J]. Xinjiang Agricultural Sciences, 2023, 60(8): 1913-1921. |
[4] | XIAO Jing, LIU Ning, XU Minghai, ZHANG Jinbo, MA Yanming, WANG Li, XU Lin. Effect of NaCl stress on seed germination of Panicum miliaceum L. [J]. Xinjiang Agricultural Sciences, 2023, 60(7): 1623-1629. |
[5] | TANG Dong, AN Yuguang, CHENG Ping, LI Hong, YANG Jianjun, WANG Kai. Responses of photosynthetic characteristics of typical shrubs in piedmont on the northern slope of tianshan mountains to drought stress [J]. Xinjiang Agricultural Sciences, 2023, 60(6): 1531-1539. |
[6] | SHEN Yingying, ZHANG Jusong, PENG Zengying, DUAN Songjiang, LI Zongrun, WU Yifan. Effects of the compound topping agent of DPC on the canopy structure, photosynthetic characteristics and yield of machine-picked cotton [J]. Xinjiang Agricultural Sciences, 2023, 60(5): 1110-1117. |
[7] | CHEN Liliang, LU Qianjun, MA Yuanyuan, LIU Ying, ZHAO Baolong, SUN Junli. Effects of NaCl stress on antioxidant enzyme content and malondialdehyde content in grape cultivars leaves [J]. Xinjiang Agricultural Sciences, 2023, 60(4): 880-888. |
[8] | Abulaike Niyazi, ZHANG Shikui, WANG Shaopeng, WANG Yatong, FAN Guoquan. Effects of Root-restricted Cultivation on Photosynthesis, Fluorescence Characteristics and Fruit Quality of Korla Fragrant Pear [J]. Xinjiang Agricultural Sciences, 2023, 60(2): 344-350. |
[9] | ZHU Pusheng, LIU Huiying, CAO Ze, LIU Kaige, LI Xuezhen. Effects of Exogenous GSNO on Growth and Photosynthetic Characteristics of Tomato Seedlings under NaCl Stress [J]. Xinjiang Agricultural Sciences, 2023, 60(2): 351-358. |
[10] | MA Jun, WANG Jing, LI Chunyan, WANG Liang, SHI Weijun, CUI Jianping, TIAN Liwen, GUO Rensong. Effect of subsoiling depth on canopy photosynthetic characteristics and yield of cotton [J]. Xinjiang Agricultural Sciences, 2023, 60(12): 2878-2884. |
[11] | YAO Qing, SHI Junjie, HOU Xianfei, JIA Donghai, GU Yuanguo, Aribelegan Hazzetti, MIAO Haocui, LI Qiang. Physiological response of 42 creeping peanut cultivars to salt stress at seedling stage [J]. Xinjiang Agricultural Sciences, 2023, 60(10): 2442-2452. |
[12] | XIAO Zhonglin, YAN Huizhuan, GAO Jie, WANG Siyi, ZHANG Xuxu, Ailixire Nijiati. Effects of Different Concentrations of NaCl and NaHCO3 Stress on Diurnal Changes of Photosynthetic Characteristics of Dried Pepper [J]. Xinjiang Agricultural Sciences, 2023, 60(1): 140-149. |
[13] | YAN Miao, XIONG Tao, HUANG Quansheng, WU Ting, WU Haibo, ZHAO Zhun, HU Guozhi. Effect of Exogenous Salicylic Acid(SA)on the Leaf Anatomical Structure of Hami Melon under NaCl Stress [J]. Xinjiang Agricultural Sciences, 2022, 59(9): 2123-2129. |
[14] | HAN Yi, ZHAO Baolong, SUN Junli, ZHAO Shucheng. Study on Leaf Characters and Diurnal Variation of Photosynthesis of Excellent Single Plant of Xinjiang Peach [J]. Xinjiang Agricultural Sciences, 2022, 59(9): 2170-2178. |
[15] | CHEN Liliang, SUN Junli, CHANG Xinyi, YE Jiafa. Effects of Exogenous ALA on Chlorophyll Synthesis in Jujube Seedlings under NaCl Stress [J]. Xinjiang Agricultural Sciences, 2022, 59(7): 1659-1665. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||