Welcome to Acta Agronomica Sinica,

Acta Agron Sin ›› 2014, Vol. 40 ›› Issue (08): 1470-1484.doi: 10.3724/SP.J.1006.2014.01470

• TILLAGE & CULTIVATION·PHYSIOLOGY & BIOCHEMISTRY • Previous Articles     Next Articles

Effects of Low Temperature Stress on the Physiological and Biochemical Characteristics of Cold Tolerance in Micro-endosperm Super Sweet and Super High Oil Maize

HAO Xiao-Qin,YAO Peng-He,GAO Zheng-Rong,WU Zi-Kai   

  1. Agricultural College of Guangxi University, Nanning 530005, China
  • Received:2013-10-18 Revised:2014-04-16 Online:2014-08-12 Published:2014-06-03

RichHTML

PDF

1250

Cited

5

Abstract:

In the germination and seedling stages of the maize, five micro-endosperm super sweet and super high oil maize (abbreviation as ME) hybrid combinations, two control materials Gaoyou 115 and Zhengtian 68 were used to study the changes of physiological and biochemical characteristics, such as germination rate, germination energy, relative conductivity, contents of MDA, proline, soluble sugar, soluble protein, chlorophyll, and SOD, POD activities under low temperature stress. At the same time, the identification of cold tolerance of the materials were conducted. Based on the multiple physiological and biochemical parameters, we employed the fuzzy membership function to evaluate the cold tolerance of the experiment materials comprehensively. The results showed that the relative conductivity had a little increase, but the proline content and SOD activity increased largely in ME1, ME2, ME3, and Gaoyou 115, as compared with ME5, ME4 and Zhengtian68 in the germination stage. It was advised that relative conductivity, proline content and SOD activity could be used to predict cold tolerance of the materials more effectively in germination stage. In the seedling stage, compared with ME5 and Zhengtian 68, the MDA content increased a little and activities of SOD, POD and proline content increased largely in ME2, ME1, and Gaoyou 115. So we thought that MDA content, proline content, SOD and POD activities can be used to predict the cold tolerance of the experiment materials in seedling stage. Meanwhile, membership function value showed that the cold tolerance of the five ME materials was stronger than that of Zhengtian 68. Among the five ME materials, ME2 showed a strong ability to tolerate low temperature stress in germination and seedling stages, ME1 and ME3 showed moderate tolerance, and ME4 and ME5 showed weak tolerance.

Key words: Micro-endosperm super sweet and super high oil maize, Low temperature stress, Cold tolerance, Physiological and biochemical characteristics

[1]扈光辉. 玉米抗冷性研究进展. 黑龙江农业科学, 2009, (2): 150–152



Hu G H. Research advancement on chilling tolerance in maize. Heilongjiang Agric Sci, 2009, (2): 150–152 (in Chinese with English abstract)



[2]谭振波, 刘昕, 曹鸣庆. 玉米抗寒性的研究进展. 玉米科学, 2002, 10(2): 56–60



  Tan Z B, Liu X, Cao M Q. Recent advances on mechanisms of maize chilling tolerance. J Maize Sci, 2002, 10(2): 56–60 (in Chinese with English abstract)



[3]Lyons J M, Raison J K. Oxidative activity of mitochondria isolated from plant tissues sensitive and resistant to chilling injury. Plant Physiol, 1970, 45: 386–389



[4]Lyons J M. Relationship between the physical nature of Mitochondrial membranes and chilling sensitivity in plants. Am Oil Chem Soc, 1973, 42: 1056–1058



[5]王华, 王飞, 陈登文, 丁勤. 低温胁迫对杏花SOD活性和膜脂过氧化的影响. 果树科学, 2000, 17(3): 197–201



   Wang H, Wang F, Chen D W, Ding Q. Effects of low temperature stress on SOD activity and membrane deroxidization of apricot flowers. J Fruit Sci, 2000, 17(3): 197–201 (in Chinese with English abstract)



[6]冯献宾, 董倩, 王洁, 庞曼, 路丙社. 低温胁迫对黄连木抗寒生理指标的影响. 中国农学通报, 2011, 27(8): 23–26



Feng X B, Dong Q, Wang J, Pang M, Lu B S. Effects of low temperature on cold resistance of Pistacia chinensis. Chin Agric Sci Bull, 2011, 27(8): 23–26 (in Chinese with English abstract)



[7]马凤鸣, 王瑞, 石振. 低温胁迫对玉米幼苗某些生理指标的影响. 作物杂志, 2007, (5): 41–45



Ma F M, Wang R, Shi Z. Effect of low temperature stress on some physiology parameter of maize seedling. Crops, 2007, (5): 41–45 (in Chinese)



[8]高素华. 玉米低温冷害机理研究综述. 气象科技, 1997, (4): 37–43



Gao S H. Summarize of research on mechanism of low temperature cold harm in maize. Sci Technol Meteorol, 1997, (4): 37–43 (in Chinese)



[9]杨亚军, 郑雷英, 王新超. 冷驯化和ABA对茶树抗寒力及其体内脯氨酸含量的影响. 茶叶科学, 2004, 24(3): 177–182



Yang Y J, Zhen L Y, Wang X C. Effect of cold acclimation and ABA on cold hardiness contents of proline in tea plants. J Tea Sci, 2004, 24(3): 177–182 (in Chinese with English abstract)



[10]杨光, 刘宏魁, 李世鹏, 吴颖, 苏胜忠, 单晓辉, 原亚萍. 玉米抗冷种质资源的筛选与鉴定. 玉米科学, 2012, 20(1): 57–60



Yang G, Liu H K, Li S P, Wu Y, Su S Z, Shan X H, Yuan Y P. Screening and identification of chilling resistant germplasm resources in maize. J Maize Sci, 2012, 20(1): 57–60 (in Chinese with English abstract)



[11]王淑杰, 王连君, 王家民, 杨晓光, 马秀华. 果树抗寒生理研究进展. 北方园艺, 1998, (5): 28–29



Wang S J, Wang L J, Wang J M, Yang X G, Ma X H. Research advancement on physiology of cold resistance in fruit. Northern Hortic, 1998, (5): 28–29 (in Chinese)



[12]马尧, 杨国会, 王春兰, 田永清. 在干旱和低温胁迫下薏苡幼苗抗逆性研究. 农业与技术, 2000, 20(5): 41–42, 45



Ma Y, Yang G H, Wang C L, Tian Y Q. Research of jobstears seedling in adversity resistance on cold treatment and drought condition. Agric & Technol, 2000, 20(5): 41–42, 45 (in Chinese with English abstract)



[13]高志红, 章镇, 韩振海. 果梅种质枝条抗寒性鉴定. 果树学报, 2005, 22: 709–711



Gao Z H, Zhang Z, Han Z H. Identification of freezing resistance in Japanese apricot germplasm. J Fruit Sci, 2005, 22: 709–711 (in Chinese with English abstract)



[14]Levitt J. Responses of Plant to Environmental Stress. New York: Academic Press, 1980. pp 365–488



[15]Uemura S,Gilmour S J, Thomashow M F. Effects of COR 6.6 and COR 15am polypeptides Encoded by COR gene of Arabidopsis thaliana. Plant Physiol, 1996, 111: 313–327



[16]武兰芳. 低温下玉米幼苗叶片某些细胞器可溶性蛋白质的变化. 华北农学报, 1990, 5(2): 38–43



Wu L F. Changes of soluble protein in some organelles of maize seedling leaf at low temperature. Acta Agric Boreali-Sin, 1990, 5(2): 38–43 (in Chinese with English abstract)



[17]张敬贤, 李俊明, 崔四平, 魏建昆, 张海明, 耿庆汉. 低温对玉米幼苗细胞保护酶活性及胞质质量参数的影响. 华北农学报, 1993, 8(3): 9–12



Zhang J X, Li J M, Cui S P, Wei J K, Zhang H M, Geng Q H. The effect of low temperature on activities of cell protective enzymes and protoplasmic parameters in leaves of zea mays. Acta Agric Boreali-Sin, 1993, 8(3): 9–12 (in Chinese with English abstract)



[18]王金胜, 郭春绒, 张述义. 低温对不同抗冷性玉米幼苗H2O2及其清除酶类的影响. 山西农业大学学报, 1993, 13: 240–243



Wang J S, Guo C R, Zhang S Y. The effect of low temperature on H2O2 and its clearance enzymes in maize seeklings with different chilling resistance. J Shanxi Agric Univ, 1993, 13: 240–243 (in Chinese with English abstract)



[19]王兰, 蔡千蕙. 低温胁迫对水稻苗期SOD、POD活性的影响. 湖南农业科学, 2011, (11): 56–58



Wang L, Cai Q H. Impacts of cold stress on activities of SOD and POD of rice at seedling stage. Hunan Agric Sci, 2011, (11): 56–58 (in Chinese with English abstract)



[20]陈卫国, 刘勇, 周冀衡. 低温胁迫对烟草膜保护酶系统的影响. 安徽农业科学, 2011, 39: 3978–3980



Chen W G, Liu Y, Zhou J H. Influence of low temperature stress on the membrane protected enzyme system in tobacco. J Anhui Agric Sci, 2011, 39: 3978–3980 (in Chinese with English abstract)



[21]王晨光, 王希, 苍晶, 杨丽娟. 低温胁迫对水稻幼苗抗冷性的影响. 东北农业大学学报, 2004, 35(2): 129–134



Wang C G, Wang X, Cang J, Yang L J. Effect of low-temperature stress on cold-resistance ability of rice seedlings. J Northeast Agric Unive, 2004, 35(2): 129–134 (in Chinese with English abstract)



[22]朱祥春, 矫洪涛, 史芝文, 袁海峰. 低温胁迫对玉米幼苗抗冷性鉴定. 农业与技术, 2004, 24(1): 44–49



Zhu X C, Jiao H T, Shi Z W, Yuan H F. The low temperature is forced combating cooling quality of the appraisal to the corn seedling. Agric & Technol, 2004, 24(1): 44–49 (in Chinese with English abstract)



[23]杨静, 王华田, 宋承东, 张培法, 王迎. 持续低温胁迫对红叶石楠抗寒生理生化特性的影响. 江西农业大学学报, 2007, 29: 988–992



Yang J, Wang H T, Song C D, Zhang P F, Wang Y. Effect of durative low temperature on physiological and biochemical characteristics of photinia glabra var rubens. Acta Agric Univ Jiangxiensis, 2007, 29: 988–992 (in Chinese with English abstract)



[24]王宁, 吴军, 夏鹏云, 苏金乐. 低温胁迫对大叶冬青生理特性的影响. 河南农业大学学报, 2011, 45(4): 407–410



Wang N, Wu J, Xia P Y, Su J L. Effects of low temperature stress on physiological characteristics of ilex latifolia thunb. J Henan Agric Univ, 2011, 45(4): 407–410 (in Chinese with English abstract)



[25]吴子恺. 新型超高油玉米种质的选育. 作物学报, 2004, 30: 739–744



Wu Z K. Breeding for new germplasm of super-high oil in corn. Acta Agron Sin, 2004, 30: 739–744 (in Chinese with English abstract)



[26]张宪政. 作物生理研究方法. 北京: 农业出版社, 1992. pp144–216



   Zhang X Z. Study Method of Physiology in Crops. Beijing: Agriculture Press, 1992. pp 144–216 (in Chinese)



[27]许桂芳, 张朝阳, 向佐湘. 利用隶属函数法对4种珍珠菜属植物的抗寒性综合评价. 西北林学院学报, 2009, 24(3): 24–26



Xu G F, Zhang Z Y, Xiang Z X. Comprehensive evaluation of cold resistance on four lysimachia plants by subordinate function values analysis. J Northwest For Univ, 2009, 24(3): 24–26 (in Chinese with English abstract)



[28]孙清鹏, 许煌灿, 张方秋, 尹光天, 张玉福. 低温胁迫对大叶相思和马占相思某些生理特性的影响. 林业科学研究, 2002, 15(l): 34–40



Sun Q P, Xu H C, Zhang F Q, Yin G T, Zhang Y F. Effects of low temperature stress on some physiological changes of Acacia auriculaeformis and A. mangium. For Res, 2002, 15(l): 34–40 (in Chinese with English abstract)
[1] SONG Shi-Qin, YANG Qing-Long, WANG Dan, LYU Yan-Jie, XU Wen-Hua, WEI Wen-Wen, LIU Xiao-Dan, YAO Fan-Yun, CAO Yu-Jun, WANG Yong-Jun, WANG Li-Chun. Relationship between seed morphology, storage substance and chilling tolerance during germination of dominant maize hybrids in Northeast China [J]. Acta Agronomica Sinica, 2022, 48(3): 726-738.
[2] ZHANG He, JIANG Chun-Ji, YIN Dong-Mei, DONG Jia-Le, REN Jing-Yao, ZHAO Xin-Hua, ZHONG Chao, WANG Xiao-Guang, YU Hai-Qiu. Establishment of comprehensive evaluation system for cold tolerance and screening of cold-tolerance germplasm in peanut [J]. Acta Agronomica Sinica, 2021, 47(9): 1753-1767.
[3] JIANG Shu-Kun,WANG Li-Zhi,YANG Xian-Li,LI Bo,MU Wei-Jie,DONG Shi-Chen,CHE Wei-Cai,LI Zhong-Jie,CHI Li-Yong,LI Ming-Xian,ZHANG Xi-Juan,JIANG Hui,LI Rui,ZHAO Qian,LI Wen-Hua. Detection of QTLs controlling cold tolerance at bud bursting stage by using a high-density SNP linkage map in japonica rice [J]. Acta Agronomica Sinica, 2020, 46(8): 1174-1184.
[4] Xiao-Han MA,Jie ZHANG,Huan-Wei ZHANG,Biao CHEN,Xin-Yi WEN,Zi-Cheng XU. Exogenous MeJA improves cold tolerance of tobacco by inhibiting H2O2 accumulation [J]. Acta Agronomica Sinica, 2019, 45(3): 411-418.
[5] Jian-Wei WANG,Xiao-Lan HE,Wen-Xu LI,Xin-Hong CHEN. Molecular Cloning and Functional Analysis of 1-FFT in Wheat Relatives [J]. Acta Agronomica Sinica, 2018, 44(6): 814-823.
[6] FANG Yan,SUN Wan-Cang,WU Jun-Yan,LIU Zi-Gang,DONG Yun,MI Chao,MA Li,CHEN Qi,HE Hui-Li. Response of Membrane Fatty Acid Composition and ATPase Activity in Brassica rapa L. to Temperature in North China [J]. Acta Agron Sin, 2018, 44(01): 95-104.
[7] LIU Hong-Yan, ZHOU Fang, LI Jun, YANG Min-Min, ZHOU Ting, HAO Guo-Cun,ZHAO Ying-Zhong . Anatomical Structure and Photosynthetic Characteristics of a Yellow Leaf Mutant YL1 in Sesame (Sesamum indicum L.) [J]. Acta Agron Sin, 2017, 43(12): 1856-1863.
[8] YANG Hui-Ju,GUO Hua-Chun*. Digital Gene Expression Profiling Analysis of Potato Under Low Temperature Stress [J]. Acta Agron Sin, 2017, 43(03): 454-463.
[9] FENG Xun-Wei,CAI Hong-Wei. Cloning of Zoysiagrass CBF Gene and Validation of Cold Tolerance in Transgenic Arabidopsis [J]. Acta Agron Sin, 2014, 40(09): 1572-1578.
[10] XU Tian-Jun, DONG Zhi-Jiang, LAN Hong-Liang, FEI Zhi-Chao, GAO Jiao, JIE Zhen-Xin. Effects of PASP-KT-NAA on Photosynthesis and Antioxidant Enzyme Activities of Maize Seedlings under Low Temperature Stress [J]. Acta Agron Sin, 2012, 38(02): 352-359.
[11] ZHANG Xin, CHENG Zhi-Jun, LIN Qi-Bing, WANG Jiu-Lin, WAN Jian-Min. Cloning of Cold-Inducible Gene SlCMYB1 and Its Heterologous Expression in Rice [J]. Acta Agron Sin, 2011, 37(04): 587-594.
[12] ZHANG Bao-Qing, YANG Li-Tao, LI Yang-Rui. Comparison of Physiological and Biochemical Characteristics Related to Cold Resistance in Sugarcane under Field Conditions [J]. Acta Agron Sin, 2011, 37(03): 496-505.
[13] GUO Hui-Meng, LI Shao-Chun, ZHANG Han, XIN Yue-Zhi, CHENG Hong-Mei. Cloning of Cotton CBF Gene and Its Cold Tolerance Expression in Transgenic Tobacco [J]. Acta Agron Sin, 2011, 37(02): 286-293.
[14] WANG Yan,MA Ji,HUANG Wei,QIU Li-Ming,YE Feng,ZHANG Fu-Chun. Codl Tolerance of Transplastomic Tobacco Lines Carrying Insect Antifreeze Protein [J]. Acta Agron Sin, 2009, 35(7): 1253-1360.
[15] HUANG Rui-Dong;SUN Lu;XIAO Mu-Ji;ZHOU Yu-Fei. Physiological and Biochemical Responses to Drought during filling Stage in Stay Green Sorghum B35 [J]. Acta Agron Sin, 2009, 35(3): 560-565.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
Add: No. 80 Xueyuan South Rd, Beijing 100081, P. R. China E-mail: zwxb301@caas.cn
Supported by Beijing Magtech Co.Ltd