TONG Yu-xin,CHANG Ben-chao,LI Yu-ying,et al.Progress on Chilling Injury Causing Mechanism and Cold-resistance Strategy of Northeast China[J].HEILONGJIANG AGRICULTURAL SCIENCES,2016,(07):138-142.[doi:10.11942/j.issn1002-2767.2016.07.0138]
低温冷害致灾机理研究进展及东北抗冷害防控策略
- Title:
- Progress on Chilling Injury Causing Mechanism and Cold-resistance Strategy of Northeast China
- 文章编号:
- 1002-2767(2016)07-0138-05
- Keywords:
- chilling injury; causing mechanism; cold-resistance strategy
- 分类号:
- S426
- 文献标志码:
- A
- 摘要:
- 为加强作物低温冷害研究,实现东北地区作物抗冷害减灾保产,探讨了低温对作物细胞分裂期到灌浆期的影响,以及不同生殖器官的冷害敏感程度。低温引起作物不孕,花粉和胚珠不孕,导致无法受精,进而影响籽粒灌浆。总结分析了低温胁迫的生理学原因,即:植物激素、糖类的变化。根据东北地区低温冷害的致灾机理,从筛选适宜作物品种、培肥地力、可降解地膜及秸秆覆盖、化学调控等方面入手,对东北地区作物抗冷害减损保产策略进行了概述。
- Abstract:
- Cold temperature causes the enormous agricultural losses.The reproductive period is a vital phase in the life cycle of all annual plants,and metabolism during this phase ultimately determines crop yield.Plants exposed to cold temperature during reproduction show reduced metabolic rates leading to low yields.In order to strengthern the chilling damages for crops,realize the crops resistance to chilling injury and mitigation protect produced in northeast China,the effects of low temperature on various stages of the reproductive phase were studied,from meiosis to grain filling,and temperature sensitivity of different reproductive organs.Cold temperature induced flower abortion,pollen and ovule infertility,caused breakdown of fertilization and affected seed filling,which leading to low seed set and ultimately low grain yield.Physiological and metabolic bases of cold stress,including the role of phytohormones and sugar-induced regulation were reviewed,and future research directions investigating molecular and metabolomic changes during the development of the gynoecium during cold stress suggested.Based on chilling injury causing mechanism,cold-resistance strategy in northeast China with variety screening was outlined from soil fertility,film covering,residue covering and chemical regulation.
参考文献/References:
[1]Repo T,Mononen K,Alvila L,et al.Cold acclimation of pedunculate oak(Quercus robur L.) at its northernmost distribution range[J].Environmental & Experimental Botany,2008
,
63(3):59-70.
[2]Andaya V C,Mackill D J.Mapping of QTLs associated with cold tolerance during the vegetative stage in rice[J].Journal of Experimental Botany,2003,54(392): 2579-85. [3]Teklehaimanot Z.Physiological Plant Ecology: Ecophysiology and Stress Physiology of Functional Groups[J].Forestry,2003,77(4): 365-366. [4]Thakur P,Kumar S,Malik J A,et al.Cold stress effects on reproductive development in grain crops: An overview[J].Environmental & Experimental Botany,2010,67(3): 429-443. [5]崔一鸣,毕伊红,张丹丹,等.低温冷害研究进展[J].现代农业科技,2015(24):240-241. [6]Lyons J M,Graham D,Raison J K.Low temperature stress in crop plants.The role of the membrane[J].Bioscience,1979,82(3):421-430. [7]Satake T,Hayase H.Male sterility caused by cooling treatment at the young micro-spore stage in rice plants.5.Estimations of pollen developmental stage and the most sensitive stage to coolness[J].Nihon Sakumotsugaku Kai Kiji Proceedings of the Crop Science Society of Japan,1970,42(3):282-2910. [8]Takeoka Y,Mamun A A,Wada T.et al.Reproductive adaptation of rice to environmental stress[J].Reproductive Adaptation of Rice to Environmental Stress,1992,22(4):158-169. [9]Aroca R,Tognoni F,Irigoyen J J,et al.Different root low temperature response of two maize genotypes differing in chilling sensitivity[J].Plant Physiology & Biochemistry,2001,39(12):1067-1073. [10]Arora R,Palta J P.Relative sensitivity of photosynthesis and respiration to freeze-thaw stress in herbaceous species:importance of realistic freeze-thaw protocols[J].Plant Physiology,1989,89(4): 1372-9. [11]Borthwick H A,Heinze P H.Influence of Localized Low Temperature on Biloxi Soybean During Photoperiodic Induction[J].Botanical Gazette,1941,102(4):792-800. [12]Bechoux N G,Bernier P,Lejeune.Environmental effects on the early stages of tassel morphogenesis in maize(Zea mays L.)[J].Plant Cell & Environment,2000,23(1):91-98. [13]Croser J S,Clarke H J,Slddigue KHN,et al.Low-temperature stress:Implications for chickpea(Cicer arietinum L.) improvement[J].Critical Reviews in Plant Sciences,2003,22(2):185-219. [14]Boyer J S,Mclaughlin J E.Functional reversion to identify controlling genes in multigenic responses: analysis of floral abortion[J].Journal of Experimental Botany,2007,58(2):267-277. [15]Hayase H,Satake T,Nishiyama I,et al.Male Sterility Caused by Cooling Treatment at the Meiotic Stage in Rice Plants:II.The most sensitive stage to cooling and the fertilizing ability of pistils[J].Japanese Journal of Crop Science,1969,38(4):706-711. [16]Issarakraisila M,Considine J A.Effects of Temperature on Pollen Viability in Mango cv.’Kensington’[J].Annals of Botany,1993,73(3): 231-240. [17]Saini H S,Aspinall D.Effect of Water Deficit on Sporogenesis in Wheat(Triticum aestivum L.)[J].Annals of Botany,1981,48(5):623-633. [18]Srinivasan A C,Johansen N P,Saxena.Cold tolerance during early reproductive growth of chickpea(Cicer arietinum L.):Characterization of stress and genetic variation in pod set[J].Field Crops Research,1998,57(2): 181-193. [19]Cruz R P D,Federizzi L C.Rice cold tolerance at the reproductive stage in a controlled environment[J].Scientia Agricola,2006,63(3):255-261. [20]Francis D,Barlow P W.Temperature and the cell cycle[J].Symposia of the Society for Experimental Biology,1988,42(42):181-201. [21]Rymen B,Fiorani F,Kartal F,et al.Cold nights impair leaf growth and cell cycle progression in maize through transcriptional changes of cell cycle genes[J].Plant Physiology,2007,143(3):1429-38. [22]Nayyar H,Kaur G,Kumar S,et al.Low Temperature Effects during Seed Filling on Chickpea Genotypes(Cicer arietinum L.):Probing Mechanisms affecting Seed Reserves and Yield[J].Journal of Agronomy & Crop Science,2007,193(5):336-344. [23]Murchie E H,Yang Jianchang,Stella Habbart,et al.Are there associations between grain-filling rate and photosynthesis in the flag leaves of field-grown rice?[J].Journal of Experimental Botany,2002,53(378):.2217-2224. [24]Wardlaw〖JP3〗 I F.Phloem Transport and the regulation of growth of sorghum bicolor(Moench)at low temperature[J].Plant Physiology,1981,68(2): 411-4. [25]Ercoli L,Mariotei M,Masoni A,et al.Growth responses of sorghum plants to chilling temperature and duration of exposure[J].European Journal of Agronomy,2004,21(1):93-103. [26]〖JP3〗Levitt J.Chilling,freezing,and high temperature stresses[J].Chilling Freezing & High Temperature Stresses,1980,63(3):471-497. [27]Cheng W H,Taliercio E W,Chourey P S.The miniature1 seed locus of maize encodes a cell wall invertase required for normal development of endosperm and maternal cells in the pedicel[J].Plant Cell,1996,8(6):971-983. [28]Cheikh N,Jones R J.Disruption of maize kernel growth and development by heat stress(role of cytokinin/abscisic acid balance)[J].Plant Physiology,1994,106(1): 45-51. [29]Janowiak F,Dürffling K.Chilling-induced changes in the contents ofof 1-aminocyclopropane-1-carboxylic Acid(ACC)and its N-malonyl Conjugate(MACC) in seedlings of two maize inbreds differing in chilling tolerance[J].Journal of Plant Physiology,1995,147(2):257-262. [30]Ober E S,Setter T L.Timing of kernel development in water-stressed maize:water ootentials and abscisic acid concentrations[J].Annals of Botany,1990,66(6): 665-672. [31]Frascaroli E, Tuberosa R.Effect of abscisic acid on pollen germination and tube growth of maize genotypes[J].Plant Breeding,1993,110(3):250-254. [32]Guo W.Analysis on source-sink relationship after anthesis in wheat[J].Acta Agronomica Sinica,1995,21: 334-340. [33]Rocha F R,Papini T,Flávia S J,et al.Signal transduction-related responses to phytohormones and environmental challenges in sugarcane[J].Bmc Genomics,2007,8(1):71. [34]Sawhney V K,Shukla A.Male sterility in flowering plants:Are plant growth substances involved[J].American Journal of Botany,1994,81(12):1640-1647. [35]Roitsch T.Source-sink regulation by sugar and stress.Current Opinion in Plant Biology[J],1999,2(3): 198-206. [36]Weber H,Borisjuk L,Wobus U.Molecular physiology of legume seed development[J].Annual Review of Plant Biology,2004,56(56): 253-279. [37]Guy C L,Huber J L,Sc H.Sucrose phosphate synthase and sucrose accumulation at low temperature[J].Plant Physiology,1992,100(1):502-8. [38]矫江,王俊河.复合因素在黑龙江省粮食产量预报中的应用[J].气象,1993(5): 50-52. [39]赵洪凯,龚文娟,杨英良,等.玉米延迟型冷害及防御措施[J].农业科技通讯,1979(4):7-8. [40]马延华,王庆祥,陈绍江.玉米耐寒性生理生化机理与分子遗传研究进展[J].玉米科学,2013(3):87-92. [41]徐田军,董志强,高娇,等.聚糠萘水剂对黑龙江省不同积温带玉米籽粒灌浆的影响[J].应用生态学报,2013.24(2):451-458. [42]Sun J,Wu W,Tang H,et al.Spatiotemporal patterns of non-genetically modified crops in the era of expansion of genetically modified food[J].Scientific Reports,2015, 5:1-7.
相似文献/References:
[1]刘 会.近年来异常气候对黑龙江省水稻的危害及对策[J].黑龙江农业科学,2010,(09):123.
LIU Hui.Harm of Abnormal Climate in Recent Years to Rice in Heilongjiang and the Countermeasures[J].HEILONGJIANG AGRICULTURAL SCIENCES,2010,(07):123.
[2]张勇.冷害对黑龙江克拜地区大豆农艺性状及产量的影响[J].黑龙江农业科学,2013,(10):16.
ZHANG Yong.Effects of Cold Damage on Agronomic Traits and Yield of Soybean in Kebai Region of Heilongjiang Province[J].HEILONGJIANG AGRICULTURAL SCIENCES,2013,(07):16.
[3]聂希安. 干旱和低温与农业技术对策[J].黑龙江农业科学,1991,(03):33.[doi:10.11942/j.issn1002-2767.1991.03.0033]
[4]中本和夫,李丽原,矫 江.黑龙江省水稻冷害风险经营对策研究[J].黑龙江农业科学,2009,(02):35.
KazuoNakmoto,LI Li-yuan,JIAO Jiang.Strategy of Rice Cold Damage Risk Management in Heilongjiang Province[J].HEILONGJIANG AGRICULTURAL SCIENCES,2009,(07):35.
[5]扈光辉.玉米抗冷性研究进展[J].黑龙江农业科学,2009,(02):150.
HU Gguang-hui.Research Advancement on Chilling Tolerance in Maize[J].HEILONGJIANG AGRICULTURAL SCIENCES,2009,(07):150.
[6]孟 英,李 明,王连敏,等.低温冷害对玉米生长影响及相关研究[J].黑龙江农业科学,2009,(04):150.[doi:10.11942/j.isn1002-2767.2009.04.0126]
MENGYing,LI Ming,WANG Lian-min,et al.Effects of Chilling Injury on Maize and Correlative Research[J].HEILONGJIANG AGRICULTURAL SCIENCES,2009,(07):150.[doi:10.11942/j.isn1002-2767.2009.04.0126]
[7]史占忠,贲显明,张敬涛,等.三江平原春玉米低温冷害发生规律及防御措施[J].黑龙江农业科学,2003,(02):7.[doi:10.11942/j.issn1002-2767.2003.02.0007]
SHI Zhan-zhong,BEN Xian-ming,ZHANGJing-tao,et al.The Emerging Pattern and Preventive Measure of Maize Cold Damage in the Sanjiang River Plain[J].HEILONGJIANG AGRICULTURAL SCIENCES,2003,(07):7.[doi:10.11942/j.issn1002-2767.2003.02.0007]
[8]付永明.从2002 年的低温冷害看寒地水稻的安全生产[J].黑龙江农业科学,2003,(03):33.[doi:10.11942/j.issn1002-2767.2003.03.0033]
FU Yong-ming.On the Safe Production of Rice in Cold Region by Revision of the Cold Injury in 2002[J].HEILONGJIANG AGRICULTURAL SCIENCES,2003,(07):33.[doi:10.11942/j.issn1002-2767.2003.03.0033]
[9]李明贤.黑龙江省水稻常见的生产障碍发生规律及防御对策[J].黑龙江农业科学,2004,(01):42.[doi:10.11942/j.issn1002-2767.2004.01.0042]
LI Ming-xian.Occurrence Regulation and Prevenition Countermeasures of Rice Production Obstacls[J].HEILONGJIANG AGRICULTURAL SCIENCES,2004,(07):42.[doi:10.11942/j.issn1002-2767.2004.01.0042]
[10]李 锐,曾宪国,王连敏,等.2006 年低温冷害对黑龙江省水稻影响浅析[J].黑龙江农业科学,2007,(05):27.[doi:10.11942/j.issn1002-2767.2007.05.0027]
LI Rui,ZENG Xian-guo,WANG Lian-min,et al.Analysis on Rice Cooling Injury in Heilongjiang Province in 2006[J].HEILONGJIANG AGRICULTURAL SCIENCES,2007,(07):27.[doi:10.11942/j.issn1002-2767.2007.05.0027]
备注/Memo
收稿日期:2016-06-15