植物生态学报 ›› 2017, Vol. 41 ›› Issue (7): 805-814.DOI: 10.17521/cjpe.2017.0042
• 综述 • 上一篇
郑小兰, 王瑞娇, 赵群法, 刘勇鹏, 王媛媛, 孙治强*()
收稿日期:
2017-02-23
接受日期:
2017-06-01
出版日期:
2017-07-10
发布日期:
2017-08-21
通讯作者:
孙治强
作者简介:
* 通信作者Author for correspondence (E-mail:
基金资助:
Xiao-Lan ZHENG, Rui-Jiao WANG, Qun-Fa ZHAO, Yong-Peng LIU, Yuan-Yuan WANG, Zhi-Qiang SUN*()
Received:
2017-02-23
Accepted:
2017-06-01
Online:
2017-07-10
Published:
2017-08-21
Contact:
Zhi-Qiang SUN
About author:
KANG Jing-yao(1991-), E-mail:
摘要:
氧是植物生命活动所必需的营养因子, 充足的氧供应才能满足植物正常生长发育的需求, 但频发的洪涝灾害使根系淹水缺氧成为植物生长过程中经常遭受的非生物胁迫。因此, 了解植物对根际氧含量变化的响应与适应机制对作物的生产及抗性品种的选育有重要意义。该文对根际氧环境对植物多方面的影响进行了综述, 包括植物的需氧量、氧含量对根际环境的影响和氧含量对植物的影响等, 并阐明植物在低氧下的伤害与适应机理和植物对低氧信号的感应与信号传导机制, 最后总结了避免缺氧伤害的措施, 同时还提出根际氧含量方面有待进一步探索的问题与研究方向, 为后续的研究提供新思路。
郑小兰, 王瑞娇, 赵群法, 刘勇鹏, 王媛媛, 孙治强. 根际氧含量影响植物生长的生理生态机制研究进展. 植物生态学报, 2017, 41(7): 805-814. DOI: 10.17521/cjpe.2017.0042
Xiao-Lan ZHENG, Rui-Jiao WANG, Qun-Fa ZHAO, Yong-Peng LIU, Yuan-Yuan WANG, Zhi-Qiang SUN. Ecophysiological mechanisms of plant growth under the influence of rhizosphere oxygen concentration: A review. Chinese Journal of Plant Ecology, 2017, 41(7): 805-814. DOI: 10.17521/cjpe.2017.0042
[1] | Abdolhamid AS, Septiningsih EM, Mackill DJ, Ismail AM (2010). QTLs associated with tolerance of flooding during germination in rice (Oryza sativa L.).Euphytica, 172, 159-168. |
[2] | Alves LM, Heisler EG, Kissinger JC, Patterson JI, Kalan EB (1979). Effects of controlled atmospheres on production of sesquiterpenoid stress metabolites by white potato tuber.Plant Physiology, 63, 359-362. |
[3] | Armstrong W, Drew MC (2002). Root growth and metabolism under oxygen deficiency. In: Waisel Y, Eshel A eds. Plant Roots: The Hidden Half. 3rd edn. Marcel Dekker, New York. 729-761. |
[4] | Ashraf M, Harris PC (2013). Photosynthesis under stressful environments: An overview.Photosynthetica, 51, 163-190. |
[5] | Baena-Gonzalez E (2010). Energy signaling in the regulation of gene expression during stress.Molecular Plant, 3, 300-313. |
[6] | Bai TH, Ma FW, Li CY, Shu HR, Han MY, Wang K (2008). Physiological responses and analysis of tolerance of apple rootstocks to root-zone hypoxia stress.Agricultural Sciences in China, 41, 4140-4148. (in Chinese with English abstract)[白团辉, 马锋旺, 李翠英, 束怀瑞, 韩明玉, 王昆 (2008). 苹果砧木幼苗对根际低氧胁迫的生理响应及耐性分析. 中国农业科学, 41, 4140-4148.] |
[7] | Bailey-Serres J, Chang R (2005). Sensing and signaling in response to oxygen deprivation in plants and other organisms.Annals of Botany, 96, 507-518. |
[8] | Banks NH (2002). Evaluation of methods for determining internal gases in banana fruit.Journal of Experimental Botany, 92, 572-580. |
[9] | Blackwell PS, Ayling SA (1980). Changes in aeration following transient waterlogging of sandy loam and clay soils cropped with winter cereals.Agricultural Research Council Letcombe Laboratory Annual Report, 35-38. |
[10] | Blokhina O, Fagerstedt KV (2010). Oxidative metabolism, ROS and NO under oxygen deprivation.Plant Physiology and Biochemistry, 48, 359-373. |
[11] | Bonachela S, Quesada J, Acuña RA, Magán JJ, Marfà O (2010). Oxyfertigation of a greenhouse tomato crop grown on rockwool slabs and irrigated with treated wastewater: Oxygen content dynamics and crop response.Agricultural Water Management, 97, 433-438. |
[12] | Bramley H, Turner NC, Turner DW, Tyerman SD (2010). The contrasting influence of short-term hypoxia on the hydraulic properties of cells and roots of wheat and lupin.Functional Plant Biology, 37, 183-193. |
[13] | Branco-Price C, Kaiser KA, Jang CH, Larive CK, Bailey-Serres J (2008). Selective mRNA translation coordinates energetic and metabolic adjustments to cellular oxygen deprivation and reoxygenation in Arabidopsis thaliana. The Plant Journal, 56, 743-755. |
[14] | Chen LJ, Wu ZJ, Jiang Y, Zhou LK (2002). Response of N transformation related soil enzyme activities to inhibitor applications.Chinese Journal of Applied Ecology, 13, 1099-1103. (in Chinese with English abstract)[陈利军, 武志杰, 姜勇, 周礼恺 (2002). 与氮转化有关的土壤酶活性对抑制剂施用的响应. 应用生态学报, 13, 1099-1103.] |
[15] | Chen SL, Wang JM, Pan YZ, Ma JY, Zhang JH, Zhang HS, Teng S (2012). Genetic analysis of seed germinability under submergence in rice.Chinese Bulletin of Botany, 47, 28-35. (in Chinese with English abstract)[陈孙禄, 王俊敏, 潘佑找, 马健阳, 张建辉, 张红生, 滕胜 (2012). 水稻萌发耐淹性的遗传分析. 植物学报, 47, 28-35.] |
[16] | Chen Y, Yin YX, Chen XW (2011). Change of flood disasters in China since the 1880s and some possible causes.Journal of Natural Resources, 26, 2110-2120. (in Chinese with English abstract)[陈莹, 尹义星, 陈兴伟 (2011). 19世纪末以来中国洪涝灾害变化及影响因素研究. 自然资源学报, 26, 2110-2120.] |
[17] | Chérif M, Tirilly Y, Bélanger RR (1997). Effect of oxygen concentration on plant growth, lipidperoxidation, and receptivity of tomato roots to Pythium F under hydroponic conditions.European Journal of Plant Pathology, 103, 255-264. |
[18] | Colmer TD, Voesenek LJ (2009). Flooding tolerance: Suites of plant traits in variable environments.Functional Plant Biology, 36, 665-681. |
[19] | Cruickshank IAM, Perrin DR (1967). Studies on phytoalexins: X. Effect of oxygen tension on the biosynthesis of pisatin and phaseollin.Journal of Phytopathology, 60, 335-342. |
[20] | Dongen JV, Schurr U, Pfister M, Geigenberger P (2003). Phloem metabolism and function have to cope with low internal oxygen.Plant Physiology, 131, 1529-1543. |
[21] | Dordas C, Hasinoff BB, Rivoal J, Hill RD (2004). Class-1 hemoglobins, nitrate and NO levels in anoxic maize cell- suspension cultures.Planta, 219, 66-72. |
[22] | Drew MC, Lynch JM (1980). Soil anaerobiosis, microorganisms, and root function.Annual Review of Phytopathology, 18, 37-66. |
[23] | Drew MC (1997). Oxygen deficiency and root metabolism: Injury and acclimation under hypoxia and anoxia.Annual Review of Plant Physiology & Plant Molecular Biology, 48, 223-250. |
[24] | Gao HB, Guo SR (2004). Effects of exogenous γ-aminobutyric acid on antioxidant enzyme activity and reactive oxygen content in muskmelon seedlings under nutrient solution hypoxia stress.Journal of Plant Physiology and Molecular Biology, 30, 651-659. (in Chinese with English abstract)[高洪波, 郭世荣 (2004). 外源γ-氨基丁酸对营养液低氧胁迫下网纹甜瓜幼苗抗氧化酶活性和活性氧含量的影响. 植物生理与分子生物学学报, 30, 651-659.] |
[25] | Geigenberger P (2003). Response of plant metabolism to too little oxygen.Current Opinion in Plant Biology, 6, 247-256. |
[26] | Geigenberger P, Fernie AR, Gibon Y, Christ M, Stitt M (2000). Metabolic activity decreases as an adaptive response to low internal oxygen in growing potato tubers.Biological Chemistry, 381, 723-740. |
[27] | Gibbs DJ, Cho LS, Md IN, Silvia G, Takeshi F, Bassel GW, Correia CS, Françoise C, Theodoulou FL, Bailey-serres J, Holdsworth MJ (2011). Homeostatic response to hypoxia is regulated by the N-end rule pathway in plants.Nature, 479, 415-418. |
[28] | Godber BL, Doel JJ, Sapkota GP, Blake DR, Stevens CR, Eisenthal R, Harrison R (2000). Reduction of nitrite to nitric oxide catalyzed by xanthine oxidoreductase.Journal of Biological Chemistry, 275, 7757-7763. |
[29] | Gunther SS (1987).Agriculture Encyclopedia: Root Formation. Yangxian Hall, Tokyo, Japan. 921-927. |
[30] | Guo SR (2011). Soilless Culture. China Agriculture Press, Beijing. (in Chinese)[郭世荣 (2011). 无土栽培学. 中国农业出版社, 北京.] |
[31] | Holtman WL, Duijn BV, Blaakmeer A, Blok C (2005). Optimalization of oxygen levels in root systems as effective cultivation tool.Acta Horticulturae, 697, 57-64. |
[32] | Hu J, Zhou JB, Peng XX, Xu HH, Liu CX, Du B, Yuan HY, Zhu LL, He GC (2011). The Bphi008a gene interacts with the ethylene pathway and transcriptionally regulates MAPK genes in the response of rice to brown planthopper feeding.Plant Physiology, 156, 856-872. |
[33] | Huang B, Johnson JW, Nesmith S, Bridges DC (1994). Growth, physiological and anatomical responses of two wheat genotypes to waterlogging and nutrient supply.Journal of Experimental Botany, 45, 193-202. |
[34] | Igamberdiev AU, Bykova NV, Shah JK, Hill RD (2010). Anoxic nitric oxide cycling in plants: Participating reactions and possible mechanisms.Physiologia Plantarum, 138, 393-404. |
[35] | Ismail AM, Ella ES, Vergara GV, Mackill DJ (2010). Mechanisms associated with tolerance to flooding during germination and early seedling growth in rice (Oryza sativa).Annals of Botany, 103, 197-209. |
[36] | Jia YX (2009). Studies on Physiological Regulation Function of Exogenous Spermidine on Cucumber Seedlings Tolerance to Hypoxia. PhD dissertation, Nanjing Agricultural University, Nanjing. (in Chinese with English abstract)[贾永霞 (2009). 外源亚精胺提高黄瓜幼苗低氧胁迫耐性的生理调节功能. 博士学位论文, 南京农业大学, 南京.] |
[37] | Jia YX, Guo SR, Li J, Sun J, Huang BJ (2008). Effects of exogenous putrescine on polyamines and antioxidant system in cucumber seedlings under root-zone hypoxia stress.Acta Botanica Boreali-Occidentalia Sinica, 28, 1654-1662. (in Chinese with English abstract)[贾永霞, 郭世荣, 李娟, 孙锦, 黄保健 (2008). 外源腐胺对根际低氧胁迫下黄瓜幼苗多胺和抗氧化系统的影响. 西北植物学报, 28, 1654-1662.] |
[38] | Jin Q (2008). Micro-Nano bubble generating device.China Water Resources, (4), 72. (in Chinese)[金强 (2008). 微纳米气泡发生装置. 中国水利, (4), 72.] |
[39] | Jing L (2015). Root aeration improves growth and N accumulation in rice seedlings under low nitrogen.AOB Plants, 7, 225-228. |
[40] | Johannes W (1960). Plant Respiration Inclusive Fermentations and Acid Metabolism. Part 2. Springer-Verlag, Heidelberg, Germany. 114-148. |
[41] | Kuan TL, Erwin DC (1980). Predisposition effect of water saturation of soil on phytophthora root rot of alfalfa.Phytopathology, 70, 981-986. |
[42] | Ladygin VG (1999). Functional activity and chloroplast structure in leaves of Pisum sativum and Glycine max under conditions of root hypoxia and anoxia.Russian Journal of Plant Physiology, 46, 207-218. |
[43] | Laura VM, Loreti E, Anna M, Amedeo A, Pierdomenico P (2010). Hormonal interplay during adventitious root formation in flooded tomato plants.The Plant Journal, 63, 551-562. |
[44] | Licausi F, Kosmacz M, Weits DA, Giuntoli B, Giorgi FM, Voesenek LJ, Perata P, van Dongen JT (2011). Oxygen sensing in plants is mediated by an N-end rule pathway for protein destabilization.Nature, 479, 419-422. |
[45] | Licausi F, van Dongen JT, Giuntoli B, Novi G, Santaniello A, Geigenberger P, Perata P (2010). HRE1 and HRE2, two hypoxia-inducible ethylene response factors, affect anaeroic responses in Arabidopsis thaliana. The Plant Journal, 62, 302-315. |
[46] | Liu HT, Li B, Shang ZL, Li XZ, Mu RL, Sun DY, Zhou RG (2004). Calmodulin is involved in heat shock signal transduction in wheat.Plant Physiology, 132, 1186-1195. |
[47] | Ma YH, Guo SR, Du NS, Shan X, Sun J, Wang L, Wang Y, Shu S (2015). Effect of exogenous 24-epibrassinolide on nitrogen assimilation of cucumber seedlings under hypoxia stress.Journal of Nanjing Agricultural University, 38, 538-545. (in Chinese with English abstract)[马月花, 郭世荣, 杜南山, 山溪, 孙锦, 王磊, 王颖, 束胜 (2015). 外源24-表油菜素内酯对低氧胁迫下黄瓜幼苗氮代谢的影响. 南京农业大学学报, 38, 538-545.] |
[48] | Magness JR (1920). Composition of gases in intercellular spaces of apples and potatoes.Botanical Gazette, 70, 308-316. |
[49] | Mi YF (2009). Research on Tolerance Evaluation and Physiological Mechanism of Kiwifruit Seedling to Root Zone Hypoxia. PhD dissertation, Northwest Agriculture and Forestry University, Yangling, Shaanxi.(in Chinese with English abstract).[米银法 (2009). 猕猴桃实生苗对根际低氧胁迫的抗性评价及抗性生理机制研究. 博士学位论文, 西北农林科技大学, 陕西杨凌.] |
[50] | Morard P, Silvestre J (1996). Plant injury due to oxygen deficiency in the root environment of soilless culture: A review.Plant and Soil, 184, 243-254. |
[51] | Nakano Y (2007). Response of tomato root systems to environmental stress under soilless culture.Japan Agricultural Research Quarterly, 41, 7-15. |
[52] | Negi S, Ivanchenko MG, Muday GK (2009). Ethylene regulates lateral root formation and auxin transport in Arabidopsis thaliana. The Plant Journal, 55, 175-187. |
[53] | Nichols MA, Woolley DJ, Christie CB (2002). Effect of oxygen and carbon dioxide concentration in the root zone on the growth of vegetables.Acta Horticulturae, (578), 119-122. doi: 10.17660/ActaHortic.2002.578.13. |
[54] | Ober ES, Sharp RE (1996). A microsensor for direct measurement of O2 partial pressure within plant tissues.Journal of Experimental Botany, 47, 447-454. |
[55] | Park JS, Ohashi K, Kurata K, Lee JW (2010). Promotion of lettuce growth by application of microbubbles in nutrient solution using different rates of electrical conductivity and under periodic intermittent generation in a deep flow technique culture system.European Journal of Horticultural Science, 75, 198-203. |
[56] | Pei PG, Zhang JH, Zhu LF, Yu SM, Jin QY (2013). Research progress on effects of rhizosphere dissolved oxygen on root morphology and physiological characteristics in rice.China Rice, 19(2), 6-8. (in Chinese with English abstract)[裴鹏刚, 张均华, 朱练峰, 禹盛苗, 金千瑜 (2013). 根际氧浓度调控水稻根系形态和生理特性研究进展. 中国稻米, 19(2), 6-8.] |
[57] | Rhoads DM, Subbaiah CC (2007). Mitochondrial retrograde regulation in plants.Mitochondrion, 7, 177-194. |
[58] | Rolletschek H, Borisjuk L, Koschorreck M, Wobus U, Weber H (2002). Legume embryos develop in a hypoxic environment.Journal of Experimental Botany, 53, 1099-1107. |
[59] | Rong GS, Tachibana S (1997). Effect of dissolved O2 levels in a nutrient solution on the growth and mineral nutrition of tomato and cucumber seedlings.Engei Gakkai Zasshi, 66, 331-337. |
[60] | Sauter M (2013). Root responses to flooding.Current Opinion in Plant Biology, 16, 282-286. |
[61] | Setter TL, Datta S (1997). Physiology and genetics of submergence tolerance in rice.Annals of Botany, 79, 67-77. |
[62] | Shimamura S, Ryo Y, Nakamura T, Shinji S, Setsuko K (2011). Stem hypertrophic lenticels and secondary aerenchyma enable oxygen transport to roots of soybean in flooded soil.Annals of Botany, 106, 277-284. |
[63] | Taiz L, Zeiger E (2010). Plant Physiology. 5th edn. Sinauer Associates, Massachusetts, USA. |
[64] | Thani QA, Schaffer B, Liu GD, Vargas AI, Crane JH (2016). Chemical oxygen fertilization reduces stress and increases recovery and survival of flooded papaya (Carica papaya L.) plants.Scientia Horticulturae, 202, 173-183. |
[65] | Vasellati V, Oesterheld M, Medan D, Loreti J (2001). Effects of flooding and drought on the anatomy of Paspalum dilatatum.Annals of Botany, 88, 355-360. |
[66] | Wang GL, Semenza GL (1993). Characterization of hypoxia- inducible factor 1 and regulation of DNA binding activity by hypoxia.Journal of Biological Chemistry, 268, 21513-21518. |
[67] | Wang T, Li J, Guo SR, Gao HB, Wang SP (2005). Effects of exogenous polyamines on the growth and activities of H+-ATPase and H+-PPase in cucumber seedling roots under hypoxia stress.Journal of Plant Physiology and Molecular Biology, 31, 637-642. (in Chinese with English abstract)[汪天, 李娟, 郭世荣, 高洪波, 王素平 (2005). 外源多胺对低氧胁迫下黄瓜幼苗根系生长及H+-ATP酶和H+-焦磷酸酶活性的影响. 植物生理与分子生物学学报, 31, 637-642.] |
[68] | Wang WQ, Zhang FS (2001). The physiological and molecular mechanism of adaptation to anaerobiosis in higher plants.Plant Physiology Communications, 37, 63-70. (in Chinese with English abstract)[王文泉, 张福锁 (2001). 高等植物厌氧适应的生理及分子机制. 植物生理学通讯, 37, 63-70.] |
[69] | Wang YJ, Gao C, Wang AQ, Wang YY, Zhang FY, Zhai JQ, Li XC, Su BD (2014). Temporal and spatial variation of exposure and vulnerability of flood disaster in China.Progressus Inquisitiones DE Mutatione Climatis, 10, 391-398. (in Chinese with English abstract)[王艳君, 高超, 王安乾, 王豫燕, 张飞跃, 翟建青, 李修仓, 苏布达 (2014). 中国暴雨洪涝灾害的暴露度与脆弱性时空变化特征. 气候变化研究进展, 10, 391-398.] |
[70] | Wei LK, Chen PW, Lu CA, Chen S, Ho THD, May YS (2009). Coordinated responses to oxygen and sugar deficiency allow rice seedlings to tolerate flooding. Science Signaling, 2, ra61. doi: 10.1126/scisignal.2000333. |
[71] | Wilcox WF, Mircetich SM (1985). Effects of flooding duration on the development of Phytophthora root and crown rots of cherry.Phytopathology, 75, 562-565. |
[72] | Xu CM, Wang DY, Chen S, Chen LP, Zhang XF (2012). Effect of aeration on root growth and nitrogen metabolism in rice.Chinese Journal of Rice Science, 26, 320-324. (in Chinese with English abstract)[徐春梅, 王丹英, 陈松, 陈丽萍, 章秀福 (2012). 增氧对水稻根系生长与氮代谢的影响. 中国水稻科学, 26, 320-324.] |
[73] | Xue XL, Yang WH, Zhang TZ (2017). Oxygen-increased and disinfectant technology of nutrient solution aerated by Micronano bubbles.Agriculture Engineering Technology, 37(1), 46-50. (in Chinese with English abstract)[薛晓莉, 杨文华, 张天柱 (2017). 营养液微纳米气泡增氧消毒技术. 农业工程技术, 37(1), 46-50.] |
[74] | Zhang JX (1994). Can early wilting of old leaves account for much of the ABA accumulation in flooded pea plants?Journal of Experimental Botany, 45, 1335-1342. |
[75] | Zhang YY, Sun ZP, Liu GJ, Zhang C (2011). Effect of different root-zone aeration methods on tomato media characteristic.Acta Agriculturae Boreali-occidentalis Sinica, 20(4), 106-110. (in Chinese with English abstract)[张莹莹, 孙周平, 刘广晶, 张超 (2011). 根区通气方式对番茄根际气体环境及基质理化性质的影响. 西北农业学报, 20(4), 106-110.] |
[76] | Zhao F, Zhang WJ, Zhang XF, Wang DY, Xu CM (2012). Effect of continuous aeration on growth and activity of enzymes related to nitrogen metabolism of different rice genotypes at tillering stage.Acta Agronomica Sinica, 38, 344-351. (in Chinese with English abstract)[赵锋, 张卫建, 章秀福, 王丹英, 徐春梅 (2012). 连续增氧对不同基因型水稻分蘖期生长和氮代谢酶活性的影响. 作物学报, 38, 344-351.] |
[77] | Zheng YB, Wang LP, Dixon M (2007). An upper limit for elevated root zone dissolved oxygen concentration for tomato.Scientia Horticulturae, 113, 162-165. |
[78] | Zhu HJ (1992). Soil Geography. Higher Education Press, Beijing. (in Chinese)[朱鹤健 (1992). 土壤地理学. 高等教育出版社, 北京.] |
[1] | 吴建波, 王小丹. 高寒草原优势种紫花针茅叶片解剖结构对青藏高原高寒干旱环境适应性分析[J]. 植物生态学报, 2021, 45(3): 265-273. |
[2] | 王海珍, 韩路, 徐雅丽, 牛建龙. 胡杨异形叶光合作用对光强与CO2浓度的响应[J]. 植物生态学报, 2014, 38(10): 1099-1109. |
阅读次数 | ||||||
全文 |
|
|||||
摘要 |
|
|||||
Copyright © 2022 版权所有 《植物生态学报》编辑部
地址: 北京香山南辛村20号, 邮编: 100093
Tel.: 010-62836134, 62836138; Fax: 010-82599431; E-mail: apes@ibcas.ac.cn, cjpe@ibcas.ac.cn
备案号: 京ICP备16067583号-19