[1]侯本福,姜树坤,杨传铭,等.禾本科植物盐腺的结构和功能研究进展[J].黑龙江农业科学,2022,(08):74-78.[doi:10.11942/j.issn1002-2767.2022.08.0074]
 HOU Ben-fu,JIANG Shu-kun,YANG Chuan-ming,et al.Research Progress on Structure and Function of Salt Glands in Poaceae[J].HEILONGJIANG AGRICULTURAL SCIENCES,2022,(08):74-78.[doi:10.11942/j.issn1002-2767.2022.08.0074]
点击复制

禾本科植物盐腺的结构和功能研究进展

《黑龙江农业科学》[ISSN:1002-2767/CN:23-1204/S] 卷: 期数: 2022年08 页码: 74-78 栏目: 出版日期: 2022-08-10
Title:
Research Progress on Structure and Function of Salt Glands in Poaceae
作者:
侯本福12姜树坤34杨传铭12杨贤莉14王立志14刘凯45
1.黑龙江省农业科学院 耕作栽培研究所/黑龙江省作物生理生态重点实验室/黑龙江省农作物低温冷害工程技术研究中心,黑龙江 哈尔滨 150023; 2.黑龙江八一农垦大学 农学院,黑龙江 大庆 163319; 3.黑龙江省农业科学院 齐齐哈尔分院,黑龙江 齐齐哈尔 161006; 4.国家耐盐碱水稻技术创新中心东北中心,黑龙江 哈尔滨 150086; 5.黑龙江省农业科学院,黑龙江 哈尔滨 150086
Author(s):
HOU Ben-fu12JIANG Shu-kun34YANG Chuan-ming12YANG Xian-li14WANG Li-zhi14LIU Kai45
1.Institute of Crop Cultivation and Tillage,Heilongjiang Academy of Agricultural Sciences/Heilongjiang Provincial Key Laboratory of Crop Physiology and Ecology in Cold Region/Heilongjiang Provincial Engineering Technology Research Center of Crop Cold Damage,Harbin 150023,China;
关键词:
禾本科盐腺结构排盐
Keywords:
Poaceae salt glands structure salt discharge
DOI:
10.11942/j.issn1002-2767.2022.08.0074
文献标志码:
A
Abstract:
The use of salt glands to excrete excess salt carried by the aboveground parts of plants is one of the important mechanisms for salt-tolerant plants to adapt to soil salinization.A large number of domestic and foreign studies have shown that there are typical salt gland structures in salt-tolerant plants of Poaceae.In order to find out the salinity and alkali tolerance mechanisms of gramineous crops and improve their salinity and alkali tolerane function.This article provided an overview of the morphology and structure of the salt glands of the Poaceae,mechanism of salt excretion in typical bicellular salt glands of Poaceae,functional characteristics of two-celled salt glands expelling ions from the body,factors affecting the ability of salt excretion and prospect of further development of salt gland utilization in the future.The stress resistance function of salt glands can improve the salt resistance and heavy metal resistance of gramineous plants,balance the content of ions and heavy metals in crops,and finally improve the yield and quality of crops.The mechanism of salt excreted from the salt glands of gramineous plants on photosynthesis and resistance to pests and diseases will be a research hotspot in the future.

参考文献/References:

[1]张妍茹,王亚莉,赵雷.黑龙江省盐碱地治理技术[J].农民致富之友,2020(35):180.

[2]WAHID A.Review physiological significance of morpho-anatomical features of halophytes with particular reference to Cholistan flora[J].Proteomics,2003.

[3]FLOWERS T J,GALAL H K,BROMHAM L,et al.Evolution of halophytes:Multiple origins of salt tolerance in land plants[J].Functional Plant Biology,2010,37(7):604-612.

[4]FLOWERS T J,FLOWERS S A,HAJIBAGHERI M A,et al.Salt tolerance in the halophytic wild rice,Porteresia coarctata Tateoka[J].New Phytologist,1990,114(4):675-684.

[5]FAHN A.Secretory tissues in vascular plants[J].New Phytologist,1988,108(3):229-257.

[6]MAHESHI D,LARKIN J C.Making plants break a sweat:The structure,function,and evolution of plant salt glands[J].Frontiers in Plant Science,2017,8:406-409.

[7]POLLAK G,WAISEL Y.Salt Secretion in Aeluropus litoralis(Willd)Parl.[J].Annals of Botany,1970,34(4):879-888.

[8]TATEOKA T,INOUE S,KAWANO S.Systematic significance of bicellulal microhairs of leaf epidermis[J].The Botanical Gazette,1959,121:80-91.

[9]AMARASINGHE V,WATSON L.Variation in salt secretory activity of microhairs in grasses[J].Functional Plant Biology,1989,16(16):219-229.

[10]王洋,刘艳.泌盐盐生植物泌盐腺研究进展[J].北方农业学报,2019,47(2):15-19.

[11]BARHOUMI Z,DJEBALI W,ABDELLY C,et al.Ultrastructure of aeluropus littoralis leaf salt glands under NaCl stress[J].Protoplasma,2008,233(3-4):195-202.

[12]THOMSON L W W.The ultrastructure of the salt gland of spartina foliosa[J].Planta,1971,97(5):183-196.

[13]薛琼琼,赵露露,王云霞,等.盐生植物耐盐性研究进展[J].中国野生植物资源,2021,40(5):60-65.

[14]韩军丽,赵可夫.植物盐腺的结构、功能和泌盐机理的探讨[J].山东师大学报(自然科学版),2001(2):194-198.

[15]OROSS J W,LEONARD R T,THOMSON W W.Flux rate and a secretion model for salt glands of grasses[J].Israel Journal of Botany,1985,34(2-4):69-77.

[16]OROSS J W,THOMSON W W.The Ultrastructure of cynodon salt glands:The apoplast[J].European Journal of Cell Biology,1982,28(2):257-63.

[17]NAIDOO Y,NAIDOO G.Localization of potential ion transport pathways in the salt glands of the halophyte sporobolus virginicus[M].Springer Netherlands,1970.

[18]NAIDOO Y,NAIDOO G.Cytochemical localisation of adenosine triphosphatase activity in salt glands of Sporobolus virginicus(L.) Kunth[J].South African Journal of Botany,1999,65(5-6):370-373.

[19]THOMSON L W W.The ultrastructure of the salt gland of spartina foliosa[J].Planta,1971,97:183-196.

[20]NAIDOO Y,NAIDOO G.Sporobolus virginicus leaf salt glands:Morphology and ultrastructure[J].South African Journal of Botany,1998,64(3):198-204.

[21]SOMARU R,NAIDOO Y,NAIDOO G.Morphology and ultrastructure of the leaf salt glands of Odyssea paucinervis(Stapf) (Poaceae)[J].Flora-Morphology,Distribution,Functional Ecology of Plants,2002,197(1):67-75.

[22]OI T,HIRUNAGI K,TANIGUCHI M,et al.Salt excretion from the salt glands in Rhodes grass (Chloris gayana Kunth) as evidenced by low-vacuum scanning electron microscopy[J].Flora-Morphology,Distribution,Functional Ecology of Plants,2013,208(1):52-57.

[23]KOBAYASHI H,MASAOKA Y,TAKAHASHI Y,et al.Ability of salt glands in Rhodes grass(Chloris gayana Kunth)to secrete Na+ and K+[J].Soil Science & Plant Nutrition,2007,53(6):764-771.

[24]MARCUM K B,MURDOCH C L.Salt tolerance of the coastal salt marsh grass,Sporobolus virginicus(L.) Kunth[J].New Phytologist,2010,120(2):281-288.

[25]DSCHIDA W J,PLATT-ALOIA K A,THOMSON W W.Epidermal peels of Avicennia germinans(L.)Stearn:A useful system to study the function of salt glands[J].Annals of Botany(6):501-509.

[26]WIENEKE J,SARWAR G,ROEB M.Existence of salt glands on leaves of kallar grass(Leptochloa fusca L.Kunth.)[J].Journal of Plant Nutrition,1987,10(7):805-819.

[27]LIN W,ENBERG A W,XUN G.Effects of elevated selenium and salinity concentrations in root zone on selenium and salt secretion in saltgrass(Distichlis spicata L.)[J].Ecotoxicology and Environmental Safety,1997,37(3):251-258.

[28]HUCHZERMEYER B,KOYRO H W.Ecophysiological needs of the potential biomass crop Spartina townsendii(Groves)[J].Tropical Ecology,2004,45(1):123-139.

[29]GORHAM J.Photosynthesis,transpiration and salt fluxes through leaves of Leptochloa fusca L.Kunth[J].Plant,Cell & Environment,1987,10(2):191-196.

[30]POLLAK G,WAISEL Y.Ecophysiology of salt excretion in Aeluropus litoralis(Graminae)[J].Physiologia Plantarum,1979,47(3):177-184.

[31]RAMADAN T.Dynamics of salt secretion by Sporobolus spicatus(Vahl) Kunth from sites of differing salinity[J].Annals of Botany,2001(2):259-266.

[32]KUMAR,ASHOK.Use of Leptochloa fusca for the improvement of salt-affected soils[J].Experimental Agriculture,1996,32(2):143-149.

[33]KOBAYASHI H,MASAOKA Y.Salt secretion in Rhodes grass(Chloris gayana Kunth) under conditions of excess magnesium[J].Soil Science and Plant Nutrition,2008,54(3):393-399.

[34]GILBERT G S,MNICA MEJA-CHANG,ROJAS E.Fungal diversity and plant disease in mangrove forests:Salt excretion as a possible defense mechanism[J].Oecologia,2002,132(2):278-285.

备注/Memo

收稿日期:2022-05-15

基金项目:黑龙江省自然科学基金(LH2020C098);黑龙江省农业科学院院级科研项目(2020JCQN001,2020FJZX049,2021CQJC003)。

第一作者:侯本福(1999-),男,硕士研究生,从事水稻遗传与生理研究。E-mail:484701703@qq.com。

更新日期/Last Update: 2022-10-09