铅对黄瓜幼苗生长发育的影响研究
|
摘要
重金属污染是当今污染面积最广、危害最大的环境问题之一。土壤中重金属污染不仅退化土壤肥力,降低作物的产量与质量,恶化水环境,并通过食物链危害人的健康和生命安全。因此,重金属污染方面的研究一直是当前学术界的热点。本文以黄瓜幼苗为材料,研究了铅污染对黄瓜幼苗生长发育、内源激素、多胺、水杨酸、抗氧化保护系统及其他生理生化反应的影响,主要研究结果如下:
1.铅对黄瓜种子萌发、早期生长及生理生化特性的影响
铅在黄瓜幼苗中的吸收分布存在差异,所吸收的铅大部分积累在根系,只有少部分向上运输到茎和叶部。黄瓜幼苗叶和根中吸收铅量的随铅质量浓度增强而增加。铅溶液对种子萌发产生抑制作用并且表现为随铅质量浓度的增加抑制作用增强。
100~200mg·L~(-1)硝酸铅溶液对黄瓜幼苗的生长有促进作用;300~900mg·L~(-1)硝酸铅溶液对黄瓜幼苗生长产生抑制且抑制作用随铅质量浓度的增加而增加。高质量浓度铅诱导不定根产生。此外还发现铅处理的黄瓜幼苗其干重与铅质量浓度呈负相关。
100~700mg·L~(-1)硝酸铅溶液可增加叶片叶绿素的含量,当铅质量浓度增至900mg·L~(-1)时,叶绿素含量开始下降。铅处理下叶片中栅栏组织和海绵组织排列变得紧密,尤其是栅栏组织由1层增加为2~3层。
铅处理使得黄瓜幼苗体内的MDA和脯氨酸含量明显增加,其含量增加与铅质量浓度呈正相关。细胞膜的透性增加,与MDA含量的变化趋势相一致。
2.铅对黄瓜幼苗地上部抗氧化保护系统的影响
用100~500mg·L~(-1)硝酸铅溶液处理黄瓜幼苗,其地上部的SOD活性随着处理时间的延长到7d呈现出大幅度上升,达到一个高峰值后急剧下降(低于对照),而且随着铅质量浓度的增加SOD活性也相应地增加。900mg·L~(-1)硝酸铅溶液处理黄瓜幼苗地上部的SOD活性随着处理时间的延长呈先升高(高于对照)后降低(低于对照)的趋势。SOD同工酶的酶条带数和表达量与铅质量浓度呈负相关,
Heavy metal pollution is one of the most serious environmental problems in recent years. Heavy metal pollution in soil degenerates soil fertility, decreases crop yield and product quality, deteriorates water environment, and endangers human health through food chain. Study on heavy metal pollution became one of the hottest academic areas. The cucumber seedling were used to study how the lead (Pb) contamination impacts on the growth and development of cucumber seedlings, especially the change of endogenous phytohormones, polyamines, antioxidation protection enzyme system, biochemical and physiological characteristics. The main results are as follows:
1. Effects of lead on germination, early growth and development, some physiological and biochemical characteristics of cucumber seedlings
The absorption and distribution of lead was different in cucumber seedlings. Lead absorbed mainly accumulates in root, while a small portion was transported to stems and leaves. The lead amount in leaves and roots of cucumber seedling increased under the exogenous lead treatment. It was also found that the germination was promoted within lead mass concentration range of 100-200 mg·L~(-1) and hold down under lead mass concentration 300~900mg·L~(-1)
Growth accelerating of cucumber seedlings was observed within range 100~200mg·L~(-1) lead mass concentration, meanwhile growth was restrained under lead mass concentration of 300~900mg·L~(-1), and the restraining impact was getting more obvious with the increase of lead mass concentration. High mass concentration of lead induced adventitious roots. Dry weight of cucumber seedling was negatively related to lead mass concentration under lead treatment.
Chlorophyll amount in leaves increased within lead mass concentration range of 100-700mg·L~(-1), but chlorophyll amount decreased when the lead mass concentration reached 900mg·L~(-1) Palisade tissue and spongy tissue in leaves became more tighter arrangment, especially palisade tissue layers increased from one to three.
MDA and proline amounts in cucumber seedlings increased continually with increase of lead mass concentration, and they were positively related to lead mass concentration. Cell membrane permeability increased with the increase of lead mass concentration, and the transformation tendency was in conformity with MDA change.
2. Effect of lead on antioxidation protection enzyme system in aerial parts of cucumber seedling
Within lead mass concentration of 100~500mg·L~(-1), SOD activity in aerial parts
1.铅对黄瓜种子萌发、早期生长及生理生化特性的影响
铅在黄瓜幼苗中的吸收分布存在差异,所吸收的铅大部分积累在根系,只有少部分向上运输到茎和叶部。黄瓜幼苗叶和根中吸收铅量的随铅质量浓度增强而增加。铅溶液对种子萌发产生抑制作用并且表现为随铅质量浓度的增加抑制作用增强。
100~200mg·L~(-1)硝酸铅溶液对黄瓜幼苗的生长有促进作用;300~900mg·L~(-1)硝酸铅溶液对黄瓜幼苗生长产生抑制且抑制作用随铅质量浓度的增加而增加。高质量浓度铅诱导不定根产生。此外还发现铅处理的黄瓜幼苗其干重与铅质量浓度呈负相关。
100~700mg·L~(-1)硝酸铅溶液可增加叶片叶绿素的含量,当铅质量浓度增至900mg·L~(-1)时,叶绿素含量开始下降。铅处理下叶片中栅栏组织和海绵组织排列变得紧密,尤其是栅栏组织由1层增加为2~3层。
铅处理使得黄瓜幼苗体内的MDA和脯氨酸含量明显增加,其含量增加与铅质量浓度呈正相关。细胞膜的透性增加,与MDA含量的变化趋势相一致。
2.铅对黄瓜幼苗地上部抗氧化保护系统的影响
用100~500mg·L~(-1)硝酸铅溶液处理黄瓜幼苗,其地上部的SOD活性随着处理时间的延长到7d呈现出大幅度上升,达到一个高峰值后急剧下降(低于对照),而且随着铅质量浓度的增加SOD活性也相应地增加。900mg·L~(-1)硝酸铅溶液处理黄瓜幼苗地上部的SOD活性随着处理时间的延长呈先升高(高于对照)后降低(低于对照)的趋势。SOD同工酶的酶条带数和表达量与铅质量浓度呈负相关,
Heavy metal pollution is one of the most serious environmental problems in recent years. Heavy metal pollution in soil degenerates soil fertility, decreases crop yield and product quality, deteriorates water environment, and endangers human health through food chain. Study on heavy metal pollution became one of the hottest academic areas. The cucumber seedling were used to study how the lead (Pb) contamination impacts on the growth and development of cucumber seedlings, especially the change of endogenous phytohormones, polyamines, antioxidation protection enzyme system, biochemical and physiological characteristics. The main results are as follows:
1. Effects of lead on germination, early growth and development, some physiological and biochemical characteristics of cucumber seedlings
The absorption and distribution of lead was different in cucumber seedlings. Lead absorbed mainly accumulates in root, while a small portion was transported to stems and leaves. The lead amount in leaves and roots of cucumber seedling increased under the exogenous lead treatment. It was also found that the germination was promoted within lead mass concentration range of 100-200 mg·L~(-1) and hold down under lead mass concentration 300~900mg·L~(-1)
Growth accelerating of cucumber seedlings was observed within range 100~200mg·L~(-1) lead mass concentration, meanwhile growth was restrained under lead mass concentration of 300~900mg·L~(-1), and the restraining impact was getting more obvious with the increase of lead mass concentration. High mass concentration of lead induced adventitious roots. Dry weight of cucumber seedling was negatively related to lead mass concentration under lead treatment.
Chlorophyll amount in leaves increased within lead mass concentration range of 100-700mg·L~(-1), but chlorophyll amount decreased when the lead mass concentration reached 900mg·L~(-1) Palisade tissue and spongy tissue in leaves became more tighter arrangment, especially palisade tissue layers increased from one to three.
MDA and proline amounts in cucumber seedlings increased continually with increase of lead mass concentration, and they were positively related to lead mass concentration. Cell membrane permeability increased with the increase of lead mass concentration, and the transformation tendency was in conformity with MDA change.
2. Effect of lead on antioxidation protection enzyme system in aerial parts of cucumber seedling
Within lead mass concentration of 100~500mg·L~(-1), SOD activity in aerial parts
引文
[1] 毛建素,陆钟武.关于中国铅的资源效率研究[J].环境科学研究,2004,17(3):78-80
[2] Kabata-Pendias A, Pendias H. Trace elements in soils and plants[J]. Florida: CRC Press Inc. 1984
[3] Smith CJ, Hopmans P, Cook FJ. Accumulation of Cr, Pb, Cu, Ni, Zn and Cd in soil following irrigation with treated urban effluent in Australia[J]. Environmental Pollution, 1996, 94(3): 317-323
[4] Wong SC, Li XD, Zhang G, et al. Heavy metals in agricultural soils of the Pearl River Delta, South China[J]. Environmental Pollution, 2000, 119: 33-44
[5] 赵其国,周炳中,杨浩.江苏省环境质量与农业安全问题的研究[J].土壤,2002.1:1-8
[6] 罗春玲,沈振国.植物对重金属的吸收和分布[J].植物学通报,2003,20(1):59-66
[7] 魏忠杰.可抗重金属污染的细菌培育成功.科学时报,2003,03,04
[8] 苗明升,朱圆圆,曹明霞,等.重金属铅对玉米萌发和早期生长发育的影响[J].山东师范大学学报(自然科学学报版),2003,18(1):82-84
[9] 葛才林,杨小勇,朱红霞,等.重金属胁迫对水稻叶片过氧化氢酶活性和同功酶表达的影响[J].核农学报,2002,16(4):197-202
[10] 张玉秀,柴团耀.菜豆病程相关蛋白基因在重金属胁迫下的表达分析[J].中国生物化学与分子生物学报,2000,16(1):46-50
[11] 沈宏,严小龙.根分泌物研究现状及其在农业与环境领域的应用[J].农村生态环境,2000,16(3):51-54
[12] 涂书新,孙锦荷,郭智芬.植物根系分泌物与根际营养关系评述[J].土壤与环境,2000,9(1):64-67
[13] 张义贤.汞、镉、铅胁迫对油菜的毒害效应[J].山西大学学报(自然科学版),2004,27(4):410-413
[14] 秦天才,吴玉树,王焕校.镉、铅及其相互作用对小白菜生理生化特性的影响[J].生态学报,1994,14(1):46-50
[15] 马文丽,王转花.铅胁迫对乌麦及普通小麦抗氧化酶的影响[J].山西农业科学,2004,32(2):8-12
[16] 庞欣,王东红,彭安.铅胁迫对小麦幼苗抗氧化酶活性的影响[J].环境科学,2001,22(5):108-111[17] 江行玉,赵可夫.铅污染下芦苇体内铅的分布和铅胁迫相关蛋白[J].植物生理与分子生物学学报,2002,28(3):169-174
[18] 彭鸣,王焕校,吴玉树.镉、铅诱导的玉米(Zea mays L.)幼苗细胞超微结构的变化[J].中国环境科学,1991,11(6):426-431
[19] 周希琴,莫灿坤.植物重金属胁迫及其抗氧化系统[J].新疆教育学院学报,2003,19(2):103-108
[20] 匡少平,徐仲,张书圣.水稻对土壤中环境重金属激素铅的吸收效应及污染防治[J].环境科学与技术,2002,25(2):32-34
[21] 宋玉芳,许华夏,任丽萍,等.土壤重金属污染对蔬菜生长的抑制作用及其生态毒性[J].农业环境科学学报,2003,22(1):13-15
[22] Molone C, Koeppe DE, Miller RJ. Localization of lead accumulated by corn plants[J]. Plant physiology, 1974, 53: 388-394
[23] 杨居荣,鲍子平,张素芹.镉、铅在植物细胞内的分布及其可溶性结合形态[J].中国环境科学,1993,13(4):263-268
[24] 常学秀,段昌群,王焕校.根分泌作用与植物对重金属毒害的抗性[J].应用生态学报,2000,11(2):315-320
[25] 安志装,王校常,严蔚东,等.植物螯合肽及其在重金属胁迫下的适应机制[J].植物生理学通讯,2001,37(5):463-467
[26] 徐明丽,关启堂,依艳丽.重金属植物螯合肽PC的研究进展[J].农业环境保护,2001,20(6):468-470
[27] Gupta M, Rai UN, Tripathi RD, et al. Lead induced changes in glutathione and phytochelatin in hydrilla verticillata (if)Royle[J]. Chemospher, 1995, 30(10): 2011-2020
[28] Cui KR, Xing GK, Zhou GK. The induced and regulatory effects of plant hormones in somatic embryogesis[J]. Hereditas, 2000, 22(5): 349-354
[29] Downes BP, Crowell DN. Cytokinin regulates the expression of a soybean β-expansin gene by a post-transcriptional mechanism[J]. Plant Molecular Biology, 1998, 37(3): 437-444
[30] Wang ZL, Cao WX. Regulation of plant gene expression by cytokinins[J]. Plant Physiology Communications, 2000, 36(1): 82-88
[31] Ivanova AP, Stefanov KL, Yordanov IT. Effect of cytokinin 4PU-30 on the lipid composition of water stress bean plants[J]. Biologia Plantarum, 1998, 41(1): 155-159
[32] Liu XZ, Li JK, Wang ZX, et al. Effect of cytokinins on resistance of summer??maize to waterlogging[J]. Acta Agronomica Sinica, 1996, 22(4): 403-408
[33] Liao XR, He PC, Zhu XC. Effect of zeatin on H_2O_2 scavenging system of Vitis vulpina leaf disks under salt stress[J]. Acta Agronomica Sinica, 1997, 39(7): 641-646
[34] 陈珈,朱美君.玉米根微粒体ABA结合蛋白的性质及逆境胁迫的影响[J].植物生理学报,1996,22(2):63-68
[35] 李劲,萧浪涛,蔺万煌.植物内源茉莉酸类生长物质研究进展[J].湖南农业大学学报(自然科学版),2002,2:78-83
[36] 王利军,战吉成,黄卫东.水杨酸与植物抗逆性[J].植物生理学通讯,2002,12:619-622
[37] Blackman PG, DaviesWJ. Root to shoot communication in maize plants of the effects of soil drying[J]. Journal of Experimental Botany, 1985, 36: 39-48
[38] Zhang JH, Davies WJ. Changes in the concentration of ABA in xylem sap as a function of changing soil water status can account for changes in leaf conductance and growth[J]. Plant Cell Environ, 1990, 13: 277-285
[39] Loveys BR. Diurnal changes in water relations and abscisic acid in field-grown vitis vinifera cultivars. Ⅲ. The influence of xylem-derived abscisic acid on leaf gas exchange[J]. New Phytologist, 1984, 98: 563-573
[40] Monni S, Uhlig C, Hansen E, et al. Ecophysiological responses of empetrum nigrum to heavy metal pollution[J]. Environmental Pollution, 2001, 112
[41] 李云荫,尚忠林,李建华.逆境激素ABA的信号传导及其调控[J].河北师范大学学报(自然科学学报版),2001,25(4):526-529
[42] 汪良驹,王业迟,刘友良.盐逆境中无花果叶片蛋白质合成与脱落酸及脯氨酸积累的关系[J].江苏农业学报,1991,7(1):38-44
[43] 向旭,傅家瑞.脱落酸应答基因的表达调控及其与逆境胁迫的关系[J].植物学报,1998,15(3):11-16
[44] 张海文,黄荣峰,卢向阳,等.茉莉素的信号转导与植物的防御反应[J].植物生理学通讯,2002,38(6):631-635
[45] 柳爱莲,催香坏.茉莉酸类物质影响植物生理作用的研究进展[J].河南大学学报(自然科学学报版),2000,30(3):55-57
[46] Robert A, Creelman, John E Mullet. Jasmonic acid distribution and action in plants: Regulation during development and response to biotic and abiotic stress[J]. Proceedings of the National Academy of Sciences USA, 1995, 92: 4114-4119[47] Malamy J, Carr JP, Klessig DF, et al. Salicylic acid: a likely endogenous signal in the resistance response of tobacco to viral infection[J]. Science, 1990, 250: 1002-1004
[48] Perumal Vijayan, Jay Shockey, Andre Levesque, et al. A role for jasmonate in pathogen defense Arabidopsis[J]. Proceedings of the National Academy of Sciences USA, 1998, 95(12): 7209-7214
[49] 刘新,张蜀秋,娄成后.茉莉酸信号转导及其与脱落酸信号转导的关系[J].植物生理学通讯,2002,38(3):285-288
[50] Lmanish S, Kito-Nakamura K, Matsuoka K, et al. A major jsamonate-inducible protein of sweet potato, ipomoelin is an ABA-independent wound-inducible protein [J]. Plant Cell Physiology, 1997, 38(6): 643-652
[51] Galston AW, Sawhney RK. Polyamines in plant physiology[J]. Plant Physiology, 1990, 94(2): 406-410
[52] Scholten HJ. Effect of polyamines on the growth and development of some horticultural crops in micro propagation[J]. Science Horticulturea, 1998, 77: 83-88
[53] Annalisa T, Marianne Van B, Marina F, et al. Polyamine content and metabolism in Arabidopsis thaliana and effect of sprmideine on plant development[J]. Plant Physiology and Biochemistry, 2000, 38(5): 383-393
[54] Walden R, Cordeiro A, Tiburcio AF. Polyamines: small molecules triggering pathways in plant growth and development[J]. Plant Physiology, 1997, 113(4): 1009-1013
[55] 黄久常,王辉,夏景光.渗透胁迫和水淹对不同抗旱性小麦品种幼苗叶片多胺含量的影响[J].华中师范大学学报(自然科学版),1999,2:259-262
[56] 张满效,王帮锡,黄久常.水分胁迫对小麦叶片内源多胺的累及和乙烯产生的影响[J].甘肃科学学报,1995,04:33-36
[57] 郑永华,李三玉.多胺与枇杷果实冷害的关系[J].植物学报,2000,8:824-827
[58] 李如铁,沈惠娟,李梅枝.酸胁迫对几种林木体内脯氨酸及腐胺含量的影响[J].南京林业大学学报,1995,03:88-93
[59] Paradi I, Berecz B, Halasz K, et al. Influence of arbuscular mycorrhiza and cadmium on the polyamine contents of Ri T-DNA transformed Daucus carotal L. root cultures[J]. Acta Biologica Szegediensis, 2003, 47(1-4): 31-36
[60] Lesko K, Simon-Sarkadi L. Effect of cadmium stress on amino acid and polyamine content of wheat seedlings[J]. Periodica Polytechnica Chemical Engineering, 2002, 46(1-2): 65-71[61] Johnson PR, Ecker JR. The ethylene gas signal transduction pathway: A molecular perspective[J]. Annual Review of Genetics, 1998, 32: 227-254
[62] Capitani G, Hohenester E, Feng L, et al. Structrue of 1-aminocyclopropan-1-catboxylate synthase, a key enzyme in the biosynthesis of the planthormone ethylene[J]. Journal of Molecular Biology, 1999, 294: 745-756
[63] Beecker AB, Kende H. Ethylene: A gas signal molecule in plants[J]. Annual Review of Cell and Developmental Biology, 2000, 16: 1-18
[64] 张昭其,李雪萍,洪汉君,等.外源腐胺减轻芒果冷害的研究[J].福建农业学报,2000,02:32-36
[65] 何冰,叶海波,杨肖娥.铅胁迫下不同生态型东南景天叶片抗氧化酶活性及叶绿素含量比较[J].农业环境科学学报,2003,22(3):274-278
[66] 葛林才,杨小勇,孙锦荷,等.重金属引起的水稻和小麦幼苗的DNA损伤[J].植物生理与分子生物学学报,2002,28(6):419-424
[67] 顾继光,周启星,王新.土壤重金属污染的治理途径及其研究进展[J].应用基础与工程科学学报,2003,11(2):143-151
[68] 季玉鸣,李振国.镉引起小麦苗逆境乙烯的产生及其和镉的吸收、分布的关系[J].植物生理学报,1989,15(2):159-166
[69] 顾继光,林秋奇,胡韧,等.土壤.植物系统中重金属污染的治理途径及其研究展望[J].土壤通报,2005,36(1):128-133
[70] 何冰,杨肖娥,魏幼埠.铅污染土壤的修复技术[J].广东微量元素科学,2001,8(9):12-17
[71] 任安芝,高玉葆,刘爽.铬、镉、铅胁迫对青菜叶片几种生理生化指标的影响[J].应用与环境生物学报,2000,6(2):112-116
[72] 李荣春.Cd,Pb及其复合污染对烤烟叶片生理生化及细胞亚显微结构的影响[J].植物生态学报,2000,24(20):238-242
[73] 杨丹慧.重金属对高等植物光合膜结构和功能的影响[J].植物学通报,1991,8(3):26-29
[74] 张义贤.重金属对大麦(Hordeum vulgare)毒性的研究[J].环境科学学报,1997,17(2):199-205
[75] Assche FV, Clijster H. Effects of metal on enzyme activity in plant[J]. Plant Cell Envion, 1990, 13: 195-206
[76] 李合生,孙群,赵世杰,等.植物生理生化实验原理和技术[M].北京:高等教育出版社,2000
[77] 赵惠玲,王青,李晓玲.木质化干枯植物材料的整体PAS反应及制片法[J].??山西大学学报(自然科学版),2002,25(3):258-259
[78] 杨群,胥维勇.PAS反应在显示真菌中的应用和体会[J].中国组织化学与细胞化学杂志,2002,11(2):131
[79] 蒋明义,郭绍川,张学明.氧化胁迫下稻苗体内积累的脯氨酸的抗氧化作用[J].植物生理学报,1997,23(4):347-352
[80] 任安芝,高玉葆.铬,镉,铅胁迫对青菜叶片几种生理生化指标的影响[J].应用与环境生物学报,2000,6(2):12-116
[81] 张春荣,李红,夏立江,等.镉、锌对紫花苜蓿种子萌发及幼苗的影响[J].华北农学报,2005,20(1):96-99
[82] Godzik B. Heavy metals content in plants from zinc domps and reference area[J]. Pol Bot Stud, 1993, 5: 113-132
[83] 马文丽,金小弟,王转花.铅胁迫对乌麦种子萌发及幼苗生长的影响[J].山西大学学报,2004,27(2):202-204
[84] Patra J, Lenka M, Panda BB. Tolerance and co-tolerance of the grass Chloris barbata Sw. to mercury, cadmium and zinc[J]. New Phytologist, 1994, 128: 165-171
[85] 刘莉.镉胁迫对水稻幼苗干物质积累和活性氧代谢的影响[J].浙江农业学报,2005,17(3):147-150
[86] 赵士禹,姚民昌,赵树仁.铜对玉米幼苗影响机制的初步研究[J].辽宁师范大学学报,1994,17(3):238-241
[87] 葛林才,杨小勇,金阳,等.重金属胁迫对水稻不同品种超氧化歧化酶的影响[J].核农学报,2003,17(4):286-291
[88] 章艺,刘鹏,史锋.高铁胁迫对大豆叶片体内保护系统和膜脂过氧化的影响[J].中国油料作物学报,2004,26(2):65-68
[89] 王正秋,江行玉,王长海.铅、镉和锌污染对芦苇幼苗氧化胁迫和抗氧化能力的影响[J].过程工程学报,2002,2(6):558-563
[90] 宋勤飞,樊卫国.铅胁迫对番茄生长及叶片生理指标的影响[J].山地农业生物学报,2004,23(2):134-138
[91] 胡能书,万国贤编.同工酶技术及其应用[M].长沙:湖南科技出版社,1990
[92] 罗广华,王爱国.植物SOD的凝胶电泳及活性的显示[J].植物生理学通讯,1983,6:44-46
[93] 赵赣,曹永长,钱芳,等.过氧化氢同工酶KMnO_4染色法的初步研究[J].江西农业大学学报(自然科学版),2002,24(4):541-543
[94] 严重玲,洪业汤,付舜珍.Cd、Pb胁迫对烟草叶片中活性氧清除系统的影响[J].??生态学报,1997,17(5):488-492
[95] 马树华,王庆成,李亚藏.汽车尾气污染对四种北方阔叶树苗木膜脂过氧化和保护酶活性的影响[J].应用生态学报,2004,15(12):2330-2336
[96] Teisseire H, Guy V. Copper-induced changes in antioxidant enzymes activities in fronds of duckweed(Lemna minor) [J]. Plant Science, 2000, 153: 65-72
[97] Unbabin JS, Bowmer KH. Potential use of constructed Wetlands for treatment of industrial wastewater containing metals[J]. Science of the Total Environment, 1992, 111: 151-168
[98] 严重玲,付舜珍,杨新克.土壤中Pb,Hg及相互作用对烟草叶片中抗氧化酶的影响[J].环境科学学报,1997,17(4):469-473
[99] 邓代信,龚义勤,汪隆植,等.萝卜雄性不育系几种同工酶研究[J].西南农业学报,2004,17(3):348-351
[100] 任安芝,高玉葆,陈悦.干旱胁迫下内生真菌感染对黑麦草叶内几种同工酶的影响[J].生态学报,2004,24(7):1323-1329
[101] 王松华.Cu对印度芥菜根中POD、SOD同工酶的影响[J].安徽技术师范学院学报,2004,18(2):34-36
[102] 任安芝,高玉葆,刘爽.青菜幼苗体内几种保护酶的活性对Pb、Cd、Cr胁迫的反应研究[J].应用生态学报,2002,13(4):510-512
[103] Mazhoudi S, Chaoui A, Ghorbal MH, et al. Response of antioxidant enzymes to excess copper in tomato (Lycopersicon escuentum, Mill)[J]. Plant Science, 1997, 127: 129-137
[104] 丁海东,万延惠,齐乃敏,等.镉和锌对番茄幼苗抗氧化酶活性的影响[J].仲恺农业大学学报,2004,17(2):37-41
[105] 王福锁.环境胁迫与植物营养[M].北京:北京农业大学出版社,1993,79-91
[106] 马成仓,洪法水.汞对小麦种子萌发和幼苗生长作用机制初探[J].植物生态学报,1998,22(4):373-378
[107] 王兆龙,曹卫星.细胞分裂素对植物基因表到的调节[J].植物生理学通讯,2000,36(1):82-88
[108] 刘晓忠,李建坤.应用细胞分裂素类物质提高玉米抗涝能力的效果与作用[J].作物学报,1996,22:403-408
[109] 廖祥儒,贺普超,朱新产.玉米素对盐滞下葡萄叶片H_2O_2清除系统的影响[J].植物学报,1997,39(7):641-646
[110] 王三根.细胞分裂素在植物抗逆和延衰中的作用[J].植物学通报,2000,17(2):121-126.[111] 郑风荣,谷令坤,李德.水分胁迫下脱落酸及磷脂酶在玉米幼苗根系渗透调节物质积累中的信号作用[J].中国生态农业学报,2004,12(4):78-81
[112] 刘桂丰,刘关君.盐逆境条件下树种的激素变化及抗盐性分析[J].东北林业大学学报,1998,26(2):1-4
[113] 萧浪涛,王三根.植物生理学[M].北京:中国农业出版社,2003,12
[114] 周红卫,施国新,陈景耀,等.6-BA对水花生抗氧化酶系Hg~(2+)毒害的缓解作用[J].生态学报,2003,23(2):387-392
[115] 郭栋生,席玉英,王爱英,等.植物激素类除草剂对玉米幼苗吸收重金属的影响[J].农业环境保护,1999,18(4):182-184,191
[116] 王若仲,曹庸.亚种间杂交稻内源激素的高效液相色谱测定法[J].色谱,2002,20(2):148-150
[117] 李小方,何玉料,汤章城.生长素和模拟微重力效应对大白菜不定根形态发生的影响[J].实验生物学报,2000,33(2):179-186
[118] 曹尚银,汤一卒,张俊昌.GA_3和PP_(333)对苹果花芽形态建成及其内源激素比例变化的影响[J].果树学报,2001,18(6):313-316
[119] Bochu W, Jiping S, Biao L, et al. Soundware stimulation triggers the content change of the endogenous hormone of the chrysanthemum mature callus[J]. Colloids Surf B Biointerfaces, 2004, 37(3-4): 107-112
[120] 雷蕾,康庆华,张晓波,等.反向高效液相色谱法分离和测定亚麻植株中植 物激素[J].黑龙江农业科学,2001,6:21-22
[121] 武维华.植物生理学[M].北京:科学出版社,2003
[122] 江力,梁俊,张荣铣.细胞分裂素类物质对植物叶片衰老的延缓作用及其分子遗传研究[J].安徽教育学院学报,2000,18(6):52-54
[123] 孙在红,刘荣堂,慧敏,等.植物激素在草坪草组织培养及植株再生中的应用与进展[J].草原与草坪,2004,2:13-16
[124] 章贯和.细胞分裂素对发生湿害的青菜、莴苣叶绿素含量的影响[J].阜阳师范学院学报(自然科学版),2002,19(1):31-33
[125] Arthur W Galston. Polyamines as modulators of plant development[J]. Bio-Science, 1983, 33(6): 382-388
[126] 陈学好,曾广文.黄瓜花性别分化与内源多胺的关系[J].植物生理与分子生物学学报,2002,28(1):17-22
[127] 潘永贵,仇厚援,安广杰.采后香蕉果实中多胺含量的变化[J].植物生理与分子生物学学报,2002,28(2):96-98
[128] Harsh Pal Bais, Govinda Swamy Sudha, Gokare Aswathanarayan Ravishankar.??Putrescine and silver nitrate influences shoot multiplication, in Vitro flowering and endogenous titers ofpolyamines in Cichorium intybus L. cv. lucknow local [J]. Journal of Plant Growth Regulation, 2000, 19(2): 238-248
[129] Apelbaum A. Polyamine involvement in the development and ripening of avocado fruit[J]. ISHS Acta Horticulturae, 1985, 179: 779-785
[130] 於丙军,吉晓佳,刘俊,等.氯化钠胁迫下野生和栽培大豆幼苗体内的多胺水平变化[J].应用生态学报,2004,15(7):1223-1226
[131] 任红旭,陈雄,王亚馥.抗旱性不同的小麦幼苗在水分和盐胁迫下抗氧化酶和多胺的变化[J].植物生态学报,2001,25(6):709-715
[132] 王绍辉,张福墁.不同水分处理对日光温室黄瓜多胺与激素的影响[J].生态学报,2004,24(12):2848-2852
[133] Mejia EG De, Martinez RV, Castano TE, et al. Effect of drought on polyamine metabolism, yield, protein and in vitro protein digestility in teoary (Phaseolus acutifolius L.) and common (Phaseolus vulgaris L.) bean seeds [J]. Journal of the Science of Food and Agriculture, 2003, 83: 1022-1030
[134] 黄益宗,朱永官,黄凤堂,等.镉和铁及其交互作用对植物生长的影响[J].生态环境,2004,13(3):406-409
[135] 周红卫,施国新,徐勤松,等.Cr~(6+)和Cr~(3+)对水花生几种生理生化指标的影响比较[J].农村生态环境,2002,18(4):35-40
[136] 徐勤松,施国新,杜开和.镉胁迫对水车前叶片抗氧化酶系统和亚显微结构的影响[J].农村生态环境,2001,17(2):30-34
[137] 王贵民,陈国祥,陈利,等.镉胁迫下杂交稻2品种幼苗的抗性及镉含量的差异[J].农村生态环境,2004,20(4):44-47
[138] 刘玲,杨双春,张洪林.Hg~(2+)胁迫下玉米生理生态变化的研究[J].生态环境,2004,13(2):161-163
[139] 刘俊,吉晓佳,刘友良.检测植物组织中多胺含量的高效液相色谱法[J].植物生理学通讯,2002,38(6):596-598
[140] 江行玉,宋杰,范海,等.外源钙和亚精胺对NaCl胁迫条件下玉米幼苗体内离子平衡和多胺水平的调节[J].植物生理学报,2000,6:539-54
[141] 张木清,陈如凯,余松烈.多胺对渗透胁迫下甘蔗愈伤组织诱导和分化的作用[J].植物生理学通讯,1996,03:175-178
[142] 杨建昌,张亚洁,张建华,等.水分胁迫下水稻剑叶中多胺含量的变化及其与抗旱性的关系[J].作物学报,2004,30(11):1069-1075
[143] Flores HE, Galston AW. Polyamines and plant stress: Activation of putrescine??biosynthasis by osmotic shock[J]. Science, 1982, 217: 1259-1261
[144] 李朝周,梁恕坤,焦健,等.逆境胁迫下多胺与乙烯代谢的相关性及其对细胞膜保护系统影响的研究进展[J].甘肃农业大学学报,2002,37(3):265-271
[145] 黄维玉,王亚来,袁林江.多胺对小麦离体叶片衰老的调节[J].植物学报,1990,32(2):125-13
[146] 蒋琳,沈曾佑,张志良,等.多胺对裸大麦离体叶片活性氧代谢的影响[J].植物生理学报,1993,19(4):367-371
[147] 谢寅蜂,沈惠娟,李梅枝.酸胁迫对林木内源多胺及活性氧代谢的影响[J].林业科学,1999,35(1):117-121
[148] 李德红,潘瑞枳.水杨酸对植物系统的影响[J].植物生理学通讯,1995,31(2):144-149
[149] 唐国章,孙谷,王正询.水杨酸在植物抗环境胁迫中的作用[J].广西植物,2004,24(2):178-183
[150] Al-hakimi AMA, Hamada AM. Counteraction of salinity stress on wheat plants by grain soaking in ascorbic acid, thiamin or sodium salicylate[J]. Biologia Plantarum, 2001, 44(2): 253-261
[151] Mishra A, Choudhuri MA. Effects of salicylic acid on heavy metal-induced membrane deterioration mediated by lipoxygenase in rice[J]. Biologia Plantarum, 1999, 42(3): 409-415
[152] 李国靖,周燮.水杨酸与植物抗非生物胁迫[J].植物学通报,2001,18(3):295-302
[153] 唐碰,邹琦,彭涛,等.水杨酸在小麦幼苗渗透胁迫中的作用[J].西北植物学报,1999,19(2):296-302
[154] 原永兵,刘成连,鞠志国,等.水杨酸对苹果叶片过氧化氢的调节及其机制[J].园艺学报,1997,24(3):220-224
[155] 张士功,高吉寅,宋景芝.水杨酸和阿斯匹林对盐胁迫下小麦种子萌发的作用[J].植物生理学通讯,1999,35(1):29-32
[156] 徐幼平,马志超,蔡新忠.反相高效液相色谱测定番茄组织中的水杨酸[J].植物生理学通讯,1997,33(1):49-52
[157] 张玉,陈昆松,张上隆.猕猴桃果实中内源水杨酸的提取、测定及其在采后研究中的应用[J].中国食品学报,2004,3:6-9
[158] Meuwly P, Metraux JP. Ortho-anisic acid as internal standard for the simultaneous quantitation of salicylic acid and its putative biosyhthetic precursors in cucumber leaves[J]. Analytical Biochemistry, 1993, 214(2): 500-505[159] Yalpani N, Shulaev V, Raslin I. Endogenous salicylic acid levels correlate with accumulation of pathogenesis-related proteins and virus resistance in tomato[J]. Phytopathology, 1993, 83: 702-707
[160] 李兆亮,原永兵,李冬梅.薄层层析和高效液相层析技术结合测定植物叶片水杨酸含量[J].植物生理学通讯,1997,33(2):130-132
[161] Rasmussen JB, Hammerschmid R, Zook MN. Systemic induction of salicylic acid accumulation in cucumber after inoculation with Pseudomonas syringae pv syringae[J]. Plant Physiology, 1991, 97: 1342-1347
[162] Malarmy J, Carr JP, Klessig DF, et al. Salicylic acid: a likely endogenous signal in the resistance response of tobacco to viral infection[J]. Science, 1990, 250: 1002-1004
[163] Hosokawa D, Ohashi Y. Immunochemical localization of pathogenesis-related proteins secreted into the intercellular spaces of salicylated-treated tobacco leaves[J]. Plant Cell Physiology, 1998, 29(6): 1035-1040
[164] 蔡新忠,郑重.水杨酸诱导水稻幼苗抗病性的生化机制[J].植物病理学报,1997,27(3):231-236
[165] Chasan R. Eliciting phosphorylation [J]. Plant Cell, 1995, 7: 589-598
[166] 王利军,黄卫东,李加永.水杨酸对葡萄幼苗叶片膜脂过氧化的影响[J].中国农业科学,2003,36(9):1076-1080
[167] 何若韫.植物低温逆境生理[M].北京:中国农业出版社,1995,72-80
[168] 张士功,高吉寅,宋景芝.水杨酸和阿斯匹林对盐胁迫下小麦种子萌发的作用[J].植物生理学通讯,1999,35(1):29-32
[169] 韩涛,李丽萍.水杨酸对短期贮藏苹果的生理效应[J].植物生理学通讯,1997,33(5):345-348
[170] 周春菊,王林权,李生秀.有机酸和维生素对小麦某些生理生化特性的影响[J].西北植物学报,1999,19(4):623-628
[171] 李兆亮,原永兵,刘连成.水杨酸在黄瓜细胞中信号传导的研究[J].植物学报,1998,40(5):430-436
[172] 马德华,庞金安,李淑菊.温度逆境锻炼对高温下黄瓜幼苗生理的影响[J].园艺学报,1998,25(4):350-355
[173] Lopez-Delgado H, Dat JF, Foyer CH. Induction of thermotolerance in potato microplants by acetyl salicylic acid and H_2O_2[J]. Journal of Experimental Botany, 1997, 49: 713-720
[174] Dat JF, Lopez-Delgado H, Foyer CH, et al. Parallel changes in H_2O_2 and??catalase during thermotolerance induced by salicylic acid or heat acclimation in mustard seedlings[J]. Plant Physiology, 1998, 116: 1352-1357
[175] Seneratna T, Touchell D, Bunn E, et al. Acetylsalicylic acid (aspirin) and salicylic acid induce multiple stress tolerance in bean and tomato plants[J]. Plant Growth Regulation, 2000, 30: 157-161
[176] 何亚丽,刘友良,陈权.水杨酸诱导抗耐热性与高羊茅幼苗热锻炼的关系[J].植物生理与分子生物学报,2002,28(2):89-95
[177] 陈春玲,赖钟雄.龙眼体胚发生过程中特异蛋白的IEF和SDS-PADE分析[J].福建农林大学学报(自然科学学报版),2002,31(1):135-136
[178] 郭尧君编著.蛋白质电泳技术[M].北京:科学出版社,1999,132-136
[179] 何瑞锋,丁毅,张剑锋,等.植物叶片蛋白质双向电泳技术的改进与优化[J].遗传,2000,22(5):319-321
[180] 朱友林,王建,余潮.植物蛋白质双向电泳及其考马斯亮蓝-银染复合染色法[J].南昌大学学报,1999,23(2):101-103
[181] 杨肖娥,龙新宠,倪吾钟.超积累植物吸收重金属的生理及分子机制[J].植物营养与肥料学报,2002,8(1):8-15
[182] 罗立新,孙铁珩,靳月华.镉胁迫下小麦叶中超氧阴离子自由基的积累[J].环境科学学报,1998,18(5):495-499
[183] 罗立新,孙铁珩,靳月华.镉胁迫对小麦叶片细胞膜脂过氧化的影响[J].中国环境科学,1998,18(1):72-75
[184] Westermeier R. Electrophoresis in practice[M]. VCH. Press. Weinhein, 1993, 9: 167-171
[185] 王振英,彭永康.双向电泳分析植物蛋白质的重演性、敏感性和清晰度[J].天津师范大学学报,2001,21(4):34-36,64
[186] 洪仁远,蒲长辉.镉对小麦幼苗的生长和生理生化的影响[J].华北农学报,1991,6(3):70-75
[187] 李元,王焕校,吴玉树,等.Cd、Fe及其复合污染对烟草叶片几项生理指标的影响[J].生态学报,1992,12(2):147-153
[188] Grunhage C, Welgel HH, Ilge D, et al. Isolation and partial characterization of cadmium binding protein from Pisum sativum[J]. Plant Physiology, 1985, 119: 327-334
[189] 赵可夫,王韶唐.作物抗性生理[M].北京科技出版社,1990,153
[190] Jungblut PR, Zimny Arndt U, Zeindl-Eberhart E, et al. Proteomics in human disease: caner, heart and infectious diseases[J]. Electrophoresis, 1999, 20(10):??2100-2110
[191] Williams KL. Genomes and proteomes: towards a muiltidimensional view of biology[J]. Electrophotesis, 1999, 20(4-5): 678-688
[192] 钟伯雄,颜海燕,沈飞英,等.家蚕蛋白质双向电泳的样品制备方法[J].蚕业科学,2003,29(4):427-432
[193] 赵从建,贾宇峰,丁勤学,等.中枢神经蛋白质组分析中双向电泳技术的建立[J].生物化学与生物物理进展,2000,27(6):645-650
[194] Pasquali C, Fialka I, Huber LA. Subcellular fractionation, electromigration analysis and mapping of organelles[J]. Journal Chromatography B Biomedical Science Applications, 1999, 722(1-2): 89-102
[195] Rabilloud T. Solubilization of protein for electrophoresis analyses[J]. Electrophoresis, 1996, 17(5): 813-829
[196] Mark P Molloy, Ben R Herbert, Bradley J Walsh. Extration of membrane proteins by differential solubilization for separation using two-dimensional gel electrophorsis [J]. Electrophorsis, 1998, 19(5): 837-844
[197] 解建勋,蒲小平,李玉珍,等.蛋白质组分析技术进展[J].生物生理学报,2001,17(1):20-25
[198] 朱丽华.植物绿色组织蛋白质组双向电泳分析[J].植物生理学通讯,1992,28(3):217-219
[199] 王鸿飞.环境镉污染及镉对环境暴露人群影响的研究[J].广东微量元素科学,2002,9(7):24-26
[200] Yusuf AA, Arowolo TOA, Bamgbose O. Cadmium, copper and nickel levels in vegetables from industrial and residential areas of Lagos City, Nigeria[J]. Food and Chemical Toxicology, 2003, 41: 375-378
[201] Lacatusu R, Rauta C, Carstea S, et al. Soil plant man relationships in heavy metal polluted areas in Romania[J]. Applied Geochemistry, 1996, 11(1): 105-107
[202] 黎佳佳,付庆灵,吕意,等.辣椒对灰潮土重金属Cd Pb污染的反应与矿质元素吸收[J].农业环境科学学报,2005,24(2):236-241
[203] 杜应琼,王少毅.铅、镉和铬在叶类蔬菜中的积累及对其生长的影响[J].园艺学报,2003,30(1):51-55
[204] 李博文,谢建治,郝晋珉.不同蔬菜对潮褐土Cd、Pb、Zn复合污染的吸收效应研究[J].农业环境科学学报,2003,22(3):286-288
[205] 付庆灵,胡红青,黎佳佳,等.灰潮土Cd Pb复合污染对萝卜产量品质和矿质元素吸收的影响[J].农业环境科学学报,2005,24(2):231-235[206] 马建军,张淑霞,吴贺平.镍污染对小麦幼苗矿质营养元素吸收与累积的影响[J].研究中国生态农业学报,2004,12(3):89-91
[207] 刘国琴,何嵩涛,樊卫国,等.土壤干旱胁迫对刺梨叶片矿质营养元素含量的影响[J].果树学报,2003,20(2):96-98
[208] 周军,兰彦萍,齐建勋,等.灌溉方式对葡萄果实品质及矿质营养元素的影响[J].宁夏农业科技,2001,3:8
[209] 蔡德龙,小林均.硅肥对水稻镉吸收影响初探地域研究与开发[J].2000,19(4):69-71
[210] 许磊.浅谈黄瓜营养价值[J].中国果菜,2003,5:3
[211] 范柯,王鲜俊,修红.端视ICP-AES法测定糖果中的7种微量元素[J].中国食品卫生杂志,2000,12(3):16-17
[212] 杜锐.蔬菜中矿质元素的测定与研究[J].光谱实验室,2003,7(4):537-538
[213] 施益华,刘鹏.锰在植物体内生理功能研究进展[J].江西林业科技,2003,2:26-31
[214] 马翠兰,刘星辉,陈素英.盐胁迫下柚和橘幼苗体内矿质元素变化的比较研究[J].热带亚热带植物学报,2005,13(4):333-337
[215] 蒋廷惠,占新华,徐阳春,等.钙对植物抗逆能力的影响及其生态学意义[J].应用生态学报,2005,16(5):971-976
[216] Fernandez-Pinas F, Mateo P, Bonilla I. Cadmium toxicity in nostoc UAM208: protection by calcium[J]. New Phytologist, 1995, 131: 403-407
[217] Robertson Al. The poisoning of roots of Zea mays by nickel ions and the protection afforded by magnesium and calcium[J]. New Phytologist, 1985, 100: 173-189
[218] Garland CJ, Wilkins DA. Effect of calcium on the uptake and toxicity of lead in Hordeum vulgate L. and Festuca ovina L[J]. New Phytologist, 1981, 87: 581-593
[219] Brown MT, Wilkins DA. Zinc tolerance in Betula[J]. New Phytologist, 1985, 99: 91-100
[220] Vago I, Gyori Z, Loch J. Comparison chromium and nickel uptake of plants grown in different soils[J]. Fresenius Journal of Analytical Chemistry, 1996, 354: 714-717
[221] Alva AK, Graham JH, Tucker DPH. Role of calciumin amelioration of copper phytotoxicity for citrus[J]. Soil Science, 1993, 155(3): 211-218
[222] Ross SM. Toxic metals in soil-plant systems[J]. Journal of Applied Ecology, 1995, 32(4): 89-890[223] Zhou W, Lin B. Alleviation of Cd toxicity by Ca for maize(Zea Mays L.)and its mechanism[A]. In: Cao Zhi-hong(eds). Intemational Symposium on Soil. Human and Environment Interactions[C]. Beijing:China Science Technology Press, 1998, 267-271
[224] 汪洪,周卫,林葆.钙对镉胁迫下玉米生长及生理特性的影响[J].植物营养与肥料学报,2001,7(1):78-87
[225] 宋松泉,简伟军,傅家瑞.Cd~(2+)对玉米种子活力的影响及Ca~(2+)的拈抗作用[J].应用与环境生物学报,1997,3(1):1-5
[226] Skorzynska-Polit E, Tukendorf A, Selstam E, et al. Calcium modifies Cd effect on runner bean plants[J]. Environmental and Experimental Botany,1998,40(3): 275-286
[227] Heikal MMD, Berry WL,Wallace A, et al. Alleviation of nickel toxicity by calcium salinity[J]. Soil Science, 1989,147:413-415
[228] 席玉英,郭栋生,宋玉仙,等.钙、锌对玉米幼苗吸收镉、铅的影响[J].山西大学学报(自然科学版),1994,17(1):101-104
[229] 杨宗飞.微量元素锰对小麦产量的影响[J].耕作与栽培,2005,3:37-39
[230] 杨德俊,杨卫韵,刘鹏,等.锰对大豆若干生理特性的影响[J].亚热带植物学报,2005,34(2):8-10
[231] 李国婧,周燮.水杨酸与植物抗非生物胁迫[J].植物学通报,2001,18(3):295-302
[232] 张玉秀,柴团耀.植物耐重金属机理研究进展[J].植物学报,1999,41:453-457
[233] Kawano T, Sahashi N, Takahanhi K, et al. Salycicylic acid induces extra-ellular generation of superoxide followed by an merense in cytosolic calcium ion in tobacco suspension culture: the earhest events in salicylic acid signal transduction[J]. Plant Cell Physiology, 1998, 39:721-730
[2] Kabata-Pendias A, Pendias H. Trace elements in soils and plants[J]. Florida: CRC Press Inc. 1984
[3] Smith CJ, Hopmans P, Cook FJ. Accumulation of Cr, Pb, Cu, Ni, Zn and Cd in soil following irrigation with treated urban effluent in Australia[J]. Environmental Pollution, 1996, 94(3): 317-323
[4] Wong SC, Li XD, Zhang G, et al. Heavy metals in agricultural soils of the Pearl River Delta, South China[J]. Environmental Pollution, 2000, 119: 33-44
[5] 赵其国,周炳中,杨浩.江苏省环境质量与农业安全问题的研究[J].土壤,2002.1:1-8
[6] 罗春玲,沈振国.植物对重金属的吸收和分布[J].植物学通报,2003,20(1):59-66
[7] 魏忠杰.可抗重金属污染的细菌培育成功.科学时报,2003,03,04
[8] 苗明升,朱圆圆,曹明霞,等.重金属铅对玉米萌发和早期生长发育的影响[J].山东师范大学学报(自然科学学报版),2003,18(1):82-84
[9] 葛才林,杨小勇,朱红霞,等.重金属胁迫对水稻叶片过氧化氢酶活性和同功酶表达的影响[J].核农学报,2002,16(4):197-202
[10] 张玉秀,柴团耀.菜豆病程相关蛋白基因在重金属胁迫下的表达分析[J].中国生物化学与分子生物学报,2000,16(1):46-50
[11] 沈宏,严小龙.根分泌物研究现状及其在农业与环境领域的应用[J].农村生态环境,2000,16(3):51-54
[12] 涂书新,孙锦荷,郭智芬.植物根系分泌物与根际营养关系评述[J].土壤与环境,2000,9(1):64-67
[13] 张义贤.汞、镉、铅胁迫对油菜的毒害效应[J].山西大学学报(自然科学版),2004,27(4):410-413
[14] 秦天才,吴玉树,王焕校.镉、铅及其相互作用对小白菜生理生化特性的影响[J].生态学报,1994,14(1):46-50
[15] 马文丽,王转花.铅胁迫对乌麦及普通小麦抗氧化酶的影响[J].山西农业科学,2004,32(2):8-12
[16] 庞欣,王东红,彭安.铅胁迫对小麦幼苗抗氧化酶活性的影响[J].环境科学,2001,22(5):108-111[17] 江行玉,赵可夫.铅污染下芦苇体内铅的分布和铅胁迫相关蛋白[J].植物生理与分子生物学学报,2002,28(3):169-174
[18] 彭鸣,王焕校,吴玉树.镉、铅诱导的玉米(Zea mays L.)幼苗细胞超微结构的变化[J].中国环境科学,1991,11(6):426-431
[19] 周希琴,莫灿坤.植物重金属胁迫及其抗氧化系统[J].新疆教育学院学报,2003,19(2):103-108
[20] 匡少平,徐仲,张书圣.水稻对土壤中环境重金属激素铅的吸收效应及污染防治[J].环境科学与技术,2002,25(2):32-34
[21] 宋玉芳,许华夏,任丽萍,等.土壤重金属污染对蔬菜生长的抑制作用及其生态毒性[J].农业环境科学学报,2003,22(1):13-15
[22] Molone C, Koeppe DE, Miller RJ. Localization of lead accumulated by corn plants[J]. Plant physiology, 1974, 53: 388-394
[23] 杨居荣,鲍子平,张素芹.镉、铅在植物细胞内的分布及其可溶性结合形态[J].中国环境科学,1993,13(4):263-268
[24] 常学秀,段昌群,王焕校.根分泌作用与植物对重金属毒害的抗性[J].应用生态学报,2000,11(2):315-320
[25] 安志装,王校常,严蔚东,等.植物螯合肽及其在重金属胁迫下的适应机制[J].植物生理学通讯,2001,37(5):463-467
[26] 徐明丽,关启堂,依艳丽.重金属植物螯合肽PC的研究进展[J].农业环境保护,2001,20(6):468-470
[27] Gupta M, Rai UN, Tripathi RD, et al. Lead induced changes in glutathione and phytochelatin in hydrilla verticillata (if)Royle[J]. Chemospher, 1995, 30(10): 2011-2020
[28] Cui KR, Xing GK, Zhou GK. The induced and regulatory effects of plant hormones in somatic embryogesis[J]. Hereditas, 2000, 22(5): 349-354
[29] Downes BP, Crowell DN. Cytokinin regulates the expression of a soybean β-expansin gene by a post-transcriptional mechanism[J]. Plant Molecular Biology, 1998, 37(3): 437-444
[30] Wang ZL, Cao WX. Regulation of plant gene expression by cytokinins[J]. Plant Physiology Communications, 2000, 36(1): 82-88
[31] Ivanova AP, Stefanov KL, Yordanov IT. Effect of cytokinin 4PU-30 on the lipid composition of water stress bean plants[J]. Biologia Plantarum, 1998, 41(1): 155-159
[32] Liu XZ, Li JK, Wang ZX, et al. Effect of cytokinins on resistance of summer??maize to waterlogging[J]. Acta Agronomica Sinica, 1996, 22(4): 403-408
[33] Liao XR, He PC, Zhu XC. Effect of zeatin on H_2O_2 scavenging system of Vitis vulpina leaf disks under salt stress[J]. Acta Agronomica Sinica, 1997, 39(7): 641-646
[34] 陈珈,朱美君.玉米根微粒体ABA结合蛋白的性质及逆境胁迫的影响[J].植物生理学报,1996,22(2):63-68
[35] 李劲,萧浪涛,蔺万煌.植物内源茉莉酸类生长物质研究进展[J].湖南农业大学学报(自然科学版),2002,2:78-83
[36] 王利军,战吉成,黄卫东.水杨酸与植物抗逆性[J].植物生理学通讯,2002,12:619-622
[37] Blackman PG, DaviesWJ. Root to shoot communication in maize plants of the effects of soil drying[J]. Journal of Experimental Botany, 1985, 36: 39-48
[38] Zhang JH, Davies WJ. Changes in the concentration of ABA in xylem sap as a function of changing soil water status can account for changes in leaf conductance and growth[J]. Plant Cell Environ, 1990, 13: 277-285
[39] Loveys BR. Diurnal changes in water relations and abscisic acid in field-grown vitis vinifera cultivars. Ⅲ. The influence of xylem-derived abscisic acid on leaf gas exchange[J]. New Phytologist, 1984, 98: 563-573
[40] Monni S, Uhlig C, Hansen E, et al. Ecophysiological responses of empetrum nigrum to heavy metal pollution[J]. Environmental Pollution, 2001, 112
[41] 李云荫,尚忠林,李建华.逆境激素ABA的信号传导及其调控[J].河北师范大学学报(自然科学学报版),2001,25(4):526-529
[42] 汪良驹,王业迟,刘友良.盐逆境中无花果叶片蛋白质合成与脱落酸及脯氨酸积累的关系[J].江苏农业学报,1991,7(1):38-44
[43] 向旭,傅家瑞.脱落酸应答基因的表达调控及其与逆境胁迫的关系[J].植物学报,1998,15(3):11-16
[44] 张海文,黄荣峰,卢向阳,等.茉莉素的信号转导与植物的防御反应[J].植物生理学通讯,2002,38(6):631-635
[45] 柳爱莲,催香坏.茉莉酸类物质影响植物生理作用的研究进展[J].河南大学学报(自然科学学报版),2000,30(3):55-57
[46] Robert A, Creelman, John E Mullet. Jasmonic acid distribution and action in plants: Regulation during development and response to biotic and abiotic stress[J]. Proceedings of the National Academy of Sciences USA, 1995, 92: 4114-4119[47] Malamy J, Carr JP, Klessig DF, et al. Salicylic acid: a likely endogenous signal in the resistance response of tobacco to viral infection[J]. Science, 1990, 250: 1002-1004
[48] Perumal Vijayan, Jay Shockey, Andre Levesque, et al. A role for jasmonate in pathogen defense Arabidopsis[J]. Proceedings of the National Academy of Sciences USA, 1998, 95(12): 7209-7214
[49] 刘新,张蜀秋,娄成后.茉莉酸信号转导及其与脱落酸信号转导的关系[J].植物生理学通讯,2002,38(3):285-288
[50] Lmanish S, Kito-Nakamura K, Matsuoka K, et al. A major jsamonate-inducible protein of sweet potato, ipomoelin is an ABA-independent wound-inducible protein [J]. Plant Cell Physiology, 1997, 38(6): 643-652
[51] Galston AW, Sawhney RK. Polyamines in plant physiology[J]. Plant Physiology, 1990, 94(2): 406-410
[52] Scholten HJ. Effect of polyamines on the growth and development of some horticultural crops in micro propagation[J]. Science Horticulturea, 1998, 77: 83-88
[53] Annalisa T, Marianne Van B, Marina F, et al. Polyamine content and metabolism in Arabidopsis thaliana and effect of sprmideine on plant development[J]. Plant Physiology and Biochemistry, 2000, 38(5): 383-393
[54] Walden R, Cordeiro A, Tiburcio AF. Polyamines: small molecules triggering pathways in plant growth and development[J]. Plant Physiology, 1997, 113(4): 1009-1013
[55] 黄久常,王辉,夏景光.渗透胁迫和水淹对不同抗旱性小麦品种幼苗叶片多胺含量的影响[J].华中师范大学学报(自然科学版),1999,2:259-262
[56] 张满效,王帮锡,黄久常.水分胁迫对小麦叶片内源多胺的累及和乙烯产生的影响[J].甘肃科学学报,1995,04:33-36
[57] 郑永华,李三玉.多胺与枇杷果实冷害的关系[J].植物学报,2000,8:824-827
[58] 李如铁,沈惠娟,李梅枝.酸胁迫对几种林木体内脯氨酸及腐胺含量的影响[J].南京林业大学学报,1995,03:88-93
[59] Paradi I, Berecz B, Halasz K, et al. Influence of arbuscular mycorrhiza and cadmium on the polyamine contents of Ri T-DNA transformed Daucus carotal L. root cultures[J]. Acta Biologica Szegediensis, 2003, 47(1-4): 31-36
[60] Lesko K, Simon-Sarkadi L. Effect of cadmium stress on amino acid and polyamine content of wheat seedlings[J]. Periodica Polytechnica Chemical Engineering, 2002, 46(1-2): 65-71[61] Johnson PR, Ecker JR. The ethylene gas signal transduction pathway: A molecular perspective[J]. Annual Review of Genetics, 1998, 32: 227-254
[62] Capitani G, Hohenester E, Feng L, et al. Structrue of 1-aminocyclopropan-1-catboxylate synthase, a key enzyme in the biosynthesis of the planthormone ethylene[J]. Journal of Molecular Biology, 1999, 294: 745-756
[63] Beecker AB, Kende H. Ethylene: A gas signal molecule in plants[J]. Annual Review of Cell and Developmental Biology, 2000, 16: 1-18
[64] 张昭其,李雪萍,洪汉君,等.外源腐胺减轻芒果冷害的研究[J].福建农业学报,2000,02:32-36
[65] 何冰,叶海波,杨肖娥.铅胁迫下不同生态型东南景天叶片抗氧化酶活性及叶绿素含量比较[J].农业环境科学学报,2003,22(3):274-278
[66] 葛林才,杨小勇,孙锦荷,等.重金属引起的水稻和小麦幼苗的DNA损伤[J].植物生理与分子生物学学报,2002,28(6):419-424
[67] 顾继光,周启星,王新.土壤重金属污染的治理途径及其研究进展[J].应用基础与工程科学学报,2003,11(2):143-151
[68] 季玉鸣,李振国.镉引起小麦苗逆境乙烯的产生及其和镉的吸收、分布的关系[J].植物生理学报,1989,15(2):159-166
[69] 顾继光,林秋奇,胡韧,等.土壤.植物系统中重金属污染的治理途径及其研究展望[J].土壤通报,2005,36(1):128-133
[70] 何冰,杨肖娥,魏幼埠.铅污染土壤的修复技术[J].广东微量元素科学,2001,8(9):12-17
[71] 任安芝,高玉葆,刘爽.铬、镉、铅胁迫对青菜叶片几种生理生化指标的影响[J].应用与环境生物学报,2000,6(2):112-116
[72] 李荣春.Cd,Pb及其复合污染对烤烟叶片生理生化及细胞亚显微结构的影响[J].植物生态学报,2000,24(20):238-242
[73] 杨丹慧.重金属对高等植物光合膜结构和功能的影响[J].植物学通报,1991,8(3):26-29
[74] 张义贤.重金属对大麦(Hordeum vulgare)毒性的研究[J].环境科学学报,1997,17(2):199-205
[75] Assche FV, Clijster H. Effects of metal on enzyme activity in plant[J]. Plant Cell Envion, 1990, 13: 195-206
[76] 李合生,孙群,赵世杰,等.植物生理生化实验原理和技术[M].北京:高等教育出版社,2000
[77] 赵惠玲,王青,李晓玲.木质化干枯植物材料的整体PAS反应及制片法[J].??山西大学学报(自然科学版),2002,25(3):258-259
[78] 杨群,胥维勇.PAS反应在显示真菌中的应用和体会[J].中国组织化学与细胞化学杂志,2002,11(2):131
[79] 蒋明义,郭绍川,张学明.氧化胁迫下稻苗体内积累的脯氨酸的抗氧化作用[J].植物生理学报,1997,23(4):347-352
[80] 任安芝,高玉葆.铬,镉,铅胁迫对青菜叶片几种生理生化指标的影响[J].应用与环境生物学报,2000,6(2):12-116
[81] 张春荣,李红,夏立江,等.镉、锌对紫花苜蓿种子萌发及幼苗的影响[J].华北农学报,2005,20(1):96-99
[82] Godzik B. Heavy metals content in plants from zinc domps and reference area[J]. Pol Bot Stud, 1993, 5: 113-132
[83] 马文丽,金小弟,王转花.铅胁迫对乌麦种子萌发及幼苗生长的影响[J].山西大学学报,2004,27(2):202-204
[84] Patra J, Lenka M, Panda BB. Tolerance and co-tolerance of the grass Chloris barbata Sw. to mercury, cadmium and zinc[J]. New Phytologist, 1994, 128: 165-171
[85] 刘莉.镉胁迫对水稻幼苗干物质积累和活性氧代谢的影响[J].浙江农业学报,2005,17(3):147-150
[86] 赵士禹,姚民昌,赵树仁.铜对玉米幼苗影响机制的初步研究[J].辽宁师范大学学报,1994,17(3):238-241
[87] 葛林才,杨小勇,金阳,等.重金属胁迫对水稻不同品种超氧化歧化酶的影响[J].核农学报,2003,17(4):286-291
[88] 章艺,刘鹏,史锋.高铁胁迫对大豆叶片体内保护系统和膜脂过氧化的影响[J].中国油料作物学报,2004,26(2):65-68
[89] 王正秋,江行玉,王长海.铅、镉和锌污染对芦苇幼苗氧化胁迫和抗氧化能力的影响[J].过程工程学报,2002,2(6):558-563
[90] 宋勤飞,樊卫国.铅胁迫对番茄生长及叶片生理指标的影响[J].山地农业生物学报,2004,23(2):134-138
[91] 胡能书,万国贤编.同工酶技术及其应用[M].长沙:湖南科技出版社,1990
[92] 罗广华,王爱国.植物SOD的凝胶电泳及活性的显示[J].植物生理学通讯,1983,6:44-46
[93] 赵赣,曹永长,钱芳,等.过氧化氢同工酶KMnO_4染色法的初步研究[J].江西农业大学学报(自然科学版),2002,24(4):541-543
[94] 严重玲,洪业汤,付舜珍.Cd、Pb胁迫对烟草叶片中活性氧清除系统的影响[J].??生态学报,1997,17(5):488-492
[95] 马树华,王庆成,李亚藏.汽车尾气污染对四种北方阔叶树苗木膜脂过氧化和保护酶活性的影响[J].应用生态学报,2004,15(12):2330-2336
[96] Teisseire H, Guy V. Copper-induced changes in antioxidant enzymes activities in fronds of duckweed(Lemna minor) [J]. Plant Science, 2000, 153: 65-72
[97] Unbabin JS, Bowmer KH. Potential use of constructed Wetlands for treatment of industrial wastewater containing metals[J]. Science of the Total Environment, 1992, 111: 151-168
[98] 严重玲,付舜珍,杨新克.土壤中Pb,Hg及相互作用对烟草叶片中抗氧化酶的影响[J].环境科学学报,1997,17(4):469-473
[99] 邓代信,龚义勤,汪隆植,等.萝卜雄性不育系几种同工酶研究[J].西南农业学报,2004,17(3):348-351
[100] 任安芝,高玉葆,陈悦.干旱胁迫下内生真菌感染对黑麦草叶内几种同工酶的影响[J].生态学报,2004,24(7):1323-1329
[101] 王松华.Cu对印度芥菜根中POD、SOD同工酶的影响[J].安徽技术师范学院学报,2004,18(2):34-36
[102] 任安芝,高玉葆,刘爽.青菜幼苗体内几种保护酶的活性对Pb、Cd、Cr胁迫的反应研究[J].应用生态学报,2002,13(4):510-512
[103] Mazhoudi S, Chaoui A, Ghorbal MH, et al. Response of antioxidant enzymes to excess copper in tomato (Lycopersicon escuentum, Mill)[J]. Plant Science, 1997, 127: 129-137
[104] 丁海东,万延惠,齐乃敏,等.镉和锌对番茄幼苗抗氧化酶活性的影响[J].仲恺农业大学学报,2004,17(2):37-41
[105] 王福锁.环境胁迫与植物营养[M].北京:北京农业大学出版社,1993,79-91
[106] 马成仓,洪法水.汞对小麦种子萌发和幼苗生长作用机制初探[J].植物生态学报,1998,22(4):373-378
[107] 王兆龙,曹卫星.细胞分裂素对植物基因表到的调节[J].植物生理学通讯,2000,36(1):82-88
[108] 刘晓忠,李建坤.应用细胞分裂素类物质提高玉米抗涝能力的效果与作用[J].作物学报,1996,22:403-408
[109] 廖祥儒,贺普超,朱新产.玉米素对盐滞下葡萄叶片H_2O_2清除系统的影响[J].植物学报,1997,39(7):641-646
[110] 王三根.细胞分裂素在植物抗逆和延衰中的作用[J].植物学通报,2000,17(2):121-126.[111] 郑风荣,谷令坤,李德.水分胁迫下脱落酸及磷脂酶在玉米幼苗根系渗透调节物质积累中的信号作用[J].中国生态农业学报,2004,12(4):78-81
[112] 刘桂丰,刘关君.盐逆境条件下树种的激素变化及抗盐性分析[J].东北林业大学学报,1998,26(2):1-4
[113] 萧浪涛,王三根.植物生理学[M].北京:中国农业出版社,2003,12
[114] 周红卫,施国新,陈景耀,等.6-BA对水花生抗氧化酶系Hg~(2+)毒害的缓解作用[J].生态学报,2003,23(2):387-392
[115] 郭栋生,席玉英,王爱英,等.植物激素类除草剂对玉米幼苗吸收重金属的影响[J].农业环境保护,1999,18(4):182-184,191
[116] 王若仲,曹庸.亚种间杂交稻内源激素的高效液相色谱测定法[J].色谱,2002,20(2):148-150
[117] 李小方,何玉料,汤章城.生长素和模拟微重力效应对大白菜不定根形态发生的影响[J].实验生物学报,2000,33(2):179-186
[118] 曹尚银,汤一卒,张俊昌.GA_3和PP_(333)对苹果花芽形态建成及其内源激素比例变化的影响[J].果树学报,2001,18(6):313-316
[119] Bochu W, Jiping S, Biao L, et al. Soundware stimulation triggers the content change of the endogenous hormone of the chrysanthemum mature callus[J]. Colloids Surf B Biointerfaces, 2004, 37(3-4): 107-112
[120] 雷蕾,康庆华,张晓波,等.反向高效液相色谱法分离和测定亚麻植株中植 物激素[J].黑龙江农业科学,2001,6:21-22
[121] 武维华.植物生理学[M].北京:科学出版社,2003
[122] 江力,梁俊,张荣铣.细胞分裂素类物质对植物叶片衰老的延缓作用及其分子遗传研究[J].安徽教育学院学报,2000,18(6):52-54
[123] 孙在红,刘荣堂,慧敏,等.植物激素在草坪草组织培养及植株再生中的应用与进展[J].草原与草坪,2004,2:13-16
[124] 章贯和.细胞分裂素对发生湿害的青菜、莴苣叶绿素含量的影响[J].阜阳师范学院学报(自然科学版),2002,19(1):31-33
[125] Arthur W Galston. Polyamines as modulators of plant development[J]. Bio-Science, 1983, 33(6): 382-388
[126] 陈学好,曾广文.黄瓜花性别分化与内源多胺的关系[J].植物生理与分子生物学学报,2002,28(1):17-22
[127] 潘永贵,仇厚援,安广杰.采后香蕉果实中多胺含量的变化[J].植物生理与分子生物学学报,2002,28(2):96-98
[128] Harsh Pal Bais, Govinda Swamy Sudha, Gokare Aswathanarayan Ravishankar.??Putrescine and silver nitrate influences shoot multiplication, in Vitro flowering and endogenous titers ofpolyamines in Cichorium intybus L. cv. lucknow local [J]. Journal of Plant Growth Regulation, 2000, 19(2): 238-248
[129] Apelbaum A. Polyamine involvement in the development and ripening of avocado fruit[J]. ISHS Acta Horticulturae, 1985, 179: 779-785
[130] 於丙军,吉晓佳,刘俊,等.氯化钠胁迫下野生和栽培大豆幼苗体内的多胺水平变化[J].应用生态学报,2004,15(7):1223-1226
[131] 任红旭,陈雄,王亚馥.抗旱性不同的小麦幼苗在水分和盐胁迫下抗氧化酶和多胺的变化[J].植物生态学报,2001,25(6):709-715
[132] 王绍辉,张福墁.不同水分处理对日光温室黄瓜多胺与激素的影响[J].生态学报,2004,24(12):2848-2852
[133] Mejia EG De, Martinez RV, Castano TE, et al. Effect of drought on polyamine metabolism, yield, protein and in vitro protein digestility in teoary (Phaseolus acutifolius L.) and common (Phaseolus vulgaris L.) bean seeds [J]. Journal of the Science of Food and Agriculture, 2003, 83: 1022-1030
[134] 黄益宗,朱永官,黄凤堂,等.镉和铁及其交互作用对植物生长的影响[J].生态环境,2004,13(3):406-409
[135] 周红卫,施国新,徐勤松,等.Cr~(6+)和Cr~(3+)对水花生几种生理生化指标的影响比较[J].农村生态环境,2002,18(4):35-40
[136] 徐勤松,施国新,杜开和.镉胁迫对水车前叶片抗氧化酶系统和亚显微结构的影响[J].农村生态环境,2001,17(2):30-34
[137] 王贵民,陈国祥,陈利,等.镉胁迫下杂交稻2品种幼苗的抗性及镉含量的差异[J].农村生态环境,2004,20(4):44-47
[138] 刘玲,杨双春,张洪林.Hg~(2+)胁迫下玉米生理生态变化的研究[J].生态环境,2004,13(2):161-163
[139] 刘俊,吉晓佳,刘友良.检测植物组织中多胺含量的高效液相色谱法[J].植物生理学通讯,2002,38(6):596-598
[140] 江行玉,宋杰,范海,等.外源钙和亚精胺对NaCl胁迫条件下玉米幼苗体内离子平衡和多胺水平的调节[J].植物生理学报,2000,6:539-54
[141] 张木清,陈如凯,余松烈.多胺对渗透胁迫下甘蔗愈伤组织诱导和分化的作用[J].植物生理学通讯,1996,03:175-178
[142] 杨建昌,张亚洁,张建华,等.水分胁迫下水稻剑叶中多胺含量的变化及其与抗旱性的关系[J].作物学报,2004,30(11):1069-1075
[143] Flores HE, Galston AW. Polyamines and plant stress: Activation of putrescine??biosynthasis by osmotic shock[J]. Science, 1982, 217: 1259-1261
[144] 李朝周,梁恕坤,焦健,等.逆境胁迫下多胺与乙烯代谢的相关性及其对细胞膜保护系统影响的研究进展[J].甘肃农业大学学报,2002,37(3):265-271
[145] 黄维玉,王亚来,袁林江.多胺对小麦离体叶片衰老的调节[J].植物学报,1990,32(2):125-13
[146] 蒋琳,沈曾佑,张志良,等.多胺对裸大麦离体叶片活性氧代谢的影响[J].植物生理学报,1993,19(4):367-371
[147] 谢寅蜂,沈惠娟,李梅枝.酸胁迫对林木内源多胺及活性氧代谢的影响[J].林业科学,1999,35(1):117-121
[148] 李德红,潘瑞枳.水杨酸对植物系统的影响[J].植物生理学通讯,1995,31(2):144-149
[149] 唐国章,孙谷,王正询.水杨酸在植物抗环境胁迫中的作用[J].广西植物,2004,24(2):178-183
[150] Al-hakimi AMA, Hamada AM. Counteraction of salinity stress on wheat plants by grain soaking in ascorbic acid, thiamin or sodium salicylate[J]. Biologia Plantarum, 2001, 44(2): 253-261
[151] Mishra A, Choudhuri MA. Effects of salicylic acid on heavy metal-induced membrane deterioration mediated by lipoxygenase in rice[J]. Biologia Plantarum, 1999, 42(3): 409-415
[152] 李国靖,周燮.水杨酸与植物抗非生物胁迫[J].植物学通报,2001,18(3):295-302
[153] 唐碰,邹琦,彭涛,等.水杨酸在小麦幼苗渗透胁迫中的作用[J].西北植物学报,1999,19(2):296-302
[154] 原永兵,刘成连,鞠志国,等.水杨酸对苹果叶片过氧化氢的调节及其机制[J].园艺学报,1997,24(3):220-224
[155] 张士功,高吉寅,宋景芝.水杨酸和阿斯匹林对盐胁迫下小麦种子萌发的作用[J].植物生理学通讯,1999,35(1):29-32
[156] 徐幼平,马志超,蔡新忠.反相高效液相色谱测定番茄组织中的水杨酸[J].植物生理学通讯,1997,33(1):49-52
[157] 张玉,陈昆松,张上隆.猕猴桃果实中内源水杨酸的提取、测定及其在采后研究中的应用[J].中国食品学报,2004,3:6-9
[158] Meuwly P, Metraux JP. Ortho-anisic acid as internal standard for the simultaneous quantitation of salicylic acid and its putative biosyhthetic precursors in cucumber leaves[J]. Analytical Biochemistry, 1993, 214(2): 500-505[159] Yalpani N, Shulaev V, Raslin I. Endogenous salicylic acid levels correlate with accumulation of pathogenesis-related proteins and virus resistance in tomato[J]. Phytopathology, 1993, 83: 702-707
[160] 李兆亮,原永兵,李冬梅.薄层层析和高效液相层析技术结合测定植物叶片水杨酸含量[J].植物生理学通讯,1997,33(2):130-132
[161] Rasmussen JB, Hammerschmid R, Zook MN. Systemic induction of salicylic acid accumulation in cucumber after inoculation with Pseudomonas syringae pv syringae[J]. Plant Physiology, 1991, 97: 1342-1347
[162] Malarmy J, Carr JP, Klessig DF, et al. Salicylic acid: a likely endogenous signal in the resistance response of tobacco to viral infection[J]. Science, 1990, 250: 1002-1004
[163] Hosokawa D, Ohashi Y. Immunochemical localization of pathogenesis-related proteins secreted into the intercellular spaces of salicylated-treated tobacco leaves[J]. Plant Cell Physiology, 1998, 29(6): 1035-1040
[164] 蔡新忠,郑重.水杨酸诱导水稻幼苗抗病性的生化机制[J].植物病理学报,1997,27(3):231-236
[165] Chasan R. Eliciting phosphorylation [J]. Plant Cell, 1995, 7: 589-598
[166] 王利军,黄卫东,李加永.水杨酸对葡萄幼苗叶片膜脂过氧化的影响[J].中国农业科学,2003,36(9):1076-1080
[167] 何若韫.植物低温逆境生理[M].北京:中国农业出版社,1995,72-80
[168] 张士功,高吉寅,宋景芝.水杨酸和阿斯匹林对盐胁迫下小麦种子萌发的作用[J].植物生理学通讯,1999,35(1):29-32
[169] 韩涛,李丽萍.水杨酸对短期贮藏苹果的生理效应[J].植物生理学通讯,1997,33(5):345-348
[170] 周春菊,王林权,李生秀.有机酸和维生素对小麦某些生理生化特性的影响[J].西北植物学报,1999,19(4):623-628
[171] 李兆亮,原永兵,刘连成.水杨酸在黄瓜细胞中信号传导的研究[J].植物学报,1998,40(5):430-436
[172] 马德华,庞金安,李淑菊.温度逆境锻炼对高温下黄瓜幼苗生理的影响[J].园艺学报,1998,25(4):350-355
[173] Lopez-Delgado H, Dat JF, Foyer CH. Induction of thermotolerance in potato microplants by acetyl salicylic acid and H_2O_2[J]. Journal of Experimental Botany, 1997, 49: 713-720
[174] Dat JF, Lopez-Delgado H, Foyer CH, et al. Parallel changes in H_2O_2 and??catalase during thermotolerance induced by salicylic acid or heat acclimation in mustard seedlings[J]. Plant Physiology, 1998, 116: 1352-1357
[175] Seneratna T, Touchell D, Bunn E, et al. Acetylsalicylic acid (aspirin) and salicylic acid induce multiple stress tolerance in bean and tomato plants[J]. Plant Growth Regulation, 2000, 30: 157-161
[176] 何亚丽,刘友良,陈权.水杨酸诱导抗耐热性与高羊茅幼苗热锻炼的关系[J].植物生理与分子生物学报,2002,28(2):89-95
[177] 陈春玲,赖钟雄.龙眼体胚发生过程中特异蛋白的IEF和SDS-PADE分析[J].福建农林大学学报(自然科学学报版),2002,31(1):135-136
[178] 郭尧君编著.蛋白质电泳技术[M].北京:科学出版社,1999,132-136
[179] 何瑞锋,丁毅,张剑锋,等.植物叶片蛋白质双向电泳技术的改进与优化[J].遗传,2000,22(5):319-321
[180] 朱友林,王建,余潮.植物蛋白质双向电泳及其考马斯亮蓝-银染复合染色法[J].南昌大学学报,1999,23(2):101-103
[181] 杨肖娥,龙新宠,倪吾钟.超积累植物吸收重金属的生理及分子机制[J].植物营养与肥料学报,2002,8(1):8-15
[182] 罗立新,孙铁珩,靳月华.镉胁迫下小麦叶中超氧阴离子自由基的积累[J].环境科学学报,1998,18(5):495-499
[183] 罗立新,孙铁珩,靳月华.镉胁迫对小麦叶片细胞膜脂过氧化的影响[J].中国环境科学,1998,18(1):72-75
[184] Westermeier R. Electrophoresis in practice[M]. VCH. Press. Weinhein, 1993, 9: 167-171
[185] 王振英,彭永康.双向电泳分析植物蛋白质的重演性、敏感性和清晰度[J].天津师范大学学报,2001,21(4):34-36,64
[186] 洪仁远,蒲长辉.镉对小麦幼苗的生长和生理生化的影响[J].华北农学报,1991,6(3):70-75
[187] 李元,王焕校,吴玉树,等.Cd、Fe及其复合污染对烟草叶片几项生理指标的影响[J].生态学报,1992,12(2):147-153
[188] Grunhage C, Welgel HH, Ilge D, et al. Isolation and partial characterization of cadmium binding protein from Pisum sativum[J]. Plant Physiology, 1985, 119: 327-334
[189] 赵可夫,王韶唐.作物抗性生理[M].北京科技出版社,1990,153
[190] Jungblut PR, Zimny Arndt U, Zeindl-Eberhart E, et al. Proteomics in human disease: caner, heart and infectious diseases[J]. Electrophoresis, 1999, 20(10):??2100-2110
[191] Williams KL. Genomes and proteomes: towards a muiltidimensional view of biology[J]. Electrophotesis, 1999, 20(4-5): 678-688
[192] 钟伯雄,颜海燕,沈飞英,等.家蚕蛋白质双向电泳的样品制备方法[J].蚕业科学,2003,29(4):427-432
[193] 赵从建,贾宇峰,丁勤学,等.中枢神经蛋白质组分析中双向电泳技术的建立[J].生物化学与生物物理进展,2000,27(6):645-650
[194] Pasquali C, Fialka I, Huber LA. Subcellular fractionation, electromigration analysis and mapping of organelles[J]. Journal Chromatography B Biomedical Science Applications, 1999, 722(1-2): 89-102
[195] Rabilloud T. Solubilization of protein for electrophoresis analyses[J]. Electrophoresis, 1996, 17(5): 813-829
[196] Mark P Molloy, Ben R Herbert, Bradley J Walsh. Extration of membrane proteins by differential solubilization for separation using two-dimensional gel electrophorsis [J]. Electrophorsis, 1998, 19(5): 837-844
[197] 解建勋,蒲小平,李玉珍,等.蛋白质组分析技术进展[J].生物生理学报,2001,17(1):20-25
[198] 朱丽华.植物绿色组织蛋白质组双向电泳分析[J].植物生理学通讯,1992,28(3):217-219
[199] 王鸿飞.环境镉污染及镉对环境暴露人群影响的研究[J].广东微量元素科学,2002,9(7):24-26
[200] Yusuf AA, Arowolo TOA, Bamgbose O. Cadmium, copper and nickel levels in vegetables from industrial and residential areas of Lagos City, Nigeria[J]. Food and Chemical Toxicology, 2003, 41: 375-378
[201] Lacatusu R, Rauta C, Carstea S, et al. Soil plant man relationships in heavy metal polluted areas in Romania[J]. Applied Geochemistry, 1996, 11(1): 105-107
[202] 黎佳佳,付庆灵,吕意,等.辣椒对灰潮土重金属Cd Pb污染的反应与矿质元素吸收[J].农业环境科学学报,2005,24(2):236-241
[203] 杜应琼,王少毅.铅、镉和铬在叶类蔬菜中的积累及对其生长的影响[J].园艺学报,2003,30(1):51-55
[204] 李博文,谢建治,郝晋珉.不同蔬菜对潮褐土Cd、Pb、Zn复合污染的吸收效应研究[J].农业环境科学学报,2003,22(3):286-288
[205] 付庆灵,胡红青,黎佳佳,等.灰潮土Cd Pb复合污染对萝卜产量品质和矿质元素吸收的影响[J].农业环境科学学报,2005,24(2):231-235[206] 马建军,张淑霞,吴贺平.镍污染对小麦幼苗矿质营养元素吸收与累积的影响[J].研究中国生态农业学报,2004,12(3):89-91
[207] 刘国琴,何嵩涛,樊卫国,等.土壤干旱胁迫对刺梨叶片矿质营养元素含量的影响[J].果树学报,2003,20(2):96-98
[208] 周军,兰彦萍,齐建勋,等.灌溉方式对葡萄果实品质及矿质营养元素的影响[J].宁夏农业科技,2001,3:8
[209] 蔡德龙,小林均.硅肥对水稻镉吸收影响初探地域研究与开发[J].2000,19(4):69-71
[210] 许磊.浅谈黄瓜营养价值[J].中国果菜,2003,5:3
[211] 范柯,王鲜俊,修红.端视ICP-AES法测定糖果中的7种微量元素[J].中国食品卫生杂志,2000,12(3):16-17
[212] 杜锐.蔬菜中矿质元素的测定与研究[J].光谱实验室,2003,7(4):537-538
[213] 施益华,刘鹏.锰在植物体内生理功能研究进展[J].江西林业科技,2003,2:26-31
[214] 马翠兰,刘星辉,陈素英.盐胁迫下柚和橘幼苗体内矿质元素变化的比较研究[J].热带亚热带植物学报,2005,13(4):333-337
[215] 蒋廷惠,占新华,徐阳春,等.钙对植物抗逆能力的影响及其生态学意义[J].应用生态学报,2005,16(5):971-976
[216] Fernandez-Pinas F, Mateo P, Bonilla I. Cadmium toxicity in nostoc UAM208: protection by calcium[J]. New Phytologist, 1995, 131: 403-407
[217] Robertson Al. The poisoning of roots of Zea mays by nickel ions and the protection afforded by magnesium and calcium[J]. New Phytologist, 1985, 100: 173-189
[218] Garland CJ, Wilkins DA. Effect of calcium on the uptake and toxicity of lead in Hordeum vulgate L. and Festuca ovina L[J]. New Phytologist, 1981, 87: 581-593
[219] Brown MT, Wilkins DA. Zinc tolerance in Betula[J]. New Phytologist, 1985, 99: 91-100
[220] Vago I, Gyori Z, Loch J. Comparison chromium and nickel uptake of plants grown in different soils[J]. Fresenius Journal of Analytical Chemistry, 1996, 354: 714-717
[221] Alva AK, Graham JH, Tucker DPH. Role of calciumin amelioration of copper phytotoxicity for citrus[J]. Soil Science, 1993, 155(3): 211-218
[222] Ross SM. Toxic metals in soil-plant systems[J]. Journal of Applied Ecology, 1995, 32(4): 89-890[223] Zhou W, Lin B. Alleviation of Cd toxicity by Ca for maize(Zea Mays L.)and its mechanism[A]. In: Cao Zhi-hong(eds). Intemational Symposium on Soil. Human and Environment Interactions[C]. Beijing:China Science Technology Press, 1998, 267-271
[224] 汪洪,周卫,林葆.钙对镉胁迫下玉米生长及生理特性的影响[J].植物营养与肥料学报,2001,7(1):78-87
[225] 宋松泉,简伟军,傅家瑞.Cd~(2+)对玉米种子活力的影响及Ca~(2+)的拈抗作用[J].应用与环境生物学报,1997,3(1):1-5
[226] Skorzynska-Polit E, Tukendorf A, Selstam E, et al. Calcium modifies Cd effect on runner bean plants[J]. Environmental and Experimental Botany,1998,40(3): 275-286
[227] Heikal MMD, Berry WL,Wallace A, et al. Alleviation of nickel toxicity by calcium salinity[J]. Soil Science, 1989,147:413-415
[228] 席玉英,郭栋生,宋玉仙,等.钙、锌对玉米幼苗吸收镉、铅的影响[J].山西大学学报(自然科学版),1994,17(1):101-104
[229] 杨宗飞.微量元素锰对小麦产量的影响[J].耕作与栽培,2005,3:37-39
[230] 杨德俊,杨卫韵,刘鹏,等.锰对大豆若干生理特性的影响[J].亚热带植物学报,2005,34(2):8-10
[231] 李国婧,周燮.水杨酸与植物抗非生物胁迫[J].植物学通报,2001,18(3):295-302
[232] 张玉秀,柴团耀.植物耐重金属机理研究进展[J].植物学报,1999,41:453-457
[233] Kawano T, Sahashi N, Takahanhi K, et al. Salycicylic acid induces extra-ellular generation of superoxide followed by an merense in cytosolic calcium ion in tobacco suspension culture: the earhest events in salicylic acid signal transduction[J]. Plant Cell Physiology, 1998, 39:721-730