ZOU Yuan,WANG Xiaolong,CHEN Yaoyao,et al.Accumulation,Subcellular Distribution and Chemical Forms of Cadmium in Celery(Apium graveolens L.) Roots[J].Northern Horticulture,2017,41(02):31-37.[doi:10.11937/bfyy.201702006]
芹菜根对镉的累积及亚细胞和化学形态分布研究
- Title:
- Accumulation,Subcellular Distribution and Chemical Forms of Cadmium in Celery(Apium graveolens L.) Roots
- Keywords:
- cadmium (Cd); celery (Apium graveolens L.); accumulation; chemical form; subcellular distribution
- 文献标志码:
- A
- 摘要:
- 以芹菜品种“津南实芹1号”为试材,利用水培试验,对镉胁迫下芹菜生长、Cd吸收及亚细胞分布和化学赋存形态变化进行了研究。结果表明:芹菜植株地上部在Cd胁迫下并没有表现出明显的受毒害症状,但在高浓度Cd(40 mg?L-1)胁迫的环境下根系生长明显受到抑制。根系对Cd具有较强的积累能力,富集Cd的比例分配趋势表现为可溶性组分>细胞壁>细胞器,分析表明随着营养液中Cd浓度的增加,可溶性组分和细胞壁组分中Cd含量均显著增加,最高含量可达47.84 mg?kg-1 FW和113.60 mg?kg-1 FW。Cd浓度的变化对芹菜根组织中Cd化学形态分布的变化也有明显影响,当Cd浓度≤20 mg?L-1时,NaCl提取态Cd所占比例最高(32.45%~41.07%),说明与蛋白质、果胶酸类物质相结合或吸附的Cd比例较高;但当Cd浓度达到40 mg?L-1时,C2H5OH提取态Cd所占比例达到最高水平(62.30%),说明高Cd胁迫会造成细胞壁及质膜透性的增加,使Cd能以活性态存在于胞内;在所有Cd处理条件下HCl提取态Cd和HAc提取态Cd含量最低,说明芹菜根细胞壁中难溶性磷酸盐和草酸类物质含量较低,因而对Cd的固定化作用有限。
- Abstract:
- A hydroponics experiment combined with subcellular fractionation and sequential extraction was conducted to study the Cd concentration in different organs of celery and the Cd subcellular distribution and chemical forms in the roots with different Cd doses in nutrient solution.The results showed that no apparent injuries could be observed in the aerial part of celery.However,root growth was restrained greatly under high Cd treatment.The roots demonstrated high accumulation capacity of Cd,the Cd subcellular distribution was in the order of soluble fraction>cell wall>organelle.In addition,the Cd content in both the soluble fraction(47.84 mg?kg-1 FW to the at most) and the cell wall (113.60 mg?kg-1FW to the at most) showed increasing trend with elevated Cd supply.Chemical forms of Cd in root changed with the Cd concentration as well.When the Cd concentration in solution was less than or equal to 20 mg?L-1,the NaCl-extractable Cd was the highest (32.45%-41.07%),which indicated that the combination of Cd with protein and pectic acid might play the dominant role;when Cd supply level was up to 40 mg?L-1,the C2H5OH-extractable Cd was the highest(62.30%),which suggested that because of the high concentration of Cd stress,the cell wall and the membrane permeability increased,so the Cd ions were active in the cell,the HCl-extractable Cd and HAc-extractable Cd were the lowest under all Cd treatments,which indicated that the content of insoluble phosphate and oxalic acid in celery root cell wall was supposed to be relatively lower,contributing to the limited immobilization of Cd.
参考文献/References:
[1]余德彪,王建平,徐乐,等.中国镉资源现状分析及可持续发展建议[J].中国矿业,2015,24(4):5-8. [2]王燕燕,何加芬,徐岷,等.华中某省农村妇女膳食中的镉暴露调查分析[J].中国食品卫生杂志,2016,28(1):89-93. [3]徐劼,保积庆.芹菜根细胞壁对镉的吸附固定机制及其FTIR表征研究[J].环境科学学报,2015,35(8):2605-2612. [4]刘杨,张薇,吉普辉,等.沈阳张士灌区六种蔬菜的镉污染[J].生态学杂志,2011,30(6):1229-1233. [5]丁平,庄萍,李志安,等.镉在土壤-蔬菜-昆虫食物链的传递特征[J].应用生态学报,2012,23(11):3116-3122. [6]于辉,杨中艺,杨知建,等.不同类型镉积累水稻细胞镉化学形态及亚细胞和分子分布[J].应用生态学报,2008,19(10):2221-2226. [7]李枝.Cd胁迫下杂交水稻不同部位Cd的化学形态和亚细胞分布研究[D].成都:四川农业大学,2009. [8]HAO X Q,LI T X,YU H Y,et al.Cd accumulation and subcellular distribution in two ecotypes of Kyllinga brevifolia Rottb as affected by Cd treatments[J].Environmental Science and Pollution Research,2015(22):7461-7469. [9]WU F B,DONG J,QIAN Q Q,et al.Subcellular distribution and chemical form of Cd and Cd-Zn interaction in different barley genotypes[J].Chemosphere,2005,60:1437-1446. [10]段敏,马往校,李岚.17种蔬菜中铅铬镉元素含量分析研究[J].干旱区资源与环境,1999,13(4):74-80. [11]廖琴,王胜利,南忠仁,等.干旱区绿洲土壤中Cd、Pb、Zn、Ni复合污染对芹菜的影响及其富集迁移规律[J].干旱区资源与环境,2011,25(7):173-177. [12]DU R J,HE E K,TANG Y T,et al.How phytohormone IAA and chelator EDTA affect lead uptake by Zn/Cd hyperaccumulator Picris divaricate[J].International Journal of Phytoremediation,2011(13):1024-1036. [13]GEFFARD A,SARTELET H,GARRICC J,et al.Subcellular compartmentalization of cadmium,nickel,and lead in Gammarus fossarum:comparison of methods[J].Chemosphere,2010,78:822-829. [14]邹金华,张忠贵,魏爱琪.毛葱的镉吸收积累及亚细胞分布特征[J].天津师范大学学报(自然科学版),2014,34(1):72-77. [15]FU X P,DOU C M,CHEN Y X,et al.Subcellular distribution and chemical forms of cadmium in Phytolacca americana L.[J]Journal of Hazardous Materials,2011,186:103-107. [16]GODBOLD D L,KETTNER C.Lead influences root growth and mineral nutrition of Picea abies seedlings[J].Journal of Plant Physiology,1991,139:95-99. [17]EUN S O,YOUN H S,LEE Y S.Lead disturbs microtubule organization in the root meristem of Zea mays[J].Physiologia Plantarum,2000,110:357-365. [18]MALKOWSKI E,KITA A,GALAS W,et al.Lead distribution in corn seedlings(Zea mays L.)and its effect on growth and the concentrations of potassium and calcium[J].Plant Growth Regulation,2002,37:69-76. [19]CORNU J Y,BAKOTO R,BONNARD O,et al.Cadmium uptake and partitioning during the vegetative growth of sunflower exposed to low Cd2+ concentrations in hydroponics[J].Plant and Soil,2016(1):1-13. [20]HUANG B F,XIN J L,DAI H W,et al.Identification of low-Cd cultivars of sweet potato (Ipomoea batatas (L.) Lam.) after growing on Cd-contaminated soil:uptake and partitioning to the edible roots[J].Environmental Science and Pollution Research,2015(22):11813-11821. [21]刘清泉,陈亚华,沈振国,等.细胞壁在植物重金属耐性中的作用[J].植物生理学报,2014,50(5):605-611. [22]杨亚洲,张春华,郑青松,等.碱蓬和滨藜对镉和钠吸收、转运及亚细胞分布特性的比较研究[J].农业环境科学学报,2015,34(4):619-626. [23]WENG B S,XIE X Y,WEISS D J,et al.Kandelia obovata (S.,L.)yong tolerance mechanisms to cadmium:Subcellular distribution,chemical forms and thiol pools[J].Marine Pollution Bulletin,2012,64:2453-2460. [24]董萌,赵运林,库文珍,等.蒌蒿对镉的富集特征及亚细胞分布特点[J].植物学报,2013,48(4):381-388. [25]郑绍建.细胞壁在植物抗营养逆境中的作用及其分子生理机制[J].中国科学(生命科学),2014,44(4):334-341. [26]周守标,徐礼生,吴龙华,等.镉和锌在皖景天细胞内的分布及化学形态[J].应用生态学报,2008,19(11):2515-2520. [27]WANG X,LIU Y G,ZENG G M,et al.Subcellular distribution and chemical forms of cadmiun in Bechmeria nivea(L.) Gaud[J].Environmental and Experimental Botany,2008,62:389-395. [28]SHARMA P,DUBEY R S.Lead toxicity in plants[J].Brazilian Journal of Plant Physiology,2005(17):35-52. [29]白雪,陈亚慧,耿凯,等.镉在三色堇中的积累及亚细胞与化学形态分布[J].环境科学学报 2014,34(6):1600-1605. [30]ZHANG J,TIAN S K,LU L L,et al.Lead tolerance and cellular distribution in Elsholtzia splendens using synchrotron radiation micro-X-ray fluorescence[J].Journal of Hazardous Materials,2011,197:264-271. [31]陆仲烟,刘仲齐,宋正国,等.大麦中镉的亚细胞分布和化学形态及PCs合成的基因型差异[J].农业环境科学学报,2013,32(11):2125-2131. [32]王俊丽,任建国.镉在不同类型蕹菜(Ipomoea aquatica Forsk.)中的积累及其化学形态和分子分布[J].生态学杂志,2014,33(6):1594-1600. [33]ALARCON A L,MADRID R,ROMOJARO F,et al.Calcium forms in leaves of muskmelon plants grown with different calcium compounds[J].Journal of Plant Nutrition,1998(21):1897-1912. [34]钟海涛,潘伟斌,张太平,等.小飞扬草(Euphorbia thymifolia L.)中镉的亚细胞分布及化学形态[J].环境保护科学,2013,39(3):50-54. [35]HE S Y,WU Q L,HE Z L.Effect of DA-6 and EDTA alone or in combination on uptake,subcellular distribution and chemical form of Pb in Lolium perenne[J].Chemosphere,2013,93:2782-2788.
相似文献/References:
[1]陈 丽,黄学峰,王学铭,等.芹菜覆膜穴播压沙栽培品种比较试验[J].北方园艺,2014,38(12):21.
CHEN Li,HUANG Xue-feng,WANG Xue-ming,et al.Comparison Experiment of Celery Varieties by Plastic Film Mulching Sand Cultivation[J].Northern Horticulture,2014,38(02):21.
[2]王艳芳,曹 玲,陈宝悦,等.咸淡水交替灌溉对芹菜生长及品质的影响[J].北方园艺,2014,38(10):5.
WANG Yan-fang,CAO Ling,CHEN Bao-yue,et al.Effect of Alternative Irrigation With Saline and Fresh Water on?Growth and Quality of Celery[J].Northern Horticulture,2014,38(02):5.
[3]李雪芳,王林权,尚浩博,等.小白菜和小青菜对镉、汞、砷的富集效应及影响因素[J].北方园艺,2014,38(01):16.
LI Xue-fang,WANG Lin-quan,SHANG Hao-bo,et al.The Enrichment Effect of Cd,Hg and As onBrassica chinensisandBrassica pekinensisand Its Influencing Factors[J].Northern Horticulture,2014,38(02):16.
[4]曹玲,刘溪静,李楠茜,等.NaCl胁迫对芹菜种子萌发和幼苗生长的影响[J].北方园艺,2013,37(15):20.
CAO Ling,LIU Xi-jing,LI Nan-xi,et al.Effects of NaCl Stress on Seeds Germination and Seedling Growth of Celery Varieties[J].Northern Horticulture,2013,37(02):20.
[5]朱鑫,沈火林.高温胁迫对芹菜幼苗细胞膜稳定性的影响[J].北方园艺,2014,38(07):15.
ZHU Xin,SHEN Huo-lin.Effect of High Temperature Stress on Cell Membrane in Celery Seedlings[J].Northern Horticulture,2014,38(02):15.
[6]王武台.,吴锋,高国训.,等.芹 菜 遗 传 育 种 研 究 进 展[J].北方园艺,2012,36(01):177.
WANG Wu-tai.,WU Feng,GAO Guo-xun.,et al.Research Progress on Genetic and Breeding of Celery[J].Northern Horticulture,2012,36(02):177.
[7]邹原东,陈秀新,范继红.空间搭载对芹菜生物量积累及生理特性的影响[J].北方园艺,2013,37(19):41.
ZOU Yuan-dong,CHEN Xiu-xin,FAN Ji-hong.Effects of Space Flight on Biomass and Physiological Characteristics of Celery[J].Northern Horticulture,2013,37(02):41.
[8]司海丽,孙权,王锐,等.马铃薯渣有机肥对土壤结构及芹菜品质和产量的影响[J].北方园艺,2013,37(19):168.
SI Hai-li,SUN Quan,WANG Rui,et al.Effect of Potato Waste Organic Fertilizer on Soil Structure and Celery Yield and Quality[J].Northern Horticulture,2013,37(02):168.
[9]刘秀艳.芹菜“3414”肥料试验[J].北方园艺,2012,36(15):33.
LIU Xiu-yan.The Test on ‘3414’ Fertilizer of Celery[J].Northern Horticulture,2012,36(02):33.
[10]何芳芳,张德刚,陈雅顺.重金属复合污染对芹菜生长的影响[J].北方园艺,2012,36(20):5.
HE Fang-fang,ZHANG De-gang,CHEN Ya-shun.Effect of Combined Heavy Metals Pollution on the Growth of Celery[J].Northern Horticulture,2012,36(02):5.
备注/Memo
第一作者简介:邹圆(1995-),女,江西抚州人,本科,研究方向为土壤重金属植物污染化学及农产品安全。E-mail:zouyuan132@sina.com.责任作者:徐劼(1975-),男,博士,讲师,现主要从事土壤重金属植物污染化学及农产品安全等研究工作。E-mail:xujie1688@126.com.基金项目:嘉兴市科技计划资助项目(2012AY1046);嘉兴学院重点“SRT计划”资助项目(851715059)。