Effect of High Temperature Stress on Electrical Impedance Spectroscopy Parameters of <i>Chrysanthemum</i>

LIU Yi-Chao; XIAO Jian-Zhong; YANG Ji-Shuang

doi:10.3724/SP.J.1142.2012.20198

Plant Science Journal > 2012 > (2): 198-203. > DOI: 10.3724/SP.J.1142.2012.20198 CSTR: 32231.14.SP.J.1142.2012.20198

LIU Yi-Chao, XIAO Jian-Zhong, YANG Ji-Shuang. Effect of High Temperature Stress on Electrical Impedance Spectroscopy Parameters of Chrysanthemum[J]. Plant Science Journal, 2012, (2): 198-203. DOI: 10.3724/SP.J.1142.2012.20198

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Effect of High Temperature Stress on Electrical Impedance Spectroscopy Parameters of Chrysanthemum

1.
College of Landscape Architecture and Tourism, Agricultural University of Hebei, Baoding, Hebei 071001, China
2. College of Horticulture, Agricultural University of Hebei, Baoding, Hebei 071001, China

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Received Date: August 29, 2011
Revised Date: January 04, 2012
Published Date: April 29, 2012

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Abstract

Abstract

To study the heat tolerance of chrysanthemum (Chrysanthemum morifolium),the electrical impedance spectroscopy (EIS) parameters of chrysanthemum'Jinba’stems and leaves under high temperature stress (25℃ to 50℃) were measured,and the relationship between electrolyte leakage (relative conductivity) and EIS parameters was analyzed.The results showed that extracellular resistance, intracellular resistance,and relaxation time of stems and leaves first increased and then decreased significantly with increasing temperature. However,the trends of distribution coefficient of relaxation time of stems and leaves showed irregular decrease under high temperature stress.The relative conductivity of chrysanthmum increased,then decreased,and finally increased significantly. Heat tolerance of chrysanthemum estimated by EIS parameters was close to that assessed by the EL method.Significant correlation between relative conductivity and extracellular resistance (stem: p<0.01,leaf p<0.05) and relaxation time (p<0.05) of stem and leaf were found.In conclusion,extracellular resistance and relaxation time could be suitable parameters for determining heat tolerance of chrysanthemum.
- Chrysanthemum morifolium,
- High temperature stress,
- Electrical impedance spectroscopy (EIS),
- Relative conductivity,
- Heat tolerance

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[1]	Mancuso S.Seasonal dynamics of electrical impedance parameters in shoots and leaves relate to rooting ability of olive (Olea europaea) cuttings[J].Tree Physiol, 1998, 19: 95-101.
[2]	Cox M A,Zhang M,Willison J H M.Apple bruise assessment through electrical impedance measurements[J].Hort Science, 1993, 68: 393-398.
[3]	Stout D G.Effect of cold acclimation on bulk tissue electrical impedance. I. Measurements with birdsfoot trefoil at subfreezing temperatures[J].Plant Physiol, 1988, 86: 275-282.
[4]	Zhang G,Li Y Q,Dong S H.Assessing frost hardiness of Pinus bungeana shoots and needles by electrical impedance spectroscopy with and without freezing tests[J].J Plant Ecol, 2010, 3(4): 285-293.
[5]	陈发棣,陈素梅,房伟民,刘健.五个小菊品种(或种)的耐热性鉴定[J].上海农业学报, 2001, 17: 80-82.
[6]	杨丽,杨际双.切花菊耐热性鉴定方法研究[J].西北林学院学报, 2010, 25(3): 32-35.
[7]	吴国胜,王永健,曹婉虹,姜亦巍,张丽蓉.大白菜热害发生规律及耐热性筛选方法的研究[J].华北农学报, 1995, 10(1): 111-115.
[8]	Chen H H,Shen Z Y,Li P H.Adaptability of crop plants to high temperature stress[J].Crop Sci, 1982, 22: 719-725.
[9]	徐静平,徐振华,杜克久.8种屋顶绿化木本植物的耐热性比较[J].中国农学通报, 2011, 27(6): 1-5.
[10]	赵昕,李玉霖.高温胁迫下冷地型草坪草几项生理指标的变化特征[J].草业学报, 2001, 10(4): 85-91.
[11]	Repo T,Oksanen E,Vapaavuori E.Effects of elevated concentrations of ozone and carbon dioxide on the electrical impedance of leaves of silver birch (Betula pendula) clones[J].Tree Physiol, 2004, 24: 833-843.
[12]	Repo T,Zhang G,Ryypö A,Rikala R.The electrical impedance spectroscopy of scots pine (Pinus sylvestris L.) shoots in relation to cold acclimation[J].J Exp Bot, 2000, 51: 2095-2107.
[13]	刘晓红,黄廷林,王国栋,张钢.低温胁迫对小麦叶片电阻抗图谱参数的影响[J].兰州大学学报:自然科学版, 2008, 44(6): 44-48.
[14]	孟昱,张钢,李雪平,高志民.NaCl胁迫对毛竹叶片的电阻抗图谱参数及膜透性的影响[J].武汉植物学研究, 2010, 28(3): 341-346.
[15]	张钢,肖建忠,陈段芬.测定植物抗寒性的电阻抗图谱法[J].植物生理与分子生物学报, 2005, 31(1): 19-26.

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