Physiological Response of Chinese Fir (<i>Cunninghamia lanceolata</i>) Seedlings Under Acid and/or Aluminum Stresses

WANG Pei; ZHANG Jia-jun; LIU Cui; MA Zhi-hui; CHEN Yu; LIN Si-zu

doi:10.19303/j.issn.1008-0384.2019.07.015

Volume 34 Issue 7

Jul. 2019

Turn off MathJax

Article Contents

Article Navigation > Fujian Journal of Agricultural Sciences > 2019 > 34(7): 852-857

WANG Pei, ZHANG Jia-jun, LIU Cui, MA Zhi-hui, CHEN Yu, LIN Si-zu. Physiological Response of Chinese Fir (Cunninghamia lanceolata) Seedlings Under Acid and/or Aluminum Stresses[J]. Fujian Journal of Agricultural Sciences, 2019, 34(7): 852-857. doi: 10.19303/j.issn.1008-0384.2019.07.015

Citation:

WANG Pei, ZHANG Jia-jun, LIU Cui, MA Zhi-hui, CHEN Yu, LIN Si-zu. Physiological Response of Chinese Fir (Cunninghamia lanceolata) Seedlings Under Acid and/or Aluminum Stresses[J]. Fujian Journal of Agricultural Sciences, 2019, 34(7): 852-857. doi: 10.19303/j.issn.1008-0384.2019.07.015

Citation:

PDF( 1389 KB)

Physiological Response of Chinese Fir (Cunninghamia lanceolata) Seedlings Under Acid and/or Aluminum Stresses

doi: 10.19303/j.issn.1008-0384.2019.07.015

WANG Pei^{1, 2
,},
ZHANG Jia-jun^{1, 2},
LIU Cui^{1, 2},
MA Zhi-hui^{2, 3},
CHEN Yu^{1, 2
,
,},
LIN Si-zu^{1, 2}

1.
College of Forestry, Fujian Agriculture and Forestry University, Fuzhou, Fujian 350002, China
2.
State Forestry Administration Engineering Research Center of Chinese Fir, Fuzhou, Fujian 350002, China
3.
College of Life Sciences, Fujian Agriculture and Forestry University, Fuzhou, Fujian 350002, China

Received Date: 2018-11-09
Rev Recd Date: 2019-06-28
Publish Date: 2019-07-20

Abstract

Abstract

Objective The antioxidant enzyme activities and respond mechanism of Chinese fir (Cunninghamia lanceolata) under acid and/or aluminum stresses were investigated. Method A pot experiment was conducted to determine the MDA content and SOD, POD, CAT, and PPO activities in one-year-old leaves of Chinese fir seedlings under the stress for 15, 30 or 45 d. At the rate of 0.24 g·kg^-1, AlCl₃ 6H₂O was applied to the pots to simulate an aluminum stress, a pH 4.0 acid solution added to simulate an acid stress, and the combination of the two incorporated to simulate an acid-aluminum stress. Result Without the presence of acid or aluminum, the potted seedlings had a low content of MDA in the leaves. However, the addition of acid, aluminum or acid-aluminum combination induced excessive accumulation of MDA with the severities ranking as acid-aluminum stress > aluminum stress > acid stress. The addition also raised the POD and SOD activities in leaves with a rank of acid-aluminum stress > acid stress > aluminum stress, and the CAT and PPO activities in the order of acid-aluminum stress > aluminum stress > acid stress. A prolonged treatment caused an initial increase on the POD and SOD activities followed by a decline; and on the CAT activity similarly under the aluminum or acid-aluminum stress but a steady increase under the acid stress; whereas, a gradual increase on the PPO activity under any of the 3 treatments. Conclusion The acid, aluminum or acid-aluminum stress affected the POD, SOD, CAT and PPO activities in the leaves to varying extents and raised MDA accumulation in the leaves of Chinese fir seedlings. There appeared to be a synergistic effect on the activities between acid and aluminum. But alone, the acid stress exerted a greater effect on POD and SOD than did aluminum, whereas, aluminum seemed to be a more formidable adversary than acid for the seedlings on CAT and PPO.
- Chinese fir,
- acid-aluminum stress,
- oxidase activity,
- MDA

FullText(HTML)

References(21)

References

[1]	KOCHIAN L V, HOEKENGA O A, PIÑEROS M A. How do crop plants tolerate acid soils? Mechanisms of aluminum tolerance and phosphorous efficiency[J]. Annual Review of Plant Biology, 2004, 55(1):459-493. doi: 10.1146/annurev.arplant.55.031903.141655
[2]	GUPTA N, GAURAV S S, KUMAR A. Molecular Basis of Aluminium Toxicity in Plants:A Review[J]. American Journal of Plant Sciences, 2013, 4(12C):21-37. http://cn.bing.com/academic/profile?id=0aca10f7aab37092e5645d1108de9585&encoded=0&v=paper_preview&mkt=zh-cn
[3]	WRIGHT R J, BALIGAR V C, RITCHEY K D, et al. Influence of soil solution aluminum on root elongation of wheat seedlings[J]. Plant & Soil, 1989, 113(2):294-298. http://cn.bing.com/academic/profile?id=58488a1714414324171d2b61bf150b6d&encoded=0&v=paper_preview&mkt=zh-cn
[4]	曹林, 马丽, 吴玉环, 等.菊芋对酸铝复合胁迫的生理响应[J].生态环境学报, 2016, 25(2):233-240. http://d.old.wanfangdata.com.cn/Periodical/tryhj201602008 CAO L, MA L, WU Y H, et al. Physiological Responses of Helianthus tuberosus to Acid-aluminum Stress[J]. Ecology and Environmental Sciences, 2016, 25(2):233-240.(in Chinese) http://d.old.wanfangdata.com.cn/Periodical/tryhj201602008
[5]	BOSE J, BABOURINA O, MA Y, et al. Specificity of Ion Uptake and Homeostasis Maintenance During Acid and Aluminium Stresses[M]//Aluminum Stress Adaptation in Plants. Springer International Publishing, 2015: 269-77.
[6]	李朝苏, 刘鹏, 蔡妙珍, 等.荞麦对酸铝胁迫生理响应的研究[J].水土保持学报, 2005, 19(3):105-109. doi: 10.3321/j.issn:1009-2242.2005.03.026 LI C S, LIU P, CAI M Z, et al. Physiological Response of Buckwheat to Acid-Aluminum Stress in Growth[J]. Journal of Soil and Water Conservation, 2005, 19(3):105-109.(in Chinese) doi: 10.3321/j.issn:1009-2242.2005.03.026
[7]	王维君, 陈家坊, 何群.酸性土壤交换性铝形态的研究[J].科学通报, 1991, 36(6):460-463. http://d.old.wanfangdata.com.cn/Conference/281709 WANG W J, CHEN J F, HE Q. Study on Exchangeable Aluminum Species in Acidic Soils[J]. Chinese Science Bulletin, 1991, 36(6):460-463.(in Chinese) http://d.old.wanfangdata.com.cn/Conference/281709
[8]	阮少宁, 林婷, 王成伟, 等.铝胁迫对不同杉木无性系质膜透性的影响[J].安徽农学通报, 2008, 14(19):145-146. doi: 10.3969/j.issn.1007-7731.2008.19.069 RUAN S N, LIN T, WANG C W, et al. Effects of Aluminum Stress on Plasma Membrane Permeability of Different Chinese Fir Clones[J]. Anhui Agricultural Science Bulletin, 2008, 14(19):145-146.(in Chinese) doi: 10.3969/j.issn.1007-7731.2008.19.069
[9]	许小丽, 崔朋辉, 林思祖, 等.铝胁迫下杉木幼苗体内几种矿质元素含量变化及其相关性[J].福建农业学报, 2015, 30(12):1178-1183. doi: 10.3969/j.issn.1008-0384.2015.12.009 XU X L, CUI P H, LIN S Z, et al. Changes and Correlations of Minerals in Seedlings of Chinese Fir Under Aluminum Stress[J]. Fujian Journal of Agricultural Sciences, 2015, 30(12):1178-1183.(in Chinese) doi: 10.3969/j.issn.1008-0384.2015.12.009
[10]	许小丽, 崔朋辉, 林思祖, 等.不同供铝水平对杉木幼苗生长的影响[J].广东农业科学, 2016, 43(7):45-50. http://d.old.wanfangdata.com.cn/Periodical/gdnykx201607008 XU X L, CUI P H, LIN S Z, et al. Effects of different levels of aluminum on growth of Chinese fir seedlings[J]. Guangdong Agricultural Sciences, 2016, 43(7):45-50.(in Chinese) http://d.old.wanfangdata.com.cn/Periodical/gdnykx201607008
[11]	李树斌, 翁闲, 王士亚, 等.铝胁迫及营养复合作用对杉木幼苗抗氧化酶活性的影响[J].福建农林大学学报(自然科学版), 2015, 44(3):264-269. http://d.old.wanfangdata.com.cn/Periodical/fjnydxxb201503008 LI S B, WENG X, WANG S Y, et al. Combined effects of aluminum and nutrient on the antioxidant enzymes of Chinese fir seedlings[J]. Journal of Fujian Agriculture and Forestry University(Natural Science Edition), 2015, 44(3):264-269.(in Chinese) http://d.old.wanfangdata.com.cn/Periodical/fjnydxxb201503008
[12]	MA Z, HUANG B, XU S, et al. Ion Flux in Roots of Chinese Fir[Cunninghamia lanceolata (Lamb.) Hook] under Aluminum Stress[J]. PLoS One, 2016, 11(6):1-14. http://cn.bing.com/academic/profile?id=2ee9fdb38f8f3524254f4fd099da7da3&encoded=0&v=paper_preview&mkt=zh-cn
[13]	谢寅峰, 杨万红, 杨阳, 等.外源一氧化氮对模拟酸雨胁迫下箬竹(Indocalamus barbatus)光合特性的影响[J].生态学报, 2007, 27(12):5193-5201. doi: 10.3321/j.issn:1000-0933.2007.12.029 XIE Y F, YANG W H, YANG Y, et al. Effects of exogenous nitric oxide on photosynthetic characteristic of Indocalamus barbatus under a simulated acid rain stress condition[J]. Acta Ecologica Sinica, 2007, 27(12):5193-5201.(in Chinese) doi: 10.3321/j.issn:1000-0933.2007.12.029
[14]	李会云, 郭修武.盐胁迫对葡萄砧木叶片保护酶活性和丙二醛含量的影响[J].果树学报, 2008, 25(2):240-243. http://d.old.wanfangdata.com.cn/Periodical/gskx200802019 LI H Y, GUO X W. Influence of NaCl on activities of protective enzymes and MDA content in grape rootstock leaves[J]. Journal of Fruit Science, 2008, 25(2):240-243.(in Chinese) http://d.old.wanfangdata.com.cn/Periodical/gskx200802019
[15]	苏涛, 司美茹, 王仁君, 等.酸雨与重金属复合胁迫对绞股蓝抗性生理指标的影响[J].山东农业科学, 2014(8):61-65. doi: 10.3969/j.issn.1001-4942.2014.08.016 SU T, SI M R, WANG R J, et al. Effects of Combined Stress of Acid Rain and Heavy Metals on Resistant Physiological Indexes of Gynostemma pentaphyllum[J]. Shandong Agricultural Sciences, 2014(8):61-65.(in Chinese) doi: 10.3969/j.issn.1001-4942.2014.08.016
[16]	张宇婷, 高建民, 张琼琳, 等.植物超氧化物歧化酶的研究进展[J].畜牧与饲料科学, 2016, 37(9):28-31. doi: 10.3969/j.issn.1672-5190.2016.09.009 ZHANG Y T, GAO J M, ZHANG Q L, et al. Research Progress on Plant Superoxide Dismutase[J]. Animal Husbandry and Feed Science, 2016, 37(9):28-31.(in Chinese) doi: 10.3969/j.issn.1672-5190.2016.09.009
[17]	于姣妲, 李莹, 殷丹阳, 等.杉木对低磷胁迫的响应和生理适应机制[J].林业科学研究, 2017, 30(4):566-575. http://d.old.wanfangdata.com.cn/Periodical/lykxyj201704005 YU J D, LI Y, YIN D Y, et al. Response and Physiological Mechanism of Chinese Fir to Low Phosphorus Stress[J]. Forest Research, 2017, 30(4):566-575.(in Chinese) http://d.old.wanfangdata.com.cn/Periodical/lykxyj201704005
[18]	陈佳华, 李霞, 郑剑英, 等.低温下不同处理对甘薯生理指标和酚类代谢的影响[J].食品科技, 2018, 43(10):50-54. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=spkj201810008 CHEN J H, LI X, ZHENG J Y, et al. Effects of different treatments on the physiological indexes and phenolic metabolism of sweet potato under low temperature[J]. Food Science and Technology, 2018, 43(10):50-54.(in Chinese) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=spkj201810008
[19]	刘强, 柳正葳, 龙婉婉, 等.芒萁、玉米对酸铝胁迫生理响应的比较[J].江苏农业科学, 2017, 45(2):65-69. http://d.old.wanfangdata.com.cn/Periodical/jsnykx201702017 LIU Q, LIU Z W, LONG W W, et al. Comparative effects of low pH value and aluminum toxicity on physiological responses between Dicranopteris dichotoma and Zea mays[J]. Jiangsu Agricultural Sciences, 2017, 45(2):65-69.(in Chinese) http://d.old.wanfangdata.com.cn/Periodical/jsnykx201702017
[20]	吴若菁, 庄捷, 黄婧, 等.马尾松幼苗对模拟酸雨与铝胁迫的响应及其抗性机制[J].林业科学, 2009, 45(12):22-29. http://d.old.wanfangdata.com.cn/Periodical/lykx200912004 WU R J, ZHUANG J, HUANG J, et al. Responses and Resistance Mechanism of Pinus massoniana under the Stresses of Simulated Acid Rain and Aluminum[J]. Scientia Silvae Sinicae, 2009, 45(12):22-29.(in Chinese) http://d.old.wanfangdata.com.cn/Periodical/lykx200912004
[21]	魏国余, 刘云.酸铝对不同速生桉无性系叶片抗氧化酶活性的影响[J].北华大学学报(自然科学版), 2015, 16(3):379-384. http://d.old.wanfangdata.com.cn/Periodical/bhdxxb201503024 WEI G Y, LIU Y. Effects of Acid-Aluminum on the Activities of Antioxidant Enzymes in the Leaves of Different Fast-growing Eucalyptus Clone[J]. Journal of Beihua University(Natural Science), 2015, 16(3):379-384.(in Chinese) http://d.old.wanfangdata.com.cn/Periodical/bhdxxb201503024