外源调节物质对干旱胁迫下格木幼苗生理特性的影响

doi:10.11707/j.1001-7488.20201018

摘要/Abstract

摘要：

目的: 分析不同浓度甜菜碱（BT）、水杨酸（SA）、茉莉酸甲酯（MeJA）和氯化钙（CaCl₂）处理对干旱胁迫下格木幼苗抗逆生理指标的影响，探索缓解格木幼苗干旱伤害的可行方法，为格木的栽培与推广提供技术参考。方法: 以1年生格木幼苗为材料，叶面喷施不同浓度BT、SA、MeJA和CaCl₂溶液后，置于浓度为30%的聚乙二醇（PEG-4000）溶液环境中进行模拟干旱胁迫。设置2组对照（CK）：CK₁为喷施蒸馏水，置于正常土壤环境，CK₂为喷施蒸馏水，置于浓度为30%的PEG-4000溶液环境。干旱胁迫处理10天时，测定格木幼苗叶片细胞膜透性、丙二醛（MDA）、脯氨酸（PRO）、可溶性蛋白、可溶性糖、叶绿素含量（SPAD值）以及超氧化物歧化酶（SOD）、过氧化物酶（POD）、过氧化氢酶（CAT）等抗氧化酶活性。结果: 与CK₁相比，干旱胁迫显著抑制CK₂格木幼苗叶片抗氧化酶活性，加重干旱条件对细胞膜的伤害，致使细胞膜结构受损，细胞膜功能被破坏，进而引起格木幼苗叶片相对电导率和MDA含量显著上升。干旱胁迫也会导致叶绿体结构被破坏，不能正常进行光合作用。与CK₂相比，叶面喷施调节物质可以显著提高格木幼苗叶片PRO、可溶性蛋白和可溶性糖含量，减轻格木幼苗叶片因干旱而导致的细胞失水；提高POD、SOD、CAT抗氧化酶活性，有效清除细胞内过多的活性氧，避免膜脂过氧化的发生，显著降低叶片MDA含量和相对电导率，使细胞膜系统代谢正常，减轻干旱胁迫对格木幼苗叶片造成的伤害，并可提高叶片SPAD值，减弱干旱对光合作用的抑制作用。随着处理浓度的升高，除CaCl₂溶液外，其余3种外源调节物质对格木幼苗干旱伤害的缓解作用呈现先增强后减弱的趋势。结论: 叶面喷施浓度为500 mg·L^-1的BT、100 mg·L^-1的SA、1 mmol·L^-1的MeJA、5 mmol·L^-1的CaCl₂溶液可明显减轻在干旱胁迫下对格木幼苗叶片的伤害，提高格木幼苗的抗旱能力。

关键词: 格木, 干旱胁迫, 调节物质, 生理生化

Abstract:

Objective: This study investigated the effects of different concentrations of betaine (BT), salicylic acid (SA), methyl jasmonate (MeJA) and calcium chloride (CaCl₂) on stress resistance of Erythrophleum fordii seedlings under drought stress, in order to find a feasible method to alleviate the drought damage of E. fordii seedlings, and provide technical reference for the cultivation and promotion of E. fordii. Method: The annual E. fordii seedlings were used as materials. Different concentrations of BT, SA, MeJA and CaCl₂ solutions were sprayed on the leaves, and then the root system with the culture medium was dipped in a concentration of 30% PEG-4000 solution for simulating a drought stress. Two groups of controls (CK) were set up. CK₁ was sprayed with distilled water on the leaves and the root was maintained in a normal soil environment. CK₂ was sprayed with distilled water on the leaves and the root system was placed in a concentration of 30% PEG-4000 solution. Cell membrane permeability, malondialdehyde (MDA), proline (PRO), soluble protein, soluble sugar, chlorophyll content (SPAD value), and superoxide dismutase (SOD), peroxidase (POD), catalase (CAT) antioxidant enzyme activity of E. fordii seedlings leaves were measured on the 10th day after drought stress treatment. Result: Compared with CK₁, drought stress significantly inhibited the antioxidant enzyme activities of leaves of CK₂, and aggravated the damage of cell membrane by drought conditions, resulting in damage to cell membrane structure and destruction of cell membrane function, which led to significant increases in relative conductivity and MDA content of leaves of seedlings. Drought stress was also able to cause the destruction of chloroplast structure, and hence impeded normal photosynthesis. Compared with CK₂, foliar application of signal substances significantly increased the content of PRO, soluble protein and soluble sugar in the leaves, and reduced the water loss caused by drought in leaves of seedlings. In addition, the foliar application of signal substances improved POD, SOD and CAT antioxidant enzymes, andactively and effectively removed excess reactive oxygen species in cells, avoided membrane lipid peroxidation, significantly reduced leaf MDA content and relative conductivity, normalized cell membrane system metabolism, and alleviated the damage caused by drought stress on leaves of seedlings. The foliar application of signal substances increased the SPAD value of leaves and reduced the inhibition of photosynthesis by drought. With the increase of the treatment concentration, except for the CaCl₂ solution, the other three kinds of exogenous signal substances hada tendency to attenuate the drought damage to the seedlings. Conclusion: Foliar application of 500 mg·L^-1 BT, 100 mg·L^-1 SA, 1 mmol·L^-1MeJA, and 5 mmol·L^-1 CaCl₂ solution can significantly alleviate drought stress and improve the drought resistance of E. fordii seedlings.

Key words: Erythrophleum fordii, drought stress, regulating chemicals, physiology and biochemistry

中图分类号:

孙明升,胡颖,陈旋,罗群凤,杨章旗. 外源调节物质对干旱胁迫下格木幼苗生理特性的影响[J]. 林业科学, 2020, 56(10): 165-172.

Mingsheng Sun,Ying Hu,Xuan Chen,Qunfeng Luo,Zhangqi Yang. Effects of Exogenous Regulating Substances on Physiological Characteristics of Erythrophleum fordii Seedlings under Drought Stress[J]. Scientia Silvae Sinicae, 2020, 56(10): 165-172.

图/表 1

表1

外源调节物质对干旱胁迫下格木幼苗叶片细胞膜透性、保护酶系统、渗透调节物质与叶绿素含量的影响①"

处理 Treatment	浓度 Concentration	细胞膜透性 Cell membrane permeability		保护酶系统 Protective enzyme system			渗透调节物质 Osmoregulation substances			叶绿素含量 Chlorophyll content
处理 Treatment	浓度 Concentration	MDA含量 MDA contents/ (μmol·L^-1FW)	相对电导率 Relative conductivity(%)	POD活性 POD activity/ (U·g^-1min^-1 FW)	SOD活性 SOD activity/ (U·g^{- 1}min^-1FW)	CAT活性 CAT activity/ (mg·g^-1min^-1FW)	脯氨酸含量 Proline content/ (μg·g^-1FW)	可溶性蛋白含量 Soluble protein content / (mg·g^-1FW)	可溶性糖含量 Soluble sugar content/ (mg·g^-1FW)	SPAD值 SPAD value
	100 mg·L^-1	0.036 2±0.002 0bc	11.588±0.014e	12 229.56±1 050.872efg	215.97±36.854de	297.871±5.041b	423.879±11.630g	11.952±0.255d	4.912±1.347h	20.967±6.769e
BT	500 mg·L^-1	0.034 0±0.001 3bc	10.147±0.004ef	17 102.22± 1 848.584c	311.45±18.410ab	441.602±27.062a	740.656±65.832cd	16.740±0.245a	12.840±0.412a	33.700±6.150a
	1 000 mg·L^-1	0.043 0±0.000 4ab	11.245±0.006ef	10 505.45±107.291g	229.19±16.467cde	260.676±43.435bc	318.485±2.925h	8.104±0.357ef	6.625±1.292g	20.783±3.584e
	25 mg·L^-1	0.039 0±0.004 1b	14.075±0.005 d	13 285.13±470.787e	298.54±33.807ab	142.394±49.463d	628.784±20.603e	8.247±0.195ef	8.664±0.118de	26.350±2.556cd
SA	100 mg·L^-1	0.020 5±0.001 1de	11.348±0.007e	18 377.40±672.009c	345.80±81.097a	244.559±27.828c	1 345.019±62.548a	16.270±1.620a	12.274±0.806ab	28.517±5.528bc
	200 mg·L^-1	0.029 5±0.001 1cd	13.841±0.031de	15 236.27±1 294.342d	236.06±26.749cd	61.541±1.872f	517.230±14.601f	12.106±0.674cd	11.183±0.817bc	19.183±0.977ef
	0.1 mmol·L^-1	0.0287±0.000 5cd	14.273±0.011d	11 802.67±666.039efg	273.39±16.357bc	92.404±17.538ef	716.545±16.712 d	8.341±0.321ef	8.868±0.579de	23.067±4.023de
MeJA	1 mmol·L^-1	0.025 0±0.009 9cd	9.361±0.004ef	24 263.47±1 133.546a	341.50±16.375a	419.156±46.146a	1 166.759±36.714b	14.963±0.077b	10.928±0.513c	32.783±2.414ab
	3 mmol·L^-1	0.036 7±0.005 2bc	9.754±0.011ef	11 839.49±703.537efg	228.23±14.844cde	175.088±14.544 d	536.532±31.126f	11.360±0.783d	9.766±0.220d	28.100±5.261c
	5 mmol·L^-1	0.023 6±0.008 7cd	13.676±0.027de	20 217.10±1 494.820b	303.97±4.068ab	256.431±20.562bc	790.425±12.194c	13.143±1.011c	11.770±0.541abc	34.133±3.828a
CaCl₂	20 mmol·L^-1	0.038 9±0.001 4b	23.632±0.027b	12 306.87±422.480ef	272.70±5.706bc	171.787±48.483d	498.965±12.125f	8.710±0.021e	9.105±0.677d	15.900±2.081fg
	40 mmol·L^-1	0.048 6±0.000 6a	24.561±0.001ab	1 1673.53±1 477.271efg	229.39±37.808cde	138.454±23.333de	365.632±45.670 h	8.039±0.348ef	7.852±0.486ef	12.500±1.173g
CK₁	0	0.0144±0.000 8e	8.850±0.006f	20 805.64±1 174.467b	331.18±5.671a	79.553±13.947f	255.024±11.782i	6.658±0.204f	7.503±0.181fg	35.117±3.960a
CK₂	0	0.050 9±0.002 2a	26.180±0.011a	10 618.40±923.255fg	183.14±7.753e	175.217±21.537d	437.274±6.146g	7.400±0.446f	4.962±0.344h	22.317±2.010de

表1

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