Comprehensive Evaluation on Drought Resistance of Different Flue-cured Tobacco Cultivars in Bijie Tobacco Growing Area

Xinyan FU,Xin ZHAI,Xue CHEN,Gong CHENG,Hongchen LI,Qiwei YU,Xiaoquan ZHANG,Tiezhao YANG*

1.College of Tobacco Science,Henan Agricultural University,Henan 450002,China;

2.Bijie Subsidiary of Guizhou Tobacco Company,Bijie 551700,China;

3.Xuchang Tobacco Monopoly Bureau,Xuchang 461000,China

Comprehensive Evaluation on Drought Resistance of Different Flue-cured Tobacco Cultivars in Bijie Tobacco Growing Area

Xinyan FU1,3,Xin ZHAI2,Xue CHEN2,Gong CHENG3,Hongchen LI1,Qiwei YU2,Xiaoquan ZHANG1,Tiezhao YANG1*

1.College of Tobacco Science,Henan Agricultural University,Henan 450002,China;

2.Bijie Subsidiary of Guizhou Tobacco Company,Bijie 551700,China;

3.Xuchang Tobacco Monopoly Bureau,Xuchang 461000,China

Based on pot experiments,major agronomic traits,biomass accumulation, leaf water-holding capacity,relative water content,root MDA content,root proline content and other physiological indicators of four different flue-cured tobacco cultivars under drought stress were investigated,and drought resistance in various fluecured tobacco cultivars was comprehensively analyzed with subordinate function method,aiming at clarifying the differences in drought resistance among various flue-cured tobacco cultivars.The results indicated that under drought stress,major agronomic traits,fresh and dry mass accumulation,and leaf relative water content of four different flue-cured tobacco cultivars were reduced significantly;the decreasing range of Yunyan 87 reached the minimum,followed by Bina 1,while Qianxi 1 demonstrated the maximum decreasing range.Leaf water-holding capacity of various flue-cured tobacco cultivars showed a descending order of Yunyan 87＞Bina 1＞Qianxi 1＞Jiucaiping 2.MDA content and proline content in roots of various fluecured tobacco cultivars increased significantly;to be specific,Yunyan 87 and Bina 1 exhibited a slight increase in root MDA content and a significant increase in root proline content,while Jiucaiping 2 and Qianxi 1 showed an opposite trend.According to the results of comprehensive analysis with subordinate function method, drought resistance in various flue-cured tobacco cultivars showed a descending order of Yunyan 87＞Bina 1＞Jiucaiping 2＞Qianxi 1.

Flue-cured tobacco;Cultivar;Drought resistance;Subordinate function

I n recent years,global climate deterioration is becoming increasingly evident,which shortens the drought cycles,thereby posing a serious threat to crop production.As an important cash crop in China,tobacco grows best in warm and humid climate,with high water requirements during the whole growth period.Bijie tobacco growing area is located in southwest China.Due to lack of necessary irrigation facilities,water deficiency has become a major factor restricting the cultivation and quality formation of flue-cured tobacco[1].Therefore,strengthening the theoretical research of drought resistance in fluecured tobacco cultivars and breeding high-quality drought-resistant fluecured tobacco cultivars has become one of the issues to be solved in tobacco science and technology in Bijie tobacco growing area.

At present,a large number of studies have been conducted on drought resistance in flue-cured tobacco cultivars.Ren et al.[2]comprehensively evaluated drought resistance in flue-cured tobacco cultivars with subordinate function method and found that highly drought-resistant flue-cured tobacco cultivars exhibited relatively high leaf water-holding capacity,net photosynthetic rate,

Materials and Methods

Materials

Four flue-cured tobacco cultivars in Bijie tobacco growing areas were selected as experimental materials, including Yunyan 87,Bina 1,Qianxi 1 and Jiucaiping 2.Tobacco seeds were provided by the tobacco breeding laboratory in Henan Agricultural University. Potting soils was collected from from the plough horizon in the field,which belonged to loam soils and contained 0.87 g/kg total nitrogen,11.96 g/kg organic matter,54.12 mg/kg rapidly available phosphorus,126.41 mg/kg rapidly available potassium and 53.72 mg/kg alkali-hydrolyzable nitrogen,pH 7.8.

Experimental design

The experiment was carried out under plastic sheeting in the Science Garden of Henan Agricultural University in 2013.The potted seedlings were planted under limited water condition,and the relative soil water content was controlled with weighing method.After forcing of germination,flue-cured tobacco seeds were sown on seedbed for seedling raising.After emergence of 6-7 true leaves,flue-cured tobacco seedlings with uniform growth were selected,transplanted into plastic pots and cultivated under plastic sheeting.One tobacco seedling was planted in each pot;each cultivar was planted in 45 pots.NH4NO3, KH2PO4and KNO3were applied as nitrogen fertilizer,phosphate fertilizer and potassium fertilizer,respectively.The application amount of nitrogen fertilizer (pure nitrogen)and phosphate fertilizer(P2O5)was 2.5 g/plant;N∶P2O5∶K2O= 1∶1∶2.Fertilizers and soils were mixed evenly and loaded into the pots,16.5 kg soil/pot.The moisture content was measured every 3 d with weighing method to maintain relatively water holding capacity at about 75%.Droug-ht stress experiment was carried out at 40 d post-incubation.Three treatments were designed, including normal water supply treatment,mild drought stress treatment and severe drought stress treatment,in which relative soil water content was 80%,60% and 40%,respectively.At 20 d post-treatment,the fifth leaf from the top of fluecured tobacco seedling was collected as the experimental material(avoiding the main vein)to determine physiological indicators.Each indicator was measured three times.

Determination items and methods

Leaf water-holding capacity was determined in accordance with the method proposed by Zhang et al.[8];leaf relative water content was determined in accordance with the method proposed by Bajji et al.[9];root MDA content was determined with thiobarbituric acid(TAB)colorimetric meth-od[10];proline content was determined in accordance with the method proposed by Zou et al.[11];drought resistance was evaluated comprehensively with subordinate function method[12]as follows:

(1)Subordinate function values of different physiological indicators of various flue-cured tobacco cultivars

Where,X indicates the ratio of indicator value to control value under drought conditions.When indicator value was negatively correlated with drought resistance,Xij=1-(X-Xjmin)/(Xjmax-Xjmin),where Xijindicates the subordinate function value of physiological trait j of flue-cured tobacco cultivar i;Xjminindicates the minimum value of physiological trait j of each cultivar;Xjmaxindicates the maximum value of physiological trait j of each cultivar.

(2)Subordinate function value Xijmildunder mild drought conditions and subordinate function value Xijsevereunder severe drought conditions.(Xijmild+Xijsevere)/2 represents the average subordinate function value of physiological trait j of cultivar i under mild and severe drought conditions,denoted by Ui.The average value Uiwas calculated to represent the level of drought resistance.Greater Uivalue indicates higher drought resistance.

Data analysis

Variance analysis and mean significant difference test of experimental data were performed using SPSS17.0 statistical software.

Results and Analysis

Effects of drought stress on major agronomic traits of different flue-cured tobacco cultivars

Under drought conditions,flue-cured tobacco plants exhibit retarded growth and development,poor root development,inhibited stem elongation,reduced leaf size and plant height[13].As could be seen from Table 1,drought stress affected significantly major agronomic traits of different flue-cured tobacco cultivars.The analysis of variance showed extremely significant differences among different flue-cured tobacco cultivars(F0.05=4.07;F0.01=7.59).Under normal water supply and drought stress conditions,Yunyan 87 and Bina 1 exhibited better growth than Jiucaiping 2 and Qianxi 1.With the increase of drought stress level,plant height,stem circumference,maximum leaf length,maximum leaf width and root volume of four flue-cured tobacco cultivars showed varying degrees of decrease.To be specific,plant height and root volume were significantly affected by drought stress.

Effects of drought stress on biomass accumulation of different flue-cured tobacco cultivars

Biomass accumulation is the final performance of plant growth and development.Under drought conditions, the amount and reduction of biomass can be used as indicators to identify drought resistance[2,14-15].As shown in Fig.1,with the increase of drought stress level,dry and fresh mass accumulation of four flue-cured tobacco cultivars declined significantly compared with that in normal water supply treatment.Under normal water supply conditions,dry and fresh mass accumulation of different flue-cured tobacco cultivars demonstrated a descending order of Yunyan 87＞Bina 1＞Jiucaiping 2＞Qianxi 1.Under mild drought conditions,Qianxi 1 was the most sensitive,exhibiting a significant reduction in dry and fresh mass accumulation(26.02%,29.22%),followed by Jiucaiping 2(24.48%,25.93%); Yunyan 87 exhibited the minimum reduction in dry and fresh mass accumulation(17.33%,19.36%).Under severe drought conditions,the growth of tobacco plants was further inhibited,and the reduction in dry and fresh mass accumulation increased significantly. Qianxi 1 exhibited the maximum reduction in dry and fresh mass accumulation(52.21%,66.00%),while Yunyan 87 exhibited the minimum reduction in dry and fresh mass accumulation (34.43%,46.28%).Therefore,Yunyan87 and Bina 1 were insensitive to drought stress,which were more resistant to drought stress compared with Qianxi 1 and Jiucaiping 2.

Effects of drought stress on leaf water-holding capacity and relative water content of different flue-cured tobacco cultivars

Leaf water-holding capacity is positively correlated with plant drought resistance.Higher leaf water-holding capacity indicates stronger drought resistance;conversely,drought resistance is poorer[16-17].As shown in Fig. 2(A),leaf water-holding capacity of four flue-cured tobacco cultivars varied significantly,which demonstrated a descending order of Yunyan 87＞Bina 1＞Qianxi 1＞Jiucaiping 2.Although there was no significant difference between Yunyan 87 and Bina 1, these two flue-cured tobacco cultivars varied extremely significantly compared with Qianxi 1 and Jiucaiping 2,respectively.

Table 1Effects of drought stress on major agronomic traits of different flue-cured tobacco cultivars

The change in leaf relative water content is an adaptive response of tobacco plants to drought stress,which can to some extent reflect the level of drought resistance[2,18].As shown in Fig.2(B),under the same conditions, leaf relative water content of different flue-cured tobacco cultivars demonstrated a descending order of Yunyan 87＞Bina 1＞Jiucaiping 2＞Qianxi 1. With the increase of drought stress level,relative water content of tobacco leaves declined remarkably and varied significantly among different flue-cured tobacco cultivars.Compared with normal water supply conditions,leaf relative water content of Yunyan87 was reduced by 2.17%and 7.61%with the minimum variation,exhibiting strong anti-dehydration capacity;leaf relative water content of Qianxi 1 was reduced by 6.98%and 20.93%with the maximum variation,exhibiting weak antidehydration capacity.

Effects of drought stress on root MDA content and proline content of different flue-cured tobacco cultivars

Malonaldehyde(MDA)is a product of membrane lipid peroxidation. Under drought stress,the increase of MDA content can be used as an important physiological indicator to evaluate plant resistance[19-20].As shown in Fig.3(A),under normal water supply conditions,MDA content in roots of different flue-cured tobacco cultivars exhibited no significant difference.Under mild drought conditions,MDA content in roots of Qianxi 1 and Jiucaiping 2 was significantly higher than that in roots of Bina 1 and Yunyan 87.Compared with normal water supply conditions,MDA content in roots of Jiucaiping 2,Qianxi 1,Bina 1 and Yunyan 87 was improved by 23.83%,20.94%, 16.67%and 12.01%,respectively.Under severe drought conditions,MDA content in roots of Qianxi 1,Jiucaiping 2,Bina 1 and Yunyan 87 was improved by 66.07%,60.44%,40.23% and 31.28%,respectively.Therefore, Yunyan 87 and Bina 1 could maintain relatively high activities of endogenous protective enzymes,remove excess free radicals,and reduce lipid-membrane peroxidation damage under drought conditions.

The accumulation of a large amount of free proline is an adaptive biochemical metabolic response of plants to drought stress that can enhance osmotic adjustment ability of plants,resist external osmotic stress and improve the stability of protoplasmic colloid as a determinant of stable material metabolism[20-21].As shown in Fig.3(B),under normal water supply conditions,root proline content exhibited no significant difference among different flue-cured tobacco cultivars. Under mild drought conditions,root proline content of Yunyan 87 and Bina 1 was significantly higher than that of Qianxi 1 and Jiucaiping 2.Under severe drought conditions,differences in root proline content further increased among different flue-cured tobacco cultivars.Under mild and severe drought conditions,root proline content of Bina 1 and Yunyan 87 was improved by 219.30%,486.76%and 188.91%,406.39%,respectively,indicating that these two flue-cured tobacco cultivars had strong osmotic adjustment ability and high drought resistance;root proline content of Jiucaiping 2 and Qianxi 1 was improved by 94.42%,177.93%and 78.67%,134.63%, respectively,indicating that these two flue-cured tobacco cultivars had weak osmotic adjustment ability and could be remarkably affected by drought stress.

Comprehensive evaluation of drought resistance of different fluecured tobacco cultivars

Subordinate function method is a commonly used comprehensive evaluation method in the evaluation of plant drought resistance.The droughtresistance of four different flue-cured tobacco cultivars under drought stress was shown in Table 2.Based on comprehensive evaluation of drought resistance,subordinate function values of different flue-cured tobacco cultivars demonstrated a descending order of Yunyan 87＞Bina 1＞Jiucaiping 2＞Qianxi 1.Therefore,Yunyan 87 had the highest drought resistance,followed by Bina 1;Qianxi 1 had the lowest drought resistance.

Table 2Subordinate function values(Ui)of different flue-cured tobacco cultivars

Conclusion and Discussion

Different flue-cured tobacco cultivars vary significantly in the sensitivity and tolerance to drought stress. Drought stress leads to photosynthetic metabolism disorder,reduction in photosynthetic products,poor plant growth and significant decline in leaf biomass accumulation(especially for sensitive varieties)[20],thereby remarkably affecting tobacco yield and quality.In this study,under drought conditions,major agronomic traits and fresh and dry mass accumulation of four flue-cured tobacco cultivars were inhibited to varying degrees.To be specific,plant height and root volume were significantly inhibited.Yunyan 87 exhibited the minimum reduction in biomass accumulation,showing relatively high drought resistance.Qianxi 1 exhibited the maximum reduction in biomass accumulation,showing high sensitivity to drought stress and low drought resistance.

Wang et al.[17]and Ni et al.[22]reported that leaf relative water content of highly drought-resistant flue-cured tobacco cultivars declined slightly and slowly,maintaining good water balance;conversely,lowly drought-resistant flue-cured tobacco cultivars exhibited poor water balance,and leaf growth was inhibited significantly.In this study,Yunyan87 has strong leaf water-holding capacity,with the minimum reduction in leaf relative water content under drought conditions, showing high drought tolerance; Qianxi 1 has poor leaf water-holding capacity,with the maximum reduction in leaf relative water content under drought conditions,showing low drought tolerance.

MDA content and proline content of tobacco plants increase under drought conditions.Large amounts of MDA will destroy the structure and function of cell membranes,thereby remarkably affecting normal physiological metabolism of tobacco plants. As an osmotic adjustment substance, proline accumulated in tobacco plants can not only maintain intracellular water balance,but also protect the stability of proteins.In this study,under drought conditions,MDA content in roots of Yunyan 87 and Bina 1 increased slightly;proline content in roots of Yunyan 87 and Bina 1 was significantly higher compared with Jiucaiping 2 and Qianxi 1,indicating that Yunyan 87 and Bina 1 can maintain relatively high activities of endogenous protective enzymes to remove oxygen free radicals under drought conditions. In addition,the accumulation of a large amount of proline is conducive to reducing osmotic potential and enhancing the ability to resist drought stress.

The drought resistance of crops is related to crop species,genotype, morphological characters,physiological and biochemical responses,which can also be affected by the level,occurrence period and duration of drought stress[23-24].The drought resistance of flue-cured tobacco is a complex quantitative trait that is affected by genetic and environmental factors, which should be comprehensively evaluated based on various indicators. In this study,under three treatments (normal water supply,mild drought stress and severe drought stress), drought resistance-related physiological indicators of shoots and roots of four flue-cured tobacco cultivars were determined,and the drought resistance of different flue-cured tobacco cultivars was comprehensively evaluated with subordinate function method. According to the results,the drought resistance of four flue-cured tobacco cultivars demonstrated a descending order of Yunyan 87＞Bina 1＞Jiucaiping 2＞Qianxi 1.

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Responsible editor:Xiaohui FAN

Responsible proofreader:Xiaoyan WU

畢節(jié)特色烤煙品種抗旱性評價(jià)

符新妍1，翟欣2，陳雪2，程功3，李洪臣1，喻奇?zhèn)?，張小全1，楊鐵釗1*（1.河南農(nóng)業(yè)大學(xué)煙草學(xué)院，河南鄭州450002；2.貴州省煙草公司畢節(jié)地區(qū)公司，貴州畢節(jié)551700；3.許昌市煙草專賣局，河南許昌461000）

采用盆栽試驗(yàn)，研究了4個(gè)烤煙品種在干旱脅迫條件下的主要農(nóng)藝性狀、生物量積累、葉片保水力、相對含水量、根系丙二醛、脯氨酸含量等生理指標(biāo)，并通過隸屬函數(shù)法對各品種的抗旱性進(jìn)行綜合分析，以期明確烤煙品種間抗旱性的差異。結(jié)果表明：在干旱脅迫條件下，4個(gè)烤煙品種的主要農(nóng)藝性狀、干鮮重積累量及葉片相對含水量均顯著下降，云煙87下降幅度最小，畢納1號次之，黔西1號下降幅度最大；葉片保水力表現(xiàn)為云煙87＞畢納1號＞黔西1號＞韭菜坪2號；各烤煙品種根系丙二醛含量和脯氨酸含量均顯著增加，云煙87和畢納1號丙二醛含量增加量較少，脯氨酸含量增加量較大，韭菜坪2號和黔西1號則相反；隸屬函數(shù)法綜合分析發(fā)現(xiàn)抗旱性由強(qiáng)到弱順序?yàn)樵茻?7＞畢納1號＞韭菜坪2號＞黔西1號。

烤煙；品種；抗旱性；隸屬函數(shù)biomass and ABA content,and relatively low MDA content,with slight changes in most of the indicators(except ABA content).Shang et al.[3]found that highly drought-resistant flue-cured tobacco cultivars could maintain relatively high total root absorption area,active absorption area, root vitality and protective enzyme activity under drought stress.Currently, many studies have been carried out about the effects of drought stress on different tobacco varieties[4],growth stages[5],photosynthetic physiological characteristics[6]and physiological and biochemical characteristics[7].In this study,drought conditions were simulated with artificial water-control method to determine the drought resistance-related physiological and biochemical indicators of four different flue-cured tobacco cultivars in Bijie tobacco growing area and comprehensively analyze the drought resistance in different flue-cured tobacco cultivars with subordinate function method, aiming at clarifying the differences in drought resistant capacity among different flue-cured tobacco cultivars, selecting appropriate varieties for fluecured tobacco cultivation under drought conditions,and providing theoretical guidance for the identification of drought resistance in flue-cured tobacco.

貴州省煙草公司畢節(jié)市公司科技項(xiàng)目“畢節(jié)特色烤煙品種的深度挖掘與配套技術(shù)研究”。

符新妍（1988-），女，河南南陽人，碩士研究生，從事煙草遺傳育種研究，E-mail：fxy1988fxy@163.com。*通訊作者，楊鐵釗，博士生導(dǎo)師，教授，主要從事煙草遺傳育種研究，E-mail：yangtiezhao@126.com。

2015-04-27

修回日期 2015-05-18

Supported by Science and Technology Project of Bijie Subsidiary of Guizhou Tobacco Company"Study on In-depth Searching and Supporting Techniques of Distinctive Fluecured Tobacco Cultivars in Bijie".

*Corresponding author.E-mail:yangtiezhao@126.com

Received:April 27,2015 Accepted:May 18,2015