Study on Pathogen and Bio-control of Dampingoff Disease in Pseudostellaria heterophylla in Qiandongnan Prefecture of Guizhou Province

2015-12-14 08:32GuohuiZHANGLongWANGYongquanRENDingxiangHECaiwuLANChengmingFANYuhongCHENZanminHU
Agricultural Science & Technology 2015年10期
关键词:太子参真菌学报

Guohui ZHANG , Long WANG, Yongquan REN, Dingxiang HE, Caiwu LAN, Chengming FAN, Yuhong CHEN, Zanmin HU

1. Department of Environmental and Life Sciences, Kaili College, Kaili 556000, China;

2. Institute of Microbiology, Chinese Academy of Sciences, Beijing 100101, China;

3. Guizhou Changhao Traditional Chinese Medicine Development Co., Ltd., Kaili 556000, China;

4. Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China

Pseudostellaria heterophylla(Caryophyllaceae)refers to the roots of radix pseudostellariae,and it has functions of tonifying qi and nourishing blood, promoting salivation and strengthening the spleen and stomach. Pseudostellaria heterophylla is a commonly-used tonic herb. Pseudostellaria heterophylla has recently made some new progresses in the treatment of hepatitis, diabetes, coronary heart disease,angina,secondary aplastic anemia, leukopenia, hyperthyroidism, lymphatic and other incurable diseases in clinics[1]. In recent years,functional health products of Pseudostellaria heterophylla have been constantly developed, such as Pseudostellaria heterophylla compound oral liquid and capsules.Moreover,the extract of Pseudostellaria heterophylla has been applied in the development of cosmetics. The market demand for Pseudostellaria heterophylla is increased year by year, so its price also rises[2]. Currently, Pseudostellaria heterophylla has been included in the list of "list of herbs that can be used for health food" by the Ministry of Health,and it is a kind of expensive medicine.

Pseudostellaria heterophylla,as a vigorously promoted and developed variety in Guizhou Province during the Twelfth Five-Year Plan,has huge economic benefits.Due to increased market demand, the acreage of Pseudostellaria heterophylla has been rapidly increased in Qiandongnan Prefecture, and its continuous cropping area has also been increased.The harm and species of fungal diseases that occur in Pseudostellaria heterophylla are increased year by year, resulting in yield of Pseudostellaria heterophylla reduced by 15%-50%[3]. Therefore, it is critical to carryout investigation on fungal diseases in Pseudostellaria heterophylla and studies on relevant prevention techniques. It has been found that viral disease, leaf spot, southern blight,root rot and spot disease are common diseases in Pseudostellaria heterophylla[4-8]. In addition, there are also some reports on damping-off disease in Pseudostellaria heterophylla, but they do not introduce pathogen pictures and relevant bio-control measures. Damping-off disease occurs more and more frequently in Pseudostellaria heterophylla in Qiandongnan Prefecture of Guizhou Province,and its onset period is extended gradually. To reduce the harm of disease and use of chemicals, the pathogen and bio-control measures of dampingoff disease in Pseudostellaria heterophylla were detailedly introduced in this paper.

Materials and Methods

Test time and site

The outdoor survey was carried out in the cultivation fields of Guizhou Changhao Traditional Chinese Medicine Development Co., Ltd. in Shipo Village, Yiwanshui Town, Huangping County, Qiandongnan Prefecture from May, 2011 to May, 2014. The indoor test was carried out in the laboratory of Institute of Genetics and Development Biology, Chinese Academy of Sciences.

Materials

Sample collection The samples were also collected from the cultivation fields of Guizhou Changhao Traditional Chinese Medicine Development Co., Ltd. in Shipo Village, Yiwanshui Town, Huangping County, Qiandongnan Prefecture from May, 2011 to May,2014.The occurrence characteristics and symptoms of diseases in Pseudostellaria heterophylla were recorded.Fresh samples were collected for pathogen isolation and identification.

Test medium The used medium was PSA medium,and its components were as follows:potato 200 g,sucrose 15-20 g, agar 17 g and water 1 000 ml. PSA medium was sterilized at 121°C for 20 min before use.

Apparatus and instruments and reagents The used main apparatus and instruments included high-press steam sterilizer, clean bench, stove,microwave oven, thermostatic incubator, microscope and transplantation needles.

The used main reagents included industrial alcohol(70%),mercuric chloride solution (0.1%) and streptomycin(purity of 95%).

The used bio-control strain was GH 18(Bacillus spp.).

Methods

Observation and description of symptoms The morphology, color,size and harm extent of lesions on tissue surface of Pseudostellaria heterophylla were observed, and the diseased parts were photographed.

Isolation,purification and culture of pathogen The pathogen in diseased parts of Pseudostellaria heterophylla was isolated using tissue isolation method. The diseased tissues (4-5 mm) on the edge of lesions were cut off. They were soaked in 70% ethanol for 2-3 s, and then soaked in 0.1%mercuric chloride solution for 2 min.Subsequently, the diseased tissues were rinsed three times with sterile water. Finally, they were incubated in PSA medium at 28 ℃for 3-5 d. After the culture, the mycelia around the tissues were picked and inoculated on medium plate added with streptomycin and cultured for another 5-7 d. Thus the pure culture of pathogen was obtained. The pathogen was photographed under a microscope, and the sizes of hyphae and spores were measured and recorded. The pathogen in diseased soil was isolated using the dilution plate method. The soil dilution was first prepared. It was inoculated on beef extract peptone plate. The plate was inverted and placed in an incubator at 37 ℃for 2-3 d. The colonies were picked and purified until the pure culture of pathogen was obtained.The pathogen was photographed under a microscope, and the sizes of hyphae and spores were measured and recorded.

Dual test between bio-control strain and pathogenic strain The pathogenic strain was first inoculated in a plate, and the bio-control strain broth was then inoculated on both sides of the strain using a sterilized toothpick. The plate was inverted and placed in an incubator at 37 ℃for 2-3 d.

Results and Analysis

Symptoms of damping-off disease in Pseudostellaria heterophylla

The lesions of damping off were mainly shown at the base of young stems. After pathogen invaded the stems, water-soaked brown spots first appeared at the base of stems. The spots were extended rapidly around the stems,depressed gradually and finally constricted into waspish shape,resulting in lodging and death of young seedlings. The diseased parts, in the length of about 1-2 cm, were brown,and there was apparent boundary between the healthy and diseased parts.Damping-off disease developed rapidly,and the leaves were still green and fresh when the young seedlings got flattened. The recent surveys show that the onset period of damping-off disease is relatively long in fields, and it occurs in a large scale from February to May of every year. When damping off occurs in fields, the spots extend around rapidly,resulting in lodging and death of a large number of seedlings(Fig.1,Fig.2).

Morphological characteristics of pathogen

The newly-generated hyphae were colorless and transparent, and they were distributed at a right or nearly right angle. The hyphae were constricted slightly at the branch. There were clear diaphragms among the mycelia. The mature mycelia were brown with a diameter of about 5-7 μm(Fig.3).

According to the morphological characteristics, the pathogen was identified as Rhizoctonia solani Kuhn,which belongs to Eumycota, Deuteromycotina, Agonomycetales and Rhizoctonia.

The pathogen isolated from the diseased soil was identified as Alternaria alternate, which belongs to Eumycota, Deuteromycotina, Hyphomycetes and Hyphomycetales.The conidiophores had single or multiple branches in diameter of 3-6 μm.They were knee-shaped, brown and separated. The conidia were dark brown,bunchy and pour clavate.They had obtuse tops, smaller bases, but had no beaks. The conidia had 1-4 thoracic diaphragms and 1-2 longitudinal diaphragms(Fig.4).

Bio-control test of GH18

The GH18 strain (Bacillus spp.)isolated from soil was used in the dual test. The results showed that GH18 strain had significant inhibitory effect on Rhizoctonia solani(Fig.5).The dual test between Alternaria alternate and GH18 strain showed that GH18 strain could produce clear inhibition zone,and it had significant inhibitory effect on Alternaria alternate(Fig.6).

Conclusions and Discussion

Pseudostellaria heterophylla is one of expensive medicinal plants,and its nutritional and medicinal value has been utilized by medicine. Pseudostellaria heterophylla occupies an important position in the traditional Chinese medicine market. However,diseases and pests have been one of constraints to high yield and quality of Pseudostellaria heterophylla[10].Fungal diseases directly reduce yield and quality of Pseudostellaria heterophylla.Even worse, pathogens may produce a variety of toxins and secondary metabolites harmful to humans and animals during their invasion, greatly threatening people’s health and security[11-12]. In addition, prevention and control of major fungal diseases in plants often depends on chemicals.The use of chemical pesticides not only increases the cost of production,but also leads to environmental pollution and pesticide residues in agricultural products, resulting in serious harm to livestock and the environment. Therefore, bio-control measures should be adopted according to occurrence regularity and pathogenesis of fungal disease and resistance mechanism of host plant to further reduce the adverse effects of viral disease on yield and quality of Pseudostellaria heterophylla,as well as environmental pollution and pesticide residues in agricultural products.

In China,there are rare reports on damping-off disease in Pseudostellaria heterophylla, let alone detained description and photographs. In this study, the damping-off disease and its pathogen Rhizoctonia solani in Pseudostellaria heterophylla were described in detail, and the biological control measures were discussed.

At the seedling stage, the damping-off disease in Pseudostellaria heterophylla is caused by Rhizoctonia solani.Rhizoctonia solani is widely distributed in nature,and it is mainly fromsoil.Rhizoctonia solani is adapted to a wide range of soil pH,but it is a kind of parasite preferring acidic environment.In soil, Rhizoctonia solani mainly lives in humus and diseased plants, and it can survive 2-3 years in general. Under favorable conditions, damping-off disease caused by Rhizoctonia solani may outbreak. If Pseudostellaria heterophylla is infected with Rhizoctonia solani before the seedling stage,Pseudostellaria heterophylla seedlings may not emerge. After the emergence of Pseudostellaria heterophylla seedlings, Rhizoctonia solani mainly infects the stems of plants, and the spots are mainly shown in basal stems of seedlings. Rhizoctonia solani is distributed in the farming and non-farming soil across the world,and can be easily isolated from infected plants and soil. It has a wide host range, and can cause many plant diseases, such as damping off at seedling stage and sheath blight in cereal crops[13].Damping-off disease in Pseudostellaria heterophylla is mainly caused by Rhizoctonia solani carried in seeds and soil.Moreover, poor growth, poor resistance, bad weather and poor soil drainage at seedling stage aggravate the disease.

Rhizoctonia solani overwinters in the form of mycelium and sclerotia in soil or host residual organizations.When Pseudostellaria heterophylla seeds germinate next year, Rhizoctonia solani invades into young organizations, leading to rot and death of seedlings. Rhizoctonia solani can live a saprophytic life as long as 2-3 years,and it is mainly spread by the rain and farming operations. Under conditions of successive-day high temperature or rain,poor drainage and poor light environment in seedbed, the pathogen would infect seedlings in height about 17 cm. Generally, when it is rainy and cold, the diseases occurs more seriously;when it is rainy and hot,the disease occurs in more adult plants[14].Chen et al.[15]found that regardless of whether the Rhizoctonia solani Kuhncarried seeds were disinfected,damping-off disease would occur at the seedling stage if the soil was not disinfected,and the incidence was 16.2%-18.1%. On the contrary, when the soil was disinfected, the damping-off disease did not occur at the seedling stage. It is confirmed that the infection source of damping-off disease at the seedling stage is from the soil rather than seeds. But in the actual cultivation process, soil disinfection is infeasible unless soil biological disinfection techniques are adopted[15-16].

In addition, fertilization also has great impact on soil microorganisms.Numerous studies have shown that the application of fertilizers, especially of nitrogen fertilizer, can promote the growth of Fusarium, Verticillium, Rhizoctonia and other soil-borne diseases[17-18].Alternaria alternate in soil is spread with the rain in the form of conidia, and their pycnidia overwinter on diseased residues.Next year,conidia cause primary infection, and after the onset, newly-produced conidia cause secondary infection. Especially under conditions of rainy weather,extensive management and poor growth of plants,the disease occurs more seriously. The pathogen lives a saprophytic life, and is distributed in soil,plant residues,industrial materials and air. It can parasitize many plants, and aggravate the occurrence of damping off in Pseudostellaria heterophylla.

Bio-control measures are critical for prevention and control damping-off disease in Pseudostellaria heterophylla due to the following reasons: Alternaria alternate carried in seeds and soil is difficult to be removed; soil disinfection is infeasible; damp and lowtemperature cultivation environment is unlikely to be changed; chemicals may lead to adverse consequences.It is reported that Bacillus circulans and Bacillus polymyxa have antagonistic effect on Rhizoctonia solani,the pathogen of damping-off disease in Pseudostellaria heterophylla[13,19-20].The antagonistic substances produced by Bacillus mainly include antibiotics,bacteriocins, cell wall degrading enzymes and other antimicrobial proteins and volatile antimicrobial substances.Among them, antimicrobial proteins make important contribution to inhibitory effect of Bacillus. Currently,the antagonistic bacteria used as biological fungicides include mainly Bacillus subtilis and Bacillus lichenformis.The development and utilization of antagonistic bacteria and their metabolites,as well as the development of efficient, stable and adaptable new antagonistic bacteria by genetic engineering, is the future development trend of bio-control bacteria[21].The biocontrol test in this study showed that GH18 strain has significant inhibitory effect on Rhizoctonia solani, and has great antagonistic effect, so GH18 strain can be studied in depth.

In short, since damping-off disease occurs seriously in Pseudostellaria heterophylla and it is difficult to be controlled and prevented, comprehensive measures must be adopted to control and prevent this disease. The comprehensive control may focus on bio-control (such as Bacillus spp.) and agricultural prevention. On the basis of disinfection of soil and seeds[22-24],the soil should be avoided from high moisture content and the nursing management should be strengthened under the assistance of chemical and physical control. At appropriate time,safe, low-toxicity and residue, efficient and practical pesticides, along with bio-control agents, should be used to reduce drug resistance of pathogens of diseases and pests in Pseudostellaria heterophylla[19-25]. The adoption of pathogen-free seeds is the most direct and effective way to prevent and reduce the degree of harm. In addition,newly-cultivated fields can be selected,and Pseudostellaria heterophylla can also be intercropped with rice[7-9].The results of this study indicate that bio-control strain of Bacillus spp. is feasible and necessary in control and prevention of damping-off disease in Pseudostellaria heterophylla in Qiandongnan Prefecture of Guizhou Province.

[1]WU CF (吴朝峰),LIN YQ (林彦铨).Advances in studies on Taizishen (药用植物太子参的研究进展)[J].Journal of Fujian Agriculture and Forestry University(Natural Sciences)(福建农林大学学报:自然科学版),2004,33(4):426.

[2]LIU XH (刘训红), KAN YM (阚毓铭).Overview on studies on Pseudostellaria heterophylla ( 太子参研究概述)[J].Lishizhen Med Mater Med Res (时珍国医国药),2004,11(12):1131.

[3]WEN XS (温学森), HUO DL (霍德兰),ZHAO HY (赵华英). Control and prevention of common diseases and pests in Pseudostellaria heterophylla (太子参常见病害及其防治)[J].Journal of Chinese Medicinal Materials ( 中药材),2003,26(4):243-244.

[4]SONG ZH (宋荣浩), PU ZQ (濮祖芹).Control of Taizishen virus diseases (太子参病毒病的防治途径)[J]. Acta Agriculturae Shanghai (上海农业学报),1994,10(4):59-62.

[5]SANG WJ (桑唯钧),XIONG JW (熊继文),SONG BA(宋宝安),et al.Survey on and prevention of main fungal diseases in Pseudostellaria heterophylla in Guizhou Province(贵州太子参主要真菌病害的调查与防治)[J].Journal of Anhui Agricultural Sciences (安徽农业科学),2006,34(14):3314-3316,33181.

[6]LI Z (李忠),PAN ZP (潘仲坪),SUN XX(孙兴旭), et al. Investigation of major pest species on Pseudostellaria heterophylla and its controlling in Shibing County (施秉县太子参主要病虫害种类调查及防治)[J]. China Plant Protection(中国植保导刊),2013,6:26-29.

[7]ZHANG GH(张国辉), ZHANG XP(张西平),GE DX (贺定翔).Investigation and prevention of leaf spot in Radix pseudostellariae in Southeast State of Guizhou Province(贵州省黔东南州太子参斑点病的调查及防治)[J]. Journal of Anhui Agricultural Sciences(安徽农业科学),2011,39(7):3993-3994,3999.

[8]LONG GQ (龙光泉),MA DH (马登慧),XIA ZM (夏忠敏),et al.Pseudostellaria heterophylla main disease occurrence regulation and control countermeasure in Shibing County(施秉县太子参主要病虫害的发生规律与防治对策)[J].Tillage and Cultivation (耕作与栽培), 2013, 2:46-55.

[9]LI Z (李忠),XUN XX (孙兴旭),PAN ZP(潘仲萍), et al. Pseudostellaria heterophylla root disease occurrence and integrated control in Shibing County(施秉县太子参根部病害发生及综合治理)[J].Tillage and Cultivation (耕作与栽培),2013,2:32-33.

[10]FU XS(傅兴圣),LIU XH(刘训红),XU H( 徐虎), et al. Research status and trends of pseudostellariae radix (太子参研究现状与研发趋势)[D]. Chinese Journal of New Drugs(中国新药杂志),2012,21(7):757-760.

[11]QIU DW (邱德文).Current status and development strategy for biological control of plant diseases in China(我国植物病害防治的现状及发展策略)[D].Beijing: Chinese Academy of Agricultural Sciences(北京:中国农业科学院),2010.

[12]XU JY(徐敬友), ZHANG HD(张华东),ZHANG H (张红), et al. Production of Rhizoctonia solani toxin and relationship between the toxin and its virulence(立枯丝核菌毒素的产生及与致病力的关系)[J]. Journal of Yangzhou University (扬州大学学报),2004,25(2):61-64.

[13]YANG JH(杨金红).Research progress in the biocontrol of plant diseases caused by Rhizoctonia(丝核菌属真菌病害生物防治研究进展)[J]. Hubei Agricultural Sciences (湖北农业科学),2009,48(10):2581-2583.

[14]LU FK (吕偑珂), SU HL (苏慧兰),ZHANG JX(张建勋),et al.Colors illustrations of pests in food crops, economical crops and medicinal plants of China (中国粮食作物经济作物药用植物病虫原色图鉴)[M].Hohhot:Distance Press(呼和浩特:远方出版社),1999.

[15]CAO AC (曹坳程),ZHANG WJ (张文吉),LIU JH(刘建华).Progresses in the alternatives to methyl bromide in soil disinfection (溴甲烷土壤消毒替代技术研究进展)[J].Plant Protection (植物保护),2007,33(1):15-20.

[16]LI MS (李明社),LI SD (李世东),MIAO ZQ (缪作清), et al. Biofumigation for management of soil borne plant diseases (生物熏蒸用于植物土传病害治理的研究)[J].Chinese Journal of Biological Control (中国生物防治),2006,22(4):296-302.

[17]ZHOU Y (周宇).Cause analysis and main control measures of current soil borne diseases in greenhouse(近年来温室土传病害发生较重的原因分析及主要防治措施)[J].Agriculture of Henan(河南农业),2013,1:26.

[18]CHEN YS (陈玉森), QI JM (祁建民),FANG SM(方树民),et al.Relationship between kenaf seed borne fungi and the seedlings diseases (红麻种子携带真菌与苗期病害发生的关系)[J].Journal of Fujian Agriculture and Forestry University (福建农林大学学报),2003,32(4):438-442.

[19]YUAN BB(袁兵兵), ZHANG HQ(张海青),CHEN J(陈静).Research progress of microbial pesticides (微生物农药研究进展)[J].Journal of Shandong Institute of Light Industry (山东轻工业学院学报),2010,24(1):45-49.

[20]MA XM (马晓梅).New advances in research on and application of microbial pesticides in China(我国微生物农药研究与应用的新进展)[J]. Journal of Wuhan Institute of Science and Technology (武汉科技学院学报),2006,19(11):42-46.

[21]QI DM (齐东梅). Classification and identification of Bacilli from Chinese traditional medicine and food and antagonistic characterization of Bacillus subtilis H110(药食源芽孢杆菌的分类鉴定及枯草芽孢杆菌H110 抑菌特性研究)[D].Beijing: China Agricultural University(北京:中国农业大学),2005,17:23-29.

[22]CHENG L (程亮),YOU CP (游春平),XIAO AP (肖爱萍).Advances in the study on antagonistic bacteria (拮抗细菌的研究进展) [J].Journal of Jiangxi Agricultural University (江西农业大学学报),2003,25(5):732-737.

[23]LU P, GILARDI G, GULLINO M L, et al. Biofumigation with Brassicaplants and its effect on the inoculum potential of Fusarium yellowsof Brassica crops[J]. European Journal of Plant Pathology,2010,126:387-402.

[24]MOTISI N, MNOTFORT F, FALOYA V,et al.Growing Brassica junceaas acover crop, then incorporating its residues provide complementarycontrol of Rhizoctonia root rot of sugar beet [J]. Field Crops Research, 2009,113:238-245.

[25]ZHANG ZG(张智广).The present state and control strategy on herb insects pest and disease in Guizhou Province(贵州省中草药病虫害的现状与防治对策)[J]. Journal of Guizhou University(Natural Sciences)(贵州大学学报:自然科学版),2003,20(2):180-183.

猜你喜欢
太子参真菌学报
国内太子参种质资源与遗传育种研究进展
《北京航空航天大学学报》征稿简则
《北京航空航天大学学报》征稿简则
闽产太子参主产区连续式清洗机的设计及应用效果
光照诱导太子参叶片黄化的机制
《北京航空航天大学学报》征稿简则
《北京航空航天大学学报》征稿简则
Effects of Different Extract of Pseudostellaria Heterophylla on Immunological Function in Mice based on Meta-analysis and Network Meta-analysis
LC-MS在真菌毒素检测中的研究进展
千奇百怪的真菌