A Bioassay for Testing Garlic Resistance to Leaf Blight Caused by Stemphylium vesicarium

Jin Ju Lee; Hun Kim; Jin-Cheol Kim; Gyung Ja Choi

doi:10.7235/HORT.20220030

All Issue

2022 Vol.40, Issue 3 Preview Page Next Page

Research Article

A Bioassay for Testing Garlic Resistance to Leaf Blight Caused by Stemphylium vesicarium 마늘잎마름병균(Stemphylium vesicarium)에 대한 효율적인 마늘의 저항성 검정법 개발

30 June 2022. pp. 324-337

PDF XML

Abstract

Leaf blight caused by Stemphylium vesicarium is an important fungal disease of the Allium genus, which decreases the quality and seed yield of garlic (Allium sativum). To establish an efficient screening method for testing the resistance of garlic cultivars to S. vesicarium, we measured leaf blight development on garlic plants according to cultivar, plant growth stage, inoculum concentration, nutrient source contained in the spore suspension, and incubation temperature. We determined that the most efficient method to develop leaf blight on garlic plants involved the following procedures: First, garlic cloves were grown in horticultural soil and cultivated in a greenhouse (25 ± 5°C). Seedlings at the four-leaf stage were rubbed with bleached, nonabsorbent cotton and spray-inoculated with a spore suspension (3.0 × 10⁵ spores/mL) of the fungus composed of sterilized 1/2 potato dextrose broth. The inoculated plants were incubated in a dew chamber at 20°C for 48 hours, and then the infected seedlings were cultured in a growth chamber at 25°C and 80% RH under 12-hour light per day. Seven days after inoculation, infected leaf area (%) was measured. Our screening system can be used to select resistant resources and develop S. vesicarium-resistant garlic cultivars.

Keywords

Allium genus

breeding

disease resistance

in vivo bioassay

screening

Stemphylium vesicarium에 의해서 발생하는 잎마름병은 마늘의 Allium 속의 작물에서 발생하는 곰팡이병으로, 마늘의 품질을 저하시키고 생산량을 감소하는 등 큰 피해를 주고 있다. 본 연구는 잎마름병에 대한 마늘의 저항성을 효과적으로 검정하기 위한 방법을 확립하기 위해, 마늘의 품종, 마늘의 생육 시기, 접종원의 농도, 접종원에 포함된 영양분 종류, 접종 후 배양 온도에 따른 마늘의 잎마름병 발생을 조사하였다. 실험한 결과로부터, 마늘의 잎마름병 저항성을 검정하기 위해서는 마늘 인편을 원예용 상토에 파종한 후, 온실(25 ± 5°C)에서 재배하여 준비한 4엽기 식물체에 접종 직전에 탈색한 비흡수성 재질의 솜으로 문지른 후에 멸균한 50% PDB로 수확한 S. vesicarium의 포자현탁액(3.0 × 10⁵ spores/mL)을 분무하여 접종한다. 그리고 접종한 식물체를 20°C의 습실상에서 48시간 동안 습실 처리하고, 마늘 유묘를 25°C의 항온항습실(상대습도 80%)로 이동하여 하루에 12시간씩 광을 조사하면서 재배하고, 품종에 따라 접종 7–11일 후에 잎에 발생한 잎마름병의 병반면적율(%)을 조사하는 것을 제안하고자 한다. 본 연구에서 확립한 마늘 잎마름병 저항성 검정 방법은 잎마름병에 대한 저항성 육종 소재의 발굴 및 저항성 품종 개발에 활용될 수 있을 것이다.

키워드

파속

육종

병저항성

생물 검정

스크리닝

References

Basallote-Ureba MJ, Prados-Ligero AM, Melero-Vara JM (1999) Aetiology of leaf spot of garlic and onion caused by Stemphylium vesicarium in Spain. Plant Pathol 48:139-145. doi:10.1046/j.1365-3059.1999.00313.x 10.1046/j.1365-3059.1999.00313.x

Cho HS, Yu SH (1998) Stemphylium vesicarium on garlic and other Allium spp. in Korea. Korean J Plant Pathol 14:567-570

Clark CA, Lorbeer JW (1977) Comparative nutrient dependency of Botrytis squamosa and B. cinerea for germination of conidia and pathogenicity on onion leaves. Phytopathology 67:212-218. doi:10.1094/Phyto-67-212 10.1094/Phyto-67-212

Falloon PG, Falloon LM, Grogan RG (1987) Etiology and epidemiology of Stemphylium leaf spot and purple spot of asparagus in California. Phytopathology 77:407-413. doi:10.1094/Phyto-77-407 10.1094/Phyto-77-407

Gálvez L, Gil-Serna J, García M, Iglesias C, Palmero D (2016) Stemphylium leaf blight of garlic (Allium sativum) in Spain : taxonomy and in vitro fungicide response. Plant Pathol J 32:388-395. doi:10.5423/PPJ.OA.03.2016.0063 10.5423/PPJ.OA.03.2016.006327721688PMC5051557

Hassan M, Yousuf V, Shah TA, Bhat NA, Bhat ZA, Majeed M, Latief R (2020) Stemphylium blight of onion: A review. Agric Rev 41:51-58. doi:10.18805/ag.R-1902 10.18805/ag.R-1902

Hay FS, Sharma S, Hoepting C, Strickland D, Luong K, Pethybridge SJ (2019) Emergence of Stemphylium leaf blight of onion in New York associated with fungicide resistance. Plant Dis 103:3083-3092. doi:10.1094/PDIS-03-19-0676-RE 10.1094/PDIS-03-19-0676-RE31596693

Hwang SM, Jang KS, Choi YH, Kim H, Choi GJ (2017) Development of an efficient bioassay method to evaluate resistance of chili pepper cultivars to Ralstonia solanacearum. Res Plant Dis 23:334-347. doi:10.5423/RPD.2017.23.4.334 10.5423/RPD.2017.23.4.334

Islam MA, Islam SMA, Sathi MA (2020a) Identification of lentil varieties/lines resistant to Stemphylium blight considering disease reaction and yield. Malays J Sustain Agric 4:22-25. doi:10.26480/mjsa.01.2020.22.25 10.26480/mjsa.01.2020.22.25

Islam MR, Hossain MR, Kim H-T, Nath UK, Abuyusuf M, Jung H-J, Park J-I, Nou I-S (2020b) Molecular characterization of Acidovorax citrulli strain NIHHS15-280 causing bacterial fruit blotch disease in Korea and screening of resistance sources in melon. Hortic Environ Biotechnol 61:115-126. doi:10.1007/s13580-019-00190-0 10.1007/s13580-019-00190-0

Jeong CH, Bae Yl, Lee JH, Shim KH, Roh JG, Shin CS, Choi JS (2009) Chemical components and antimicrobial activity of garlics from different cultivated area. J Agri Life Environ Sci 43:51-59

Jo EJ, Jang KS, Choi YH, Ahn KG, Choi GJ (2016) Resistance of cabbage plants to isolates of Plasmodiophora brassicae. Hortic Sci Technol 34:442-452. doi:10.12972/kjhst.20160045 10.12972/kjhst.20160045

Jo S-J, Shim S-A, Jang KS, Choi YH, Kim J-C, Choi GJ (2014) Resistance of chili pepper cultivars to isolates of Phytophthora capsici. Hortic Sci Technol 32:66-76. doi:10.7235/hort.2014.13079 10.7235/hort.2014.13079

Katsumi A, Yasumasa T, Hajime S, Satoshi O (1987) Stimulative effect of potassium phosphate on infection of cucumber leaves by conidia of Botrytis cinerea. Ann Phytopath Soc Japan 53:175-181. doi:10.3186/jjphytopath.53.175 10.3186/jjphytopath.53.175

Katsumi A, Yumiko K, Yasuhide M, Tadakazu W, Keido K, Tomomasa M (1981) Morphological studies on infection process of cucumber leaves by conidia of Botrytis cinerea stimulated with various purine-related compounds. Ann Phytopath Soc Japan 47:234-243. doi:10.3186/jjphytopath.47.234 10.3186/jjphytopath.47.234

Kim J-S, Ra JH, Hyun H-N (2015) Comparison of biochemical composition and antimicrobial activity of southern-type garlic grown in the eastern and western regions of Jeju. Korean J Hortic Sci Technol 33:763-771. doi:10.7235/hort.2015.15005 10.7235/hort.2015.15005

KOSTAT (2021) Statistics Korea. http://kostat.go.kr/portal/eng/pressReleases/. Accessed 19 July 2021

Kyung KH (2006) Growth inhibitory activity of sulfur compounds of garlic against pathogenic microorganisms. J Fd Hyg Safety 21:145-152

Lee JH, Lee JD, Oh D-G (2018) Resistance of pepper cultivars to Ralstonia solanacearum isolates from major cultivated areas of chilli peppers in Korea. Hortic Sci Technol 36:569-576. doi:10.12972/kjhst.20180057 10.12972/kjhst.20180057

Lee WJ, Jang KS, Choi YH, Kim HT, Kim J-C, Choi GJ (2015) Development of an efficient simple mass-Screening method for resistant melon to Fusarium oxysporum f. sp. melonis. Res Plant Dis 21:201-207. doi:10.5423/RPD.2015.21.3.201 10.5423/RPD.2015.21.3.201

Llorente I, Montesinos E (2002) Effect of relative humidity and interrupted wetness period of brown spot severity of pear caused by Stemphylium vesicarium. Phytopathology 92:99-104. doi:10.1094/PHYTO.2002.92.1.99 10.1094/PHYTO.2002.92.1.9918944145

Llorente I, Moragrega C, Ruz L, Montesinos E (2012) An update on control of brown spot of pear. Trees 26:239-245. doi:10.1007/s00468-011-0607-1 10.1007/s00468-011-0607-125983397PMC4425258

Mishra B, Singh RP (2019) Reaction of onion varieties to Stemphylium blight (Stemphylium vesicarium). Int J Curr Microbiol App Sci 8:1875-1880. doi:10.20546/ijcmas.2019.804.219 10.20546/ijcmas.2019.804.219

Mishra RK, Jaiswal RK, Kumar D, Saabale PR, Singh A (2014) Management of major diseases and insect pests of onion and garlic: A comprehensive review. J Plant Breed Crop Sci 6:160-170. doi:10.5897/JPBCS2014.0467 10.5897/JPBCS2014.0467

Montesinos E, Moragrega C, Llorente I, Vilardell P (1995a) Susceptibility of selected European pear cultivars to infection by Stemphyllium vesicarium and influence of leaf and fruit age. Plant Dis 79:471-473. doi:10.1094/PD-79-0471 10.1094/PD-79-0471

Montesinos E, Moragrega C, Llorente I, Vilardell P, Bonaterra A, Ponti I, Bugiani R, Cavanni P, Brunelli A (1995b) Development and evaluation of an infection model for Stemphylium vesicarium on pear based on temperature and wetness duration. Phytopathology 85:586-592. doi:10.1094/Phyto-85-586 10.1094/Phyto-85-586

Montesinos E, Vilardell P (1992) Evaluation of FAST as a forecasting system for scheduling fungicide sprays for control of Stemphylium vesicarium on pear. Plant Dis 76:1221-1226. doi:10.1094/PD-76-1221 10.1094/PD-76-1221

Nair A, Khar A, Hora A, Malik CP (2013) Garlic: Its importance and biotechnological improvement. Int J Life Sci 2:77-89. doi:10.5958/j.2319-1198.2.1.010 10.5958/j.2319-1198.2.1.010

Park MS, Jeong B, Jang KS, Choi YH, Kim J-C, Choi GJ (2012) Development of efficient screening methods for resistance of tomato to Fusarium oxysporum f. sp. lycopersici. Korean J Hortic Sci Technol 30:426-431. doi:10.7235/hort.2012.12083 10.7235/hort.2012.12083

Prados-Ligero AM, Gonzalez-Andugar JL, Melero-Vara JM, Basallote-Ureba MJ (1998) Development of Pleospora allii on garlic debris infected by Stemphylium vesicarium. Eur J Plant Pathol 104:861-870. doi:10.1023/A:1008619604684 10.1023/A:1008619604684

Prados-Ligero AM, Melero-Vara JM, Corpas-Hervias C, Basallote-Ureba MJ (2003) Relationships between weather variables, airborne spore concentrations and severity of leaf blight of garlic caused by Stemphylium vesicarium in Spain. Eur J Plant Pathol 109:301-310. doi:10.1023/A:1023519029605 10.1023/A:1023519029605

Rao NNR, Pavgi MS (1975) Stemphylium leaf blight of onion. Mycopathologia 56:113-118. doi:10.1007/BF00472582 10.1007/BF00472582

Ryu Y-H, Huh C-S, Kim D-G, Yeon l-K, Jo W-S, Ryu J-A (2015) Controlling effect of some environmentally friendly agents on garlic leaf blight in garlic. Korean J Organic Agri 23:347-357. doi:10.7783/KJMCS.2015.23.1.57 10.7783/KJMCS.2015.23.1.57

Shin J-H, Ju J-C, Kwen O-C, Yang S-M, Lee S-J, Sung N-J (2004) Physiochemical and physiological activities of garlic from different area. Korean J Food Nutr 17:237-245

Shirane N, Watanabe Y (1985) Comparison of infection process of Botrytis cinerea on cucumber cotyledon and strawberry petal. Ann Phytopath Soc Japan 51:501-505. doi:10.3186/jjphytopath.51.501 10.3186/jjphytopath.51.501

Shishkoff N, Lorbeer JW (1989) Etiology of Stemphylium leaf blight of onion. Phytopathology 79:301-304. doi:10.1094/Phyto-79-301 10.1094/Phyto-79-301

Son JH, Lee JP, Kim CS, Lim EK, Song JH, Kim HJ, Park HC, Moon BJ (2001) Effects of tomato-juice and potassium phosphate on the infection of Botrytis cinerea LVF12 on the tomato leaves. Res Plant Dis 7:134-139

Suheri H, Price TV (2000) Stemphylium leaf blight of garlic (Allium sativum) in Australia. Australas Plant Pathol 29:192-199. doi:10.1071/AP00034 10.1071/AP00034

Yerasu SR, Murugan L, Halder J, Prasanna HC, Singh A, Singh B (2019) Screening tomato genotypes for resistance to early blight and American serpentine leafminer. Hortic Environ Biotechnol 60:427-433. doi:10.1007/s13580-019-00130-y 10.1007/s13580-019-00130-y

Zheng L, Lv R, Huang J, Jiang D, Liu X, Hsiang T (2010) Integrated control of garlic leaf blight caused by Stemphylium solani in China. Can J Plant Pathol 32:135-145. doi:10.1080/07060661.2010.484233 10.1080/07060661.2010.484233

Information

Publisher :KOREAN SOCIETY FOR HORTICULTURAL SCIENCE
Publisher(Ko) :원예과학기술지
Journal Title :Horticultural Science and Technology
Journal Title(Ko) :원예과학기술지
Volume : 40
No :3
Pages :324-337
Received Date : 2022-03-02
Revised Date : 2022-04-04
Accepted Date : 2022-04-18
DOI :https://doi.org/10.7235/HORT.20220030

Horticultural Science and Technology ISSN:1226-8763(Print) 2465-8588(Online) 원예과학기술지

All Issue