Biocontrol of faba bean black root rot caused by Fusarium solani using seed dressing and soil application of Trichoderma harzianum
DOI:
https://doi.org/10.18311/jbc/2016/15593Keywords:
Biocontrol, root rot, faba bean, Trichoderma harzianum, Fusarium solaniAbstract
Black root rot of faba bean is one of the most destructive diseases that causes up to 100% yield loss on farmers' fields under severe conditions. As use of chemical fungicides for control of the disease is neither efficient nor economical, alternative options such as biological control need to be exploited. The antagonistic fungus Trichoderma harzianum was used as seed dressing or soil application treatment in combination with three varieties viz. Kasa (susceptible), Wolki (moderately resistant) and Wayu (resistant) in two consecutive cropping seasons in a sick plot. Each variety was sown with and without T. harzianum. There were a total of six treatments. The experimental design was randomized complete block design with three replications in a 2 x 3 factorial arrangement. Results showed that in the first year highly significant variations in the percentage of dead plants at harvesting stage were observed only due to varietal differences for soil treatment (P = 0.0001) and seed dressing (P< 0.0001) respectively. Percentage of dead plants of variety wayu was 26.1% and 30.8% in soil application and seed dressing treatments respectively. Similarly, 92.1% and 95.2% dead plants were observed for the susceptible variety Kassa in soil application and seed dressing treatments respectively. In the second year there was a significant interaction between varieties and Trichoderma treatments (P=0.0047, F=8.66, df= 2) with variety Wayu showing the least percentage of dead plants (56.58%) significantly differing from Kassa (93.86%) and Wolki (77.08%) in the soil treatments. It is concluded that use of T. harzianum in combination with a resistant variety such as Wayu is effective to reduce the incidence of faba bean root rot caused by Fusarium solani. Future research should focus on studying the effects of combining different Trichoderma spp. on the disease as integrated with resistant varieties.Downloads
Metrics
Downloads
Published
How to Cite
Issue
Section
References
Abdel-Kader MM, Shaban AMH, El-Mougy NS. 2015. Biological and chemical resistance inducers as seed priming for controlling faba bean root rot disease under field conditions. Intl J Eng Inn Technol. 4(11).
Abdel-kader MM, El-Mougy NS, Lashin SM. 2011. Eessential oils and Trichoderma harzianum as an integrated control measure against faba bean root rot pathogens. J Pl Prot Res. 51(3).
Abdel-Kadir MM, El-Mougy NS, Ashour AMA. 2002. Suppression of root rot incidence in faba bean fields by using certain isolates of Trichoderma. Egypt J Phytopathol. 30: 15–25.
Abdel-Kader, MM. 1997. Field application of Trichoderma harzianum as biocide for control bean root rot disease. Egypt J Phytopathology 25: 19–25.
Agrios GN. 2005. Plant Pathology. 5th ed. Elsevier Academic Press. London, UK.
Akrami M, Ibrahimov ASh, Zafari DM, Valizadeh E. 2009. Control of fusarium rot of bean by combination of Trichoderma harzianum and Trichoderma asperillum in green house conditions. Agricultural Journal 4(3): 121–123.
Arras G. 1996. Mode of action of an isolate of Candida tomata in the biological control of Penicillium digitatum in orange fruits. Post Harvest Biol Technol. 8: 191–198.
Belay H, Anteneh B. 2015. Effects of indigenous trichoderma species on faba bean (Vicia faba) root rot caused by Fusarium Solani (Mart) Appel & Wollenw. Intl J Technol Enhan Emerg Eng Res. 3(8).
Belay H. 2010. In-vitro Evalution of indigenous Trichoderma species for bio-control of faba bean root rot caused by Fusarium solani. Pest Mgmt J Ethiopia 14: 61–67.
Bogale M, Steenkamp ET, Wingfield MJ, Wingfield BD. 2009. Diverse Fusarium solani isolates colonise agricultural environments in Ethiopia. Eur J Plant Pathol. 124: 369–378.
CIAT. 1992. Pathology in Africa. CIAT Annual Report. Bean Program. Cali. Colombia. 385 pp.
Dereje G, Tesfaye B. 1994. Faba bean diseases in Ethiopia. pp 328-345. In: Asfaw Telaye, Geletu Bejiga, Mohan C. Saxena and Mahmoud B. Solh, (eds.). Cool season food legumes of Ethiopia Proceedings of the First National Cool season Food Legumes Review Conference, 16-20 December 1993, Addis Ababa, Ethiopia.
Eshetu B, Amare A, Seid A. 2015. Evaluation of local isolates of Trichoderma spp. against black root rot (Fusarium solani) on faba bean. Pl Pathol Microbiol. 6:6.
Elad Y. 1996. Mechanisms involved in the biological control of Botrytis cinerea incited diseases. Eur J Pl Pathol. 102: 719–732.
El-Mougy N S, Abdel-Kader MM. 2009. Seed and soil treatments as integrated control measure against faba bean root rot pathogens. Pl Pathol Bull. 18: 75–87.
El-Kassas HY, Khairy HM. 2009. A trial for biological control of a pathogenic fungus (Fusarium solani) by some marine microorganisms. American-Eurasian J Agric Environ Sci. 5: 434–440.
Hamed ER, El-Gamal NG, El-Sharmi AR. 2012. Efficacy of formulation and storage on rice straw waste on the activation of bio-agents against root-rot diseases of bean plants. Arch Phytopathol Pl Prot. 45(1).
Harrier LA, Watson CA. 2004. The potential role of Arbuscular Mycorrhizal (AM) fungi in the bioprotection of plants against soil-borne pathogens in organic and/or other sustainable farming systems. Pest Manag Sci. 60(2): 149–157.
Harman GE, Howell CR, Viterbo A, Chet I, Lorito M. 2004. Trichoderma species--opportunistic, avirulent plant symbionts. Nat Rev Microbiol. 2: 43–56.
International Center for Agricultural Research in the Dry Areas (ICARDA). 2006. NVRSRP/IFAD Project – Progress Report 2004–2005.
Landa BB, Navas-Cortes JA, Jimenez-Diaz RM. 2004. Integrated management of Fusarium wilt of chickpea with sowing date, host resistance and biological control. Phytopathol 94: 946–960.
Lewis JA, Lundsen RD. 2001. Biocontrol of damping off greenhouse grown crops caused by Rhizoctonia solani with a formulation of Trichoderma spp. Crop Prot. 22: 49–56.
Lewis JA, Larkin RP, Rogers DL.1998. A formulation of Trichoderma and Gliocladium to reduce damping-off caused by Rhizoctonia solani and saprophytic growth of the pathogen in soilless mix. Pl Dis. 82: 501–506.
Mohidden FA, Khan MR, Khan SM, Bhat BH. 2012. Why Trichoderma is considered superhero (super-fungus) against the evil parasite? Plant Pathol J. 9: 92–102.
Mokhtar M, Abdel-Kader, Nehal S, El-Mougy, Sirag ML. 2011. Essential oils and Trichoderma harzianum as an integrated control measure against faba bean root rot pathogens. J Pl Prot Res. 51(3).
Mukankusi CM, Melis RJ, Derera J, Robin, Buruchara RA, Mark D. 2011. A screening technique for resistance to Fusarium root rot of common bean. Afr J Pl Sci. 5(3): 152–161.
Navarro F, Sass ME, Nienhuis J. 2003. Identification and mapping bean root rot resistance in an ‘Eagle x Puebla 152' population. Annual Report of the Bean Improvement Cooperative 47: 83–84.
Negussie T, Seid A, Dereje G, Tesfaye B, Chemeda F, Adane A, Melkamu A, Abiy T, Fekede A, Kiros M. 2008. Review of research on diseases of food legumes. In: Tadesse A. (Ed.). Increasing crop production through improved plant protection – Volume I. Plant Protection Society of Ethiopia (PPSE), 19-22 December 2006. Addis Ababa, Ethiopia. PPSE and EIAR, Addis Ababa, Ethiopia. 598 pp.
Naseby DC, Pascual JA, Lunch JM. 2000. Effect of biocontrol strains of Trichoderma on plant growth Pythium ultimum populations, soil microbial communities and soil enzyme activities. J App Microbiol. 88: 161–169.
Otysyula RM, Ajanga SI, Buruchara RA, Wortman CS. 1998. Development of an integrated bean root rot control strategy for western Kenya. Afr Crop Sci J. 6(1): 61–67.
PPRC. 1996. Progress report for the period 1995/96. Ambo.
Rojo FG, Reynoso MM, Sofia MF, Chulzel N, Torres AM. 2007. Biological control by Trichoderma species of Fusarium solani causing peanut brown root rot under field conditions. Crop Prot. 26:549–555.
Rosa DR, Herrera CJL. 2009. Evaluation of Trichoderma spp. as biocontrol agents against avocado white root rot. Biol Contr. 51: 66–71.
Sivan A, Chet I. 1989. Degradation of fungal cell walls by lytic enzymes of Trichoderma harzianum. J Gen Microbiol. 135: 675–682.
Singh A, Singh HB. 2004. Control of collar rot of mint (Mint spp.) caused by Sclerotium rolfsii using biological means. Curr Sci. 87: 362–366.
Stewart RD, Dagnachew Y. 1967. Index of plant diseases in Ethiopia. Experimnetal sation Bull. No 30, HISU. College of Agriculture, Debre-zeit. 95pp.
Tesfaye B.1995. Development of wilt/root rot resis-tant cultivars in faba bean. In: Eshetu B, Abdurahman A, Aynekulu Y. (Eds.). Proceeding of the third annual conference of crop protection society of Ethiopia May 18-19, 1995 CPSE, Addis Ababa.
Tesfaye B. 1999. Evaluation of the potential of Trichoderma viride as biological control agent of root rot diseases Fusarium solani of faba bean. Pest Mgmt J Ethiopia 3(1) & 2: 91–94.
Temesgen B. 2005. Biodiversity and their biocontrol potential of Trichoderma for wilt disease of Coffee, Ethiopia. Activity report for the training held between May to October, 2005. Vienna University of Technology, Institute of Chemical engineering division of applied Biochemistry and Gene Technology Group of fungal biodiversity and Evolution, Vienna, Austria.
Vinale F, Sivasithamparam K, Ghisalberti EL, Marra R, Lorito SL. 2008. Trichoderma - plant pathogens interactions. Soil Biol Biochem. 40:1–10.
Zheng XY, Sinclair JB. 2000. The effect of traits of Bacillus megaterium on seed and root colonization root rot of soybean. Biocontrol 45: 223–243.