La marchitez causada por Fusarium sacchari, es una de las principales enfermedades de la caña de azúcar (Saccharum spp.) que causa considerables pérdidas económicas. Trichoderma spp. es un importante agente de biocontrol que se ha explotado eficazmente para el manejo de varias enfermedades de las plantas, incluida la marchitez en varios cultivos. El presente estudio se realizó para evaluar el potencial antagonista de Trichoderma spp. contra el patógeno de la marchitez de la caña de azúcar. Un total de 103 aislamientos de Trichoderma que comprenden 43 aislamientos establecidos a partir de suelos de la rizosfera de la caña de azúcar, así como 60 aislamientos endofíticos establecidos a partir del tejido de las raíces, hojas y tallos de la caña de azúcar, fueron evaluados por su actividad antagonista contra F. sacchari mediante la técnica de cultivo dual. Se observó una considerable variabilidad en la actividad inhibidora de los 103 aislamientos contra el organismo patógeno con una inhibición que osciló entre 1.4% y el 27.2% (SER42). En general, los aislados endofíticos de Trichoderma fueron más efectivos en la inhibición de F. sacchari en comparación con los aislados rizosféricos en estudios de cultivo dual y se seleccionaron 12 aislados endofíticos prometedores que se evaluaron más a fondo para la producción de metabolitos inhibidores solubles contra F. sacchari mediante la técnica de medios de cultivo envenenados. Se observó variabilidad entre los aislados de Trichoderma en la inhibición del crecimiento de F. sacchari con valores que oscilaban entre el 1.4% (SER 43) y el 44.2% (SER10). En general, según los ensayos in vitro, Trichoderma SER 10, aislado del tejido de la raíz de la caña de azúcar, resultó ser el más prometedor que mostró una inhibición del 44.2% del crecimiento de F. sacchari en el método de medio de cultivo envenenado y un 26.3% de inhibición en los estudios de cultivo dual. Este es el primer estudio informa sobre el potencial de control biológico de Trichoderma spp. contra F. sacchari, agente causal de la marchitez en la caña de azúcar.

Abdel-Monaim MF, Abdel-Gaid MA, Zayan SA, Naseef DMT (2014) Enhancement of growth parameters and yield components in eggplant using antagonism of Trichoderma spp. against Fusarium wilt disease. Int J Phytopathol 03(01): 33-40

Adhikary MC, Begum HA, Meah MB (2017) Possibility of recovering Fusarium Wilt affected eggplants by Trichoderma. Int J Agril Res Innov & Tech 7(1): 38-42

Agnihotri VP, Rao GP (2002) A century status of sugarcane wilt in India. In: Singh SB, Rao GP, Easwaramoorthy S (eds). Sugarcane Crop Management, pp. 145-160. Sci Tech LLC Publishing, Taxas

Anuragi M, Sharma TK (2016) Biocontrol of chickpea wilt disease by Fusarium oxysporum f. sp. ciceri with rhizopshere mycoflora. Flora and fauna 22(2): 201-209

Bae H, Roberts DP, Lim HS, Strem MD, Park SC, Ryu CM, Melnick RL, Bailey BA (2011) Endophytic Trichoderma isolates from tropical environments delay disease onset and induce resistance against Phytophthora capsici in hot pepper using multiple mechanisms. Mol Plant Microbe In 24: 336-351

Bailey BA, Bae H, Strem MD, Crozier J, Thomas SE, Samuels GJ, Vinyard BT, Holmes KA (2008) Antibiosis, mycoparasitism, and colonization success for endophytic Trichoderma isolates with biological control potential in Theobroma cacao. Biol Control 46: 24–35

Bhat MN, Mesta R, Yenjerappa ST, Tatagar MH, Sardana HR, Singh D, Vennila S, Sabir N, Ahmad M (2016) Biological control of Fusarium wilt of chillies using Trichoderma spp. Indian J Hort 73(1): 74-77

Butler EJ, Khan AH (1913) Some new sugarcane diseases, Part I Wilt Mem Dept Agril. India Bot Ser 6: 180-190

Dennis C, Webster J (1971a) Antagonistic properties of species groups of Trichoderma I, Production of non volatile antibiotics. Trans Br Mycol Soc 57: 25-39

Dennis C, Webster J (1971b) Antagonistic properties of species groups of Trichoderma II, Production of non volatile antibiotics. Trans Br Mycol Soc 57: 41-48

Dolatabadi HK, Goltapeh EM, Mohammadi N, Rabiey M, Rohani N, Varma A (2012) Biocontrol potential of root endophytic fungi and Trichoderma species against Fusarium wilt of lentils under in vitro and green house conditions. J Agr Sci Tech 14: 407-420

Gawade DB, Pawar BH, Gawande SJ, Vasekar VC (2012) Antagonistic effect of Trichoderma against Fusarium moniliforme the causal of sugarcane wilt. American- Eurasian J Agric & Environ Sci 12 (9):1236- 1241

Harman GE, Howell CR, Viterbo A (2004) Trichoderma species-opportunistic, avirulent plant symbionts. Natures Review Microbiology 2: 43-56

Jahanshir A, Dzhalilov FS (2010) The Effects of Fungicides on Fusarium oxysporum f. sp. lycopersici associated with Fusarium wilt of tomato. J Plant Prot Res 50(20):172-178

Jena N, Panigrahi MR (2017) Rhizobacteria and Trichoderma spp. The potential biocontrol agents against sugarcane wilt pathogens. Int J Res Engi App Sci 7(10): 1-9

Joshi D, Gupta J, Mishra A, Upadhyay M, Holkar SK, Singh P (2018) Distribution, composition and bioactivity of endophytic Trichoderma spp. associated with sugarcane. Proc Natl Acad Sci India Sect B Biol Sci 98(4):1189-1200

Joshi D, Misra SC (2013) Characterization of Trichoderma Isolates from Sugarcane Agroecosystem and their efficacy against Colletotrichum falcatum causing red rot of sugarcane. Sugar Tech 15(2): 192-196

Joshi D, Singh P, Holkar SK, Kumar S (2019) Trichoderma mediated suppression of red rot of sugarcane under field conditions in subtropical India. Sugar Tech 21: 496-504

Joshi D, Singh P, Singh AK, Lal RJ, Tripathi N (2016) Antifungal potential of metabolites from Trichoderma sp. against Colletotrichum falcatum Went causing red rot of sugarcane. Sugar Tech 18(5): 529-536

Leslie JF, Summerell BA (2006) The Fusarium laboratory manual 1st ed. Blackwell Publishing Ltd Oxford, London

Mirajkar SJ, Devarumath RM, Nikam AA, Sushir KV, Babu H, Suprasanna P (2019) Sugarcane (Saccharum spp.): Breeding and Genomics. In: Al-Khayri J, Jain S, Johnson D (eds). Advances in Plant Breeding Strategies: industrial and food crops, pp. 363-404. Springer, Cham; doi: 10.1007/978-3-030-23265-8_11

Moghaddam MSH, Soltani J (2013) Bioactivity of endophytic Trichoderma fungal species from the plant family Cupressaceae. Ann Microbiol 64: 753–761

Mulaw TB, Druzhinina IS, Kubicek CP, Atanasova L (2013) Novel endophytic Trichoderma spp. isolated from healthy Coffea arabica roots are capable of controlling coffee tracheomycosis. Diversity 5: 750–766

O’Donnell K, Kistler HC, Cigelnik E, Ploetz RC (1998) Multiple evolutionary origins of the fungus causing Panama disease of banana: concordant evidence from nuclear and mitochondrial gene genealogies. P Natl A Sci 95: 2044-2049

Rao GP, Viswanathan R, Singh SB (2002) Current situation of sugarcane diseases in India. In: Singh SB, Rao GP, Easwaramoorthy S (Eds). Sugarcane Crop Management, pp.1-9. Sci Tech LLC Publishing, Houstan

Sabalpara AN, Priya J, Waghunde RR and Pandya JR (2009) Antagonism of Trichoderma against sugarcane wilt pathogen Fusarium moniliforme. Am-Eurasian J Sustain Agric 3(4): 637-638

Sharma MN (1976) Wilt disease of sugarcane. Sugarcane Pathol Newsl 15/16:30-33

Sharma P, Sharma M, Raja M, Shanmugan V (2014) Status of Trichoderma research in India: A Review. Indian Phytopath 67(1): 1-19

Srinivasan U, Staines HJ, Bruce A (1992) Influence of media type on antagonistic modes of Trichoderma spp. against wood decay basidiomycetes. Material und Organismen 27(4): 301-321

Summerell B, Salleh B, Laslie JF (2003) A Utilitarian Approach to Fusarium Identification. Plant Disease 87(2): 117-128

Sundarmoorthy S, Balabaskar P (2013) Biocontrol efficacy of Trichoderma spp. against wilt of tomato caused by Fusarium oxysporum f. sp. lycopersici. J App Biol Biotech 1(3): 36-40

Taribuka J, Wibowo A, Widyastuti S, Sumardiyon C (2017) Potency of six isolates of biocontrol agents endophytic Trichoderma against Fusarium wilt on banana. J Degrade Min Land Manage 4(2): 723-731

Verma LK, Solanki A (2020) Cost and Returns Analysis of Sugarcane Production in Baghpat district of Western Uttar Pradesh, India. Int J Curr Microbiol App Sci 9(1): 733-739

Viswanathan R, Poongothai M, Malathi P (2011) Pathogenic and molecular confirmation of Fusarium sacchari causing wilt in sugarcane. Sugar Tech 13: 68-76

Viswanathan R, Rao GP (2011) Disease scenario and management of major sugarcane diseases in India. Sugar Tech 13: 336-353

Viswanathan R, Poongothai M, Malathi P, Ramesh A (2012) Sugarcane wilt: New insights into the pathogen identity, variability and pathogenicity. In: Viswanathan R, Sundar AR (eds). Functional plant science and biotechnology, pp. 30-39. Global Science Books, Ikenobe