Potential of Trichoderma harzianum for control of banana leaf fungal pathogens when applied with a food source and an organic adjuvant
详细信息    查看全文
  • 作者:Suren Samuelian
  • 关键词:Native Trichoderma spp. ; Antagonism ; Biological control
  • 刊名:3 Biotech
  • 出版年:2016
  • 出版时间:December 2016
  • 年:2016
  • 卷:6
  • 期:1
  • 全文大小:597 KB
  • 参考文献:Abadie C, Zapater M-F, Carlier J, Pignoleti L, Mourichon X (2008) Artificial inoculation on plants and banana leaf pieces with Mycosphaerella spp., responsible for Sigatoka leaf spot diseases. Fruit 63(5):319–323CrossRef
    Alvindia DG (2012) Inhibitory influence of biological agents, plant oils and an inorganic salt on Mycosphaerella fijiensis and Cordana musae, the casual pathogen of black Sigatoka and leaf spot of banana. Afr J Microbiol Res 6(19):4179–4184
    Alvindia DG (2013) Sodium bicarbonate enhances efficacy of Trichoderma harzianum DGA01 in controlling crown rot of banana. J Gen Plant Pathol 79:136–144CrossRef
    Alvindia DG, Hirooka Y (2011) Identification of Clonostachys and Trichoderma spp. from banana fruit surfaces by cultural, morphological and molecular methods. J Mycol 2:109–115CrossRef
    Alvindia DG, Natsuaki KT (2008) Evaluation of fungal epiphytes isolated from banana fruit surfaces for biocontrol of banana crown rot disease. Crop Prot 27:1200–1207CrossRef
    Arthurs SP, Lacey LA (2004) Field evaluation of commercial formulations of the codling moth granulovirus: persistence of activity and success of seasonal applications against natural infestations of codling moth in Pacific Northwest apple orchards. Biol Control 31:388–397CrossRef
    Barnet HL, Hunter BB (1998) Illustrated genera of imperfect fungi, 4th edn. APS Press, The American Phytopathological Society, St. Paul, Minnesota
    Beattie A, Watson D, Stevens M (2002) Spray oils beyond 2000. In: Proceedings of a conference held from 25 to 29 October 1999 in Sydney, New South Wales, Australia, pp 1–627
    Bell DK, Wells HD, Markham CR (1982) In vitro antagonism of Trichoderma species against six fungal plant pathogens. Phytopathology 72:279–382CrossRef
    Benítez T, Rincón AM, Limón CM, Codón AC (2004) Biocontrol mechanisms of Trichoderma strains. Int Microbiol 7:249–260
    Chaverri P, Samuels GJ (2001) Hypocrea virens sp. nov., the teleomorph of Trichoderma virens. Mycologia 93(6):1113–1124CrossRef
    Chin KM, Wirz M, Laird D (2001) Sensitivity of Mycosphaerella fijiensis from banana to trifloxystrobin. Plant Dis 85:1264–1270CrossRef
    Eckert JW, Sievert JR, Patnayake M (1994) Reduction of imazalil effectiveness against citrus green mold in California packinghouses by resistant biotypes of Penicillium digitatum. Plant Dis 78(10):971–974CrossRef
    Elad Y, Kirshner B, Gokkes M, Peer R (1993a) Disease symptoms caused by Botrytis cinerea in Ruscus hypoglossum plants and their control. Phytoparasitica 21(1):53–61CrossRef
    Elad Y, Zimand G, Zaqs Y, Zuriel S, Chet I (1993b) Use of Trichoderma harzianum in combination or alternation with fungicides to control cucumber grey mould (Botrytis cinerea) under commercial greenhouse conditions. Plant Pathol 42:324–332CrossRef
    Elad Y, Gullino ML, Shtienberg D, Aloi C (1995) Managing Botrytis cinerea on tomatoes in greenhouses in the Mediterranean. Crop Prot 14(2):105–109CrossRef
    González R, Bustamante E, Shannon P, Okumoto S, Leandro G (1996) Selección de microorganismos quitinolíticos en el control de la Sigatoka negra (Mycosphaerella fijiensis) en banano. Manejo Integrado Plagas 40:6–11
    Grice K, Peterson RA (2002) Banana fungicide resistance. Final report. Horticulture Australia, FR99038, pp 1–51
    Harman GE (2000) Myths and dogmas of biocontrol: changes in perceptions derived from research on Trichoderma harzianum T-22. Plant Dis 84:377–393CrossRef
    Harman GE (2006) Overview of mechanisms and uses of Trichoderma spp. Phytopathology 96:190–194CrossRef
    Harman GE, Latorre B, Agosin A, San Martin R, Riegel DG, Nielsen PA, Tronsmo A, Pearson RC (1996) Biological and integrated control of Botrytis bunch rot of grape using Trichoderma spp. Biol Control 7:259–266CrossRef
    Harman GE, Howell CR, Viterbo A, Chet I, Lorito M (2004) Trichoderma species – opportunistic, avirulent plant symbionts. Nat Rev 2:43–56
    Heiner IJ, Smith CD (1987) South Johnstone research station soils. Land Research Branch, Queensland Department of Primary Industries. D.P.I. Ref. No 86-112-P2596
    Holmes GJ, Eckert JW (1999) Sensitivity of Penicillium digitatum and P. italicum to postharvest citrus fungicides in California. Phytopathology 89:716–721CrossRef
    Jacobsen BJ, Zidack NK, Larson BJ (2004) The role of bacillus-based biological control agents in integrated pest management systems: plant diseases. Phytopathology 94(11):1272–1275CrossRef
    Jiménez JM, Galindo JJ, Ramírez C (1987) Estudios sobre combate biológico de Mycosphaerella fijiensis var. difformis mediante bacterias epífitas. In: Galindo JJ, Jaramillo R (eds) Proceedings of ACORBAT meeting, 7th Centro Agronómico Tropical de Investigación y Enseñanza (CATIE). Turrialba, Costa Rica, pp 105–109
    Karaoglanidis GS, Thanassoulopoulos CC, Ioannidis PM (2001) Fitness of Cercospora beticola field isolates—resistant and—sensitive to demethylation inhibitor fungicides. Eur J Plant Pathol 107:337–347CrossRef
    Lorito M, Woo SL, Harman GE, Monte E (2010) Translational research on Trichoderma: from omics to the field. Annu Rev Phytopathol 48:395–417CrossRef
    Marín DH, Romero RA, Guzmán M, Sutton TB (2003) Black Sigatoka: an increasing threat to banana cultivation. Plant Dis 87(3):208–222CrossRef
    McKenzie LL, Benzi D, Dellavalle D, Gullino ML (1991) Survival on the phylloplane of strains of Trichoderma spp. antagonistic to Botrytis cinerea. Petria 1:133–134
    Miranda JE (1996) Evaluación de microorganismos antagonistas al hongo Mycosphaerella fijiensis Morelet, colocados en el interior y exterior de la planta de banano. Mag. Sci. thesis. CATIE, Turrialba, Costa Rica
    Mondal SN, Bhatia A, Turksen S, Timmer LW (2005) Baseline sensitivities of fungal pathogens of fruit and foliage of citrus to azoxystrobin, pyraclostrobin, and fenbuconazole. Plant Dis 11:1186–1194CrossRef
    Monte E (2001) Understanding Trichoderma: between biotechnology and microbial ecology. Int Microbiol 4:1–4
    Mukherjee AK, Sampath Kumar A, Kranthi S, Mukherjee PK (2014) Biocontrol potential of three novel Trichoderma strains: isolation, evaluation and formulation. 3 Biotech 4:275–281CrossRef
    Pitt WM, Huang R, Steel CC, Savocchia S (2010) Identification, distribution and current taxonomy of Botryosphaeriaceae species associated with grapevine decline in New South Wales and South Australia. Aust J Grape Wine Res 16:258–271CrossRef
    Romero RA, Sutton TB (1996) Sensitivity of Mycosphaerella fijiensis, causal agent of black Sigatoka of banana, to propiconazole. Phytopathology 87(1):96–100CrossRef
    Romero RA, Sutton TB (1998) Characterization of benomyl resistance in Mycosphaerella fijiensis, cause of black Sigatoka of banana, in Costa Rica. Plant Dis 82:931–934CrossRef
    Rossman AY, Seifert KA, Samuels GJ, Minnis AM, Schroers H-J, Lombard L, Crous PW, Põldmaa K, Cannon PF, Summerbell RC, Geiser DM, Zhuang W-Y, Hirooka Y, Herrera C, Salgado-Salazar C, Chaverri P (2013) Genera in Bionectriaceae, Hypocreaceae, and Nectriaceae (Hypocreales) proposed for acceptance or rejection. IMA Fungus 4(1):41–51CrossRef
    Samuelian S (2014) Grower survey—how we manage yellow Sigatoka? Australian Bananas, Issue 41. Autumn Winter 2014:28–29
    Samuelian S, Greer LA, Cowan K, Priest M, Sutton TB, Savocchia S, Steel CC (2012) Phylogenetic relationships, pathogenicity and fungicide sensitivity of Greeneria uvicola isolates from Vitis vinifera and Muscadinia rotundifolia grapevines. Plant Pathol 62:829–841CrossRef
    Samuelian S, Greer LG, Savocchia S, Steel CC (2014) Application of Cabrio (a.i. pyraclostrobin) at flowering and véraison reduces the severity of bitter rot (Greeneria uvicola) and ripe rot (Colletotrichum acutatum) of grapes (Vitis vinifera). Aust J Grape Wine Res doi:10.​1111/​ajgw.​12073
    Schilly A, Chaves N, Guzmán M, Sandoval J, Staver C, Dita M (2014) Exploring root-associated entophyte microorganisms from Musa spp. for enhancing plant health. 29th International horticultural congress, 17–22 August 2014, Brisbane, Australia
    Sholberg PL, Haag PD (1993) Sensitivity of Venturia inaequalis isolates from British Columbia to flusilazole and mycobutanil. Can J Plant Pathol 15:102–106CrossRef
    Sierotzki H, Parisi S, Steinfeld U, Tenzer I, Poirey S, Gisi U (2000) Mode of resistance to respiration inhibitors at the cytochrome bc1 enzyme complex of Mycosphaerella fijiensis field isolates. Pest Manag Sci 56:833–841CrossRef
    Stover RH (1977) Behavior of benomyl tolerant strains of the black Sigatoka pathogen in the field. Proc Am Phytopathol Soc 4:180–181
    Stover RH, Dickson JD (1970) Leaf spot of banana caused by Mycosphaerella musicola: methods of measuring spotting prevalence and severity. Trop Agric (Trinidad) 47:289–302
    Stover RH, Slabaugh WR, Grove MD (1978) Effect of chlorothalonil on a severe outbreak of banana leaf spot caused by benomyl tolerant Mycosphaerella fijiensis var. difformis. Phytopathol News 12:268
    Tamura K, Dudley J, Nei M, Kumar S (2007) MEGA4: molecular evolutionary genetics analysis (MEGA) software version 4.0. Mol Biol Evol 24:1596–1599CrossRef
    Thangavelu R, Palaniswami A, Velazhahan R (2004) Mass production of Trichoderma harzianum for managing fusarium wilt of banana. Agric Ecosyst Environ 103:259–263CrossRef
    White TJ, Bruns TD, Lee S, Taylor JW (1990) Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. In: Innis MA, Gelfand DH, Sninsky JJ, White TJ (eds) PCR protocols: a guide to methods and applications. Academic Press, San Diego, CA, pp 315–322
    Wright JE, Chandler LD (1992) Development of a biorational myocoinsecticide—Beauveria-bassiana conidia formulation and its application against boll-weevil populations (Coleoptera, Curculionidae). J Econ Entomol 85(4):1130–1135CrossRef
  • 作者单位:Suren Samuelian (1)

    1. Department of Agriculture, Fisheries and Forestry, Centre for Wet Tropics Agriculture, South Johnstone, QLD, 4859, Australia
  • 刊物主题:Biotechnology; Agriculture; Cancer Research; Bioinformatics; Stem Cells; Biomaterials;
  • 出版者:Springer Berlin Heidelberg
  • ISSN:2190-5738
文摘
Trichoderma isolates were obtained from diseased leaves and fruit collected from plantations in the main banana production area in Northern Queensland. Phylogenetic analyses identified the Trichoderma isolates as T. harzianum and T. virens. The Trichoderma spp. were found to be antagonistic against the banana leaf pathogens Mycosphaerella musicola, Cordana musae, and Deightoniella torulosa in vitro. Several products used by the banana industry to increase production, including molasses, Fishoil and Seasol, were tested as food source for the Trichoderma isolates. The optimal food substrate was found to be molasses at a concentration of 5 %, which when used in combination with a di-1-p-menthene spreader-sticker enhanced the survivability of Trichoderma populations under natural conditions. This formulation suppressed D. torulosa development under glasshouse conditions. Furthermore, high sensitivity was observed towards the protectant fungicide Mancozeb but Biopest oil®, a paraffinic oil, only marginally suppressed the growth of Trichoderma isolates in vitro. Thus, this protocol represents a potential to manage banana leaf pathogens as a part of an integrated disease approach. Keywords Native Trichoderma spp. Antagonism Biological control
NGLC 2004-2010.National Geological Library of China All Rights Reserved.
Add:29 Xueyuan Rd,Haidian District,Beijing,PRC. Mail Add: 8324 mailbox 100083
For exchange or info please contact us via email.