Full Length Research Paper
References
|
Deshpande MV (1999). Mycopesticide production by fermentation: Potential and challenges. Critical Reviews in Microbiology 25(3):229-243. |
|
|
Gómez-De La Cruz I, Pérez-Portilla E, Escamilla-Prado E, Martínez-Bolaños M, Carrión-Villarnovo GLL, Her¬nández-Leal TI (2017). Selection in vitro of mycoparasi¬tes with potential for biological control on Coffee Leaf Rust (Hemileia vastatrix). Revista Mexicana de Fitopa¬tología 36(1):172-183. |
|
|
Greche H, Hajjaji N, Ismaïli-Alaoui M, Mrabet N, Benjilali B (2000). Chemical Composition and Antifungal Properties of the Essential Oil of Tanacetum annuum, Journal of Essential Oil Research 12(1):122-124. |
|
|
Gurulingappa P, Sword GA, Murdoch G, McGee PA (2010). Colonization of crop plants by fungal entomopathogens and their effects on two insect pests when in planta. Biological Control 55(1):34-41. |
|
|
Huang CJ, Wang TK, Chung SC, Chen CY (2005). Identification of an Antifungal Chitinase from a Potential Biocontrol Agent, Bacillus cereus 28-9. Journal of Biochemistry and Molecular Biology 38(1):82-88. |
|
|
Jackson D, Skillman J, Vandermeer J (2012). Indirect biological control of the coffee leaf rust, Hemileia vastatrix, by the entomogenous fungus Lecanicillium lecanii in a complex coffee agroecosystem. Biological Control 61(1):89-97. |
|
|
Kim JJ, Goettel MS, Gillespie DR (2007). Potential of Lecanicillium species for dual microbial control of aphids and the cucumber powdery mildew fungus, Sphaerotheca fuliginea. Biological Control 40(3):327-332. |
|
|
Koïta K, Sogoba HK, Nana TA, Neya BF, Campa C, Sankara P (2017). Integrated management of leaf spot of peanut with aqueous leaf extract of Lippia multiflora Moldenke and Chlorothalonil. International Journal of Applied Microbiology and Biotechnology Research 6:8-14. |
|
|
Kushalappa AC, Eskes AB (1989). Advances in coffee rust research. Annual Review of Phytopathology 27:503-531. |
|
|
Mahfud MC, Mior Ahmad ZA, Meon S, Kadir J (2006). In Vitro and In Vivo Tests for Parasitism of Verticillium psalliotae Treschow on Hemileia Vastatrix BERK. and BR. Malaysian Journal of Microbiology 2(1):46-50 |
|
|
McGee PA (2002). Reduced growth and deterrence from feeding of the insect pest Helicoverpa armigera associated with fungal endophytes of cotton. Australian Journal of Experimental Agriculture 42(7):995-999. |
|
|
Merle I (2019). Effets du microclimat sur le d éveloppement de l'épidémie de rouille orangée du caféier Arabica (Hemileia vastatrix - Coffea arabica) dans une gamme de situations de production. Thèse de doctorat, Université de Montpellier 186 p. |
|
|
Mitchell JK, Smith DH, Taber RA (1987). Potential for biological control of Cercosporidiurn personatum leafspots of peanuts by Lhyma puluinata. Canadian Journal of Botany, 65(11):2263-2269. |
|
|
Nana TA, Zongo A, Neya BF, Koita K, Sanon E, Ouedraogo A, Zagre MB, Sankara P (2014). Influence de la température sur la croissance radiale in vitro de Lecanicillium lecanii, candidat de lutte biologique contre les cercosporioses et la rouille de l'arachide (Arachis hypogaea L.). Les Annales de l'Université de Ouagadougou, Série C, 10:1-27. |
|
|
Neya BF (2017). Héritabilité de la résistance aux cercosporioses de l'arachide, (Arachis hypogaea L.) et de quelques caractères associés au rendement. Thèse de doctorat unique, Université OUAGA I Pr. Joseph KI-ZERBO, Ouagadougou 220 p. |
|
|
Nguyen HQ, Quyen DT, Nguyen SLT, VU VH (2015). An extracellular antifungal chitinase from Lecanicillium lecanii: purification, properties, and application in biocontrol against plant pathogenic fungi. Turkish Journal of Biology 39:6-14. |
|
|
Setiawati R, Widiastuti A, Wibowo A, Priyatmojo A (2021). Variability of Lecanicillium spp. Mycoparasite of Coffee Leaf Rust Pathogen (Hemileia vastatrix) in Indonesia. Pakistan Journal of Biological Sciences 24(5):588-598. |
|
|
Shokes FM, Culbreath AK (1997). Early and late leaf spots. In: Kokalis-Burell N., Porter D.M., Rodriguez-Kabana R., Smith D.H., Subrahmanyam P. (eds): Compendium of Peanut Diseases. 2nd Ed. APS Press, St. Paul: 17-20. |
|
|
Subrahmanyam P, Gibbons RW, Nigam, SN, Rao VR (1980). Screening methods and further sources of resistance to peanut rust. Peanut Science 7:10-12. |
|
|
Subrahmanyam P, Mc Donald D, Gibbons RW, Nigam SN, Nevill DJ (1982). Resistance to rust and late leaf spot disease in some genotypes of Arachis hypogaea L. Peanut Science 9:6-10. |
|
|
Subrahmanyam P, Reddy PM, McDonald D (1990). Parasitism of Rust, Early and Late Leafspot Pathogens of Peanut by Verticillium Lecanii. Peanut Science 17(1):1-3. |
|
|
Subrahmanyam P, Wongkaew S, Reddy DVR, Demski JL, Mc Donald D, Sharma SB, Smith DH (1992). Diagnostic au champ des maladies de l'arachide. ICRISAT, Bulletin d'information No. 36, Patancheru, Andhra Pradesh 5020324, Inde, ISBN 92-9066-256-5, 79 p. |
|
|
Trinh DN, Ha TKL, Qiu D (2020). Biocontrol Potential of Some Entomopathogenic Fungal Strains Against Bean Aphid Megoura japonica (Matsumura). Agriculture 10:114. |
|
|
Vandermeer J, Perfecto I, Liere H (2009). Evidence for hyperparasitism of coffee rust (Hemileia vastatrix) by the entomogenous fungus, Lecanicillium lecanii, through a complex ecological web. Plant Pathology 58:636-641. |
|
|
Xie T, Jiang L, Li J, Hong B, Wang X, Jia Y (2019). Effects of Lecanicillium lecanii strain JMC-01 on the physiology, biochemistry, and mortality of Bemisia tabaci Q-biotype nymphs. PeerJ, 7:e7690. |
|
|
Zambettakis C, Sankara P (1985). Les hyperparasites fongiques de Puccinia arachidis en Afrique. PremiCres JournCes d'Etudes sur les Maladies des Plantes 1:133-349. |
|
|
Zongo A, Konate AK, Koïta K, Sawadogo M, Sankara P, Ntare BR, Desmae H (2019). Diallel Analysis of Early Leaf Spot (Cercospora arachidicola Hori) Disease Resistance in Groundnut. Agronomy 9(1):15. |
|
Copyright © 2024 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0
