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Drying and formulation of blastospores of Paecilomyces fumosoroseus (Hyphomycetes) produced in two different liquid media
Authors:Sandoval-Coronado  C.F.  Luna-Olvera  H.A.  Arévalo-Niño  K.  Jackson  M.A.  Poprawski  T.J.  Galán-Wong  L.J.
Affiliation:(1) Facultad de Ciencias Biológicas, Departamento de Microbiología e Inmunología, Cd. Universitaria, Universidad Autónoma de Nuevo León, AP 414, San Nicolás de los Garza, NL 66450, México;(2) USDA-ARS-NCAUR, 1815 N. University Street, Peoria, 61604, IL, USA;(3) Texas A&M Agricultural Experiment Station and USDA-ARS-Beneficial Insects Research Unit, 2413 East Highway 83, Weslaco, 78596, TX, USA
Abstract:Formulation matrices can play an important role in improving the storage survival and biocontrol efficacy of microorganisms used for the control of pest insects. In this study, liquid culture-produced blastospores of the entomopathogenic fungus Paecilomyces fumosoroseus were formulated with different inert and organic materials prior to air-drying. Paecilomyces fumosoroseus blastospores were produced in two different liquid media, a basal salts medium supplemented with Casamino acids and glucose (LM1) and a medium containing peptone of collagen and glucose (LM2). Blastospores produced in the two test media were formulated with various supports. The formulation supports were cornstarch, rice flour, talc powders, Mexican lime, calcined kaolin clay, and diatomaceous earth. Several of the supports were tested at different concentrations. The initial and long-term (after storage at 4 and 28 °C) survival of the formulated, air-dried blastospores were evaluated. Initial blastospore viabilities were affected by the formulation material and by the blastospore production medium. Medium composition, drying support and storage temperature had an impact on the long-term survival of the blastospores. Under the conditions of the study, LM1 produced higher concentrations of blastospores that not only survived drying better than blastospores produced in LM2 but also maintained viability longer during storage in the formulation supports tested. The nature of the drying supports was shown to have a significant impact on the storage stability of all blastospores, particularly those produced in LM1. Under the production, drying and storage conditions used in the study, calcined kaolin clay formulations stored at 4 °C had the best storage stability. In all formulations tested, spore survival over time was reduced for blastospore formulations stored at 28 °C rather than 4 °C.
Keywords:Air-drying  blastospores  calcined kaolin clay  desiccation tolerance  formulation  Paecilomyces fumosoroseus  submerged culture
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