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Effects of temperature and water activity on Lecanicillium spp. conidia germination and growth,and mycosis of Pissodes strobi
Authors:Harry?H.?Kope  author-information"  >  author-information__contact u-icon-before"  >  mailto:Harry.Kope@gov.bc.ca"   title="  Harry.Kope@gov.bc.ca"   itemprop="  email"   data-track="  click"   data-track-action="  Email author"   data-track-label="  "  >Email author,René?I.?Alfaro,Robert?Lavallée
Affiliation:(1) Pacific Forestry Centre, Canadian Forest Service, Victoria, BC, Canada, V8Z 1M5;(2) Centre de foresterie des Laurentides, Service canadien des forêts, Sainte-Foy, QC, Canada, G1V 4C7;(3) Present address: Forest Practices Branch, British Columbia Ministry of Forests and Range, 727 Fisgard Street, Victoria, BC, Canada, V8W 1R8
Abstract:Selecting entomopathogenic fungal isolates for use as biocontrol agents requires an assessment of their growth and virulence characteristics as affected by environmental conditions. Here we demonstrate a wide temperature and moisture range for colony growth, effective conidial germination and virulence against Pissodes strobi Peck (white pine weevil) of several isolates of Lecanicillium Gams and Zare, an entomopathogenic fungus distributed worldwide and indigenous to forests on Vancouver Island, British Columbia, Canada. In order to examine the potential Lecanicillium as a biological control agent, the pathogenicity of isolates collected from different geographical locations on P. strobi cadavers was assessed, and colony growth at different temperatures was evaluated. Colony growth was evident between 5 and 30°C, with optimal growth occurring at 25°C. Various combinations of water activity (0.55, 0.76, 0.85 and 0.99 a w) and temperature (10, 15, 20, and 25°C) were also used to evaluate environmental impacts on conidial germination and cumulative mycosis of adult P. strobi. Certain Lecanicillium isolates displayed xerophilic (0.85 a w) or psychrophilic (10°C) growth optima. Ultimately, identifying the abiotic limits of this entomopathogenic fungus will be used to determine which isolates have potential for future in situ biocontrol trials.
Keywords:Biological control  Entomopathogenic fungi  White pine weevil  Abiotic tolerance   Pissodes strobi    Lecanicillium
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