Aerodynamic diameter of conidia of Erynia neoaphidis and other entomophthoralean fungi

The aerodynamic diameter, da, of conidia produced in vivo and in vitro by the entomopathogenic fungus Erynia neoaphidis were estimated using an impaction method. The estimated values of da for conidia produced in vivo were smaller than those produced in vitro: in vivo the values of da for primary an...

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Published in	Mycological research Vol. 106; no. 2; pp. 233 - 238
Main Authors	HEMMATI, Farhad, PELL, Judith K., McCARTNEY, H. Alastair, DEADMAN, Michael L.
Format	Journal Article
Language	English
Published	Cambridge, UK Cambridge University Press 01.02.2002 Elsevier Ltd Elsevier
Subjects	Biological and medical sciences Biological control Control Fundamental and applied biological sciences. Psychology Microbiology Morphology, structure, chemical composition Mycology Phytopathology. Animal pests. Plant and forest protection Protozoa. Invertebrates Entomopathogen Interspecific comparison Phycomycetes Aerodynamics Ecology Epizootics In vitro Dispersion Fungi In vivo Diameter Thallophyta Conidia
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Abstract	The aerodynamic diameter, da, of conidia produced in vivo and in vitro by the entomopathogenic fungus Erynia neoaphidis were estimated using an impaction method. The estimated values of da for conidia produced in vivo were smaller than those produced in vitro: in vivo the values of da for primary and secondary conidia were between 16 and 18 μm (equivalent fall speed, Vs, 0·8–1·0 cm s−1); for in vitro produced conidia da values were between 28 and 31 μm (Vs, 2·4–3 cm s−1). For conidia produced by field collected cadavers the value of da, was estimated to be similar to that for conidia produced in vivo in the laboratory. The aerodynamic diameter of primary conidia of Conidiobolus obscurus (strain X39) and Zoophthora radicans (strain NW250) produced in vivo were also measured using the same method. The values of da for these two species were 45 and 17 μm (Vs, 6·2 and 0·9 cm s−1) respectively. Implications for dispersal of E. neoaphidis are discussed. The physical diameters of the test spores were measured microscopically and compared with the aerodynamic diameters.
AbstractList	The aerodynamic diameter, da, of conidia produced in vivo and in vitro by the entomopathogenic fungus Erynia neoaphidis were estimated using an impaction method. The estimated values of da for conidia produced in vivo were smaller than those produced in vitro: in vivo the values of da for primary and secondary conidia were between 16 and 18 μm (equivalent fall speed, Vs, 0·8–1·0 cm s−1); for in vitro produced conidia da values were between 28 and 31 μm (Vs, 2·4–3 cm s−1). For conidia produced by field collected cadavers the value of da, was estimated to be similar to that for conidia produced in vivo in the laboratory. The aerodynamic diameter of primary conidia of Conidiobolus obscurus (strain X39) and Zoophthora radicans (strain NW250) produced in vivo were also measured using the same method. The values of da for these two species were 45 and 17 μm (Vs, 6·2 and 0·9 cm s−1) respectively. Implications for dispersal of E. neoaphidis are discussed. The physical diameters of the test spores were measured microscopically and compared with the aerodynamic diameters. The aerodynamic diameter, d a , of conidia produced in vivo and in vitro by the entomopathogenic fungus Erynia neoaphidis were estimated using an impaction method. The estimated values of d a for conidia produced in vivo were smaller than those produced in vitro: in vivo the values of d a for primary and secondary conidia were between 16 and 18 μm (equivalent fall speed, V s , 0.8–1.0 cm s −1); for in vitro produced conidia d a values were between 28 and 31 μm ( V s , 2.4–3 cm s −1). For conidia produced by field collected cadavers the value of d a , was estimated to be similar to that for conidia produced in vivo in the laboratory. The aerodynamic diameter of primary conidia of Conidiobolus obscurus (strain X39) and Zoophthora radicans (strain NW250) produced in vivo were also measured using the same method. The values of d a for these two species were 45 and 17 μm ( V s , 6.2 and 0.9 cm s −1) respectively. Implications for dispersal of E. neoaphidis are discussed. The physical diameters of the test spores were measured microscopically and compared with the aerodynamic diameters. The aerodynamic diameter, d sub(a), of conidia produced in vivo and in vitro by the entomopathogenic fungus Erynia neoaphidis were estimated using an impaction method. The estimated values of d sub(a) for conidia produced in vivo were smaller than those produced in vitro: in vivo the values of d sub(a) for primary and secondary conidia were between 16 and 18 mu m (equivalent fall speed, V sub(s), 0.8-1.0 cm s super(-1)); for in vitro produced conidia d sub(a) values were between 28 and 31 mu m (V sub(s), 2.4-3 cm s super(-1)). For conidia produced by field collected cadavers the value of d sub(a), was estimated to be similar to that for conidia produced in vivo in the laboratory. The aerodynamic diameter of primary conidia of Conidiobolus obscurus (strain X39) and Zoophthora radicans (strain NW250) produced in vivo were also measured using the same method. The values of d sub(a) for these two species were 45 and 17 mu m (V sub(s), 6.2 and 0.9 cm s super(-1)) respectively. Implications for dispersal of E. neoaphidis are discussed. The physical diameters of the test spores were measured microscopically and compared with the aerodynamic diameters.
Author	HEMMATI, Farhad McCARTNEY, H. Alastair PELL, Judith K. DEADMAN, Michael L.
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Snippet	The aerodynamic diameter, da, of conidia produced in vivo and in vitro by the entomopathogenic fungus Erynia neoaphidis were estimated using an impaction... The aerodynamic diameter, d a , of conidia produced in vivo and in vitro by the entomopathogenic fungus Erynia neoaphidis were estimated using an impaction... The aerodynamic diameter, d sub(a), of conidia produced in vivo and in vitro by the entomopathogenic fungus Erynia neoaphidis were estimated using an impaction...
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SubjectTerms	Biological and medical sciences Biological control Control Fundamental and applied biological sciences. Psychology Microbiology Morphology, structure, chemical composition Mycology Phytopathology. Animal pests. Plant and forest protection Protozoa. Invertebrates
Title	Aerodynamic diameter of conidia of Erynia neoaphidis and other entomophthoralean fungi
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