RMM9Y1CB–Microsporum persicolor fungus growing on a dextrose agar plate culture, 1973. Image courtesy of Centers for Disease Control (CDC) / Dr Arvind A Padhye. Image courtesy CDC. ()
RF2R775AB–Colonies of different mold fungi grown from indoor air on Petri dish with Sabourad dextrose agar, close-up view. Hand in white glove holding plate wit
RMT681G4–Close-up photograph of the Sabouraud's dextrose agar plate with the anthrophilic dermatophyte Trichophyton yaoundei at week 6, 1962. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Lucille K. Georg. ()
RMHRHB9Y–Lab Tech Harvesting Fusarium
RMT697FK–Close-up photograph of a Sebouraud dextrose agar plate culture growing a colony of Microsporum persicolor fungus, 1973. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Arvind A. Padhye. ()
RM2CEKD44–. Journal of Agricultural Research. ut. C.—Rot of potato produced by inoculation with Phytophthora strain from coconut.Rotted area pinkish in color. A similar rot is produced by Phytophthora strain fromcacao. D.—Rot of Ben Davis apple produced by inoculation with Phytophthora strainfrom cacao. E.—Rot of Ben Davis apple produced by inoculation with Phytophthora strainfrom coconut. PLATE 7 A.—Growth of coconut strains on potato dextrose agar made in Altman incubatorsat various temperatures. The effect of light and darkness is clearly shoTi in the twoplates grown at the same temperature: 22.0 i
RMKR14FJ–Sabouraud?s dextrose agar plate of the fungi Trichophyton ajelloi at 4 weeks, 1961. Colonies of T. ajelloi are usually flat, powdery, and cream to tan to in color, with a blackish-purple submerged fringe and reverse. Macroconidia are numerous, smooth, thick-walled, and elongated. Image courtesy CDC/Dr. Georg.
RMHTBGYJ–Sabouraud's dextrose agar plate culture growing the fungus Curvularia harveyi, 1973. Image courtesy CDC/Dr. William Kaplan.
RF2R775EC–Colonies of different mold fungi grown from indoor air on Petri dish with Sabourad dextrose agar, close-up view. Hand in white glove holding plate wit
RMHRHBA1–Lab Technician With Cultures
RMRGWF08–. Bulletin. Natural history; Natural history. 38 ILLINOIS NATURAL HISTORY SURVEY BULLETIN. Fig. 22.—Isolation plate showing Vermicularia growing from infected wood slices planted on potato dextrose agar five days before photographing. Of the six wood slices four yielded Yermicularia growths and two remained sterile. raspberry and material from this sotirce has been compared with our Coiiiothyria A and B. Aside from having somewhat smaller spores, the raspberry form of Coniothyriwn Fuckelii and Coniothyrium A are quite similar, but we are not convinced that they are identical. The characteristi
RMHTBH1K–Top view of a Sabouraud dextrose agar plate culture growing the dermatophytic fungus Microsporum persicolor, 1973. Image courtesy CDC/Dr. Arvind A. Padhye.
RF2R774R3–Colonies of different mold fungi grown from indoor air on Petri dish with Sabourad dextrose agar, close-up view. Hand in white glove holding plate wit
RMRE7T0D–. Corn smut caused by Ustilago maydis. Corn; Smut diseases. Fig. 12. A surface-dispersed plate of a black mono- sporidial line of Ustilago maydis grown in a shake culture in potato-dextrose agar. The black line has given rise to several kinds of white mutants (Lu, 203). in factors for compatibility, virulence, and physiology without obvious modification of cultural characters. Naturally, genetic changes for certain morphological characters such as size and echinulation of chlamydo- spores and changes in parasitism cannot be ascer- tained without inoculating the host. Frequency of mutation.—Alt
RMHTBH1W–Bottom, or 'reverse, ' view of a Sabouraud dextrose agar plate culture of the zoophilic fungus Microsporum persicolor, 1973. Image courtesy CDC/Dr. Arvind A. Padhye.
RF2R775AF–Colonies of different mold fungi grown from indoor air on Petri dish with Sabourad dextrose agar, close-up view. Hand in white glove holding plate wit
RMRE7T0A–. Corn smut caused by Ustilago maydis. Corn; Smut diseases. Fig. 12. A surface-dispersed plate of a black mono- sporidial line of Ustilago maydis grown in a shake culture in potato-dextrose agar. The black line has given rise to several kinds of white mutants (Lu, 203). in factors for compatibility, virulence, and physiology without obvious modification of cultural characters. Naturally, genetic changes for certain morphological characters such as size and echinulation of chlamydo- spores and changes in parasitism cannot be ascer- tained without inoculating the host. Frequency of mutation.—Alt
RMHT7J95–Top view of a Sabouraud dextrose agar plate culture growing the dermatophytic fungus Microsporum persicolor, 1973. Image courtesy CDC/Dr. Arvind A. Padhye.
RF2R774T3–Colonies of different mold fungi grown from indoor air on Petri dish with Sabourad dextrose agar, close-up view. Hand in white glove holding plate wit
RMRGWERF–. Bulletin. Natural history; Natural history. 56 ILLINOIS NATURAL HISTORY SURVEY BULLETIN. Fig. 32.—Petri-dish culture of Xylaria, showing its white, cottony my- celium and a number of black stromata in various stages of early develop- ment, after 30 days on acidified potato dextrose agar. An early stage in the development in culture of the elm Xylaria is shown in figure 32. In its early growth the mycelium is dense, cottony and pure white. Later, after having spread over the entire culture plate, the mycelium darkens, ultimately forming very black, irregular blotches either at the edge of the
RMHT7J9J–Top view of a Sabouraud dextrose agar plate culture of a colony of the zoophilic fungus Microsporum persicolor, 1973. Image courtesy CDC/Dr. Arvind A. Padhye.
RMHTBH25–Bottom view of a Sabouraud's dextrose agar plate culture growing a Mexican isolate of T. rubrum var, 1974. rodhaini. Image courtesy CDC/Dr. Libero Ajello.
RF2R774T8–Colonies of different mold fungi grown from indoor air on Petri dish with Sabourad dextrose agar, close-up view. Hand in white glove holding plate wit
RMRGBEJ5–. Bulletin of the U.S. Department of Agriculture. Agriculture; Agriculture. Bui. 1118, U. S. Dept. of Agriculture. PLATE Vil.. Fig. I.âCultures of the Citrus-Scab Fungus. Growth of 16 days on slants: a, On beef agar; 6. on glycerin agar; c, on potato-dextrose agar; d, on Molisch's agar: e. on tomato agar. This fungus varies greatly in culture. The growth characters in tubes b and d are not at all similar. n â â ^gj' -^ '^^^^^^H m^^,.^ v^^^^^l^^^^^^^l ^^^H|^^ ^JH|| II^H^H H^^Q ^â H mB 9 ^3 '^^[^^^I^^H !â Fig. 2.âCitrus Scab on Unusual Citrus Fruits. EfEect on Chinese lemon (a); calamondiu (ft);
RMHTBH2B–Top view of a Sabouraud's dextrose agar plate culture growing a Mexican isolate of T. rubrum var, 1974. rodhaini. Image courtesy CDC/Dr. Libero Ajello.
RMT697FY–Bottom view photograph of the Sebouraud dextrose agar plate culture growing a colony of Microsporum persicolor fungus, 1973. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Arvind A. Padhye. ()
RF2R775C1–Colonies of different mold fungi grown from indoor air on Petri dish with Sabourad dextrose agar, close-up view. Hand in white glove holding plate wit
RMT697GC–Bottom view photograph of the Sebouraud dextrose agar plate culture growing a colony of Microsporum persicolor fungus, 1973. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Arvind A. Padhye. ()
RMKR14DB–This photograph depicts Sabouraud?s dextrose agar plate of the fungi Microsporum vanbreuseghemi, 1961. M. vanbreuseghemi colonies grow rapidly, and mature in a week. The front color is cream-yellow, pink or tan with a lemon-yellow, or yellow to orange diffusible pigment observed from the reverse. Image courtesy CDC/Dr. Georg.
RMKR13DX–Here a Sabouraud?s dextrose agar plate has cultured the fungus Epidermophyton floccosum, strain 257A. On Sabouraud?s dextrose agar plate, Epidermophyton floccosum colonies are slow growing, greenish-brown or khaki colored with a suede-like surface, 1964. E. floccosum is one of the common causes of dermatophytosis, and can infect the skin and nails. Image courtesy CDC/Dr. Lucille K. Georg.
RF2R775ED–Colonies of different mold fungi grown from indoor air on Petri dish with Sabourad dextrose agar, close-up view. Hand in white glove holding plate wit
RF2R774PW–Colonies of different mold fungi grown from indoor air on Petri dish with Sabourad dextrose agar, close-up view. Hand in white glove holding plate wit
RF2R76YXW–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R77031–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R7703E–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R77062–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R7705Y–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R7709K–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R770B1–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R7709H–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R77021–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R770JD–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R77060–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R770K0–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R770HR–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R770EW–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R770F1–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R770EH–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R770EB–Colony of a mold fungus cultivated from indoor air on Sabourad dextrose agar.
RF2R7E299–Colony of a mold fungus cultivated from indoor air on Petri dish with Sabourad dextrose agar.
RF2R7E29B–Colonies of mold fungi cultivated from indoor air on a Petri dish with Sabourad dextrose agar.
RF2R7E2G5–Colonies of mold fungi cultivated from indoor air on a Petri dish with Sabourad dextrose agar.
RF2R7E321–Colonies of mold fungi cultivated from indoor air on a Petri dish with Sabourad dextrose agar.
RF2R7E35K–Colonies of mold fungi cultivated from indoor air on a Petri dish with Sabourad dextrose agar.
RF2R7E30F–Colonies of mold fungi cultivated from indoor air on Petri dish with Sabourad dextrose agar, SDA.
RF2R7E30G–Colony of a mold fungus cultivated from indoor air on a Petri dish with Sabourad dextrose agar.
RF2R7E3BC–Colony of a mold fungus cultivated from indoor air on a Petri dish with Sabourad dextrose agar.
RF2R7E3B7–Colony of a mold fungus cultivated from indoor air on a Petri dish with Sabourad dextrose agar.
RF2R7E315–Colony of a mold fungus cultivated from indoor air on a Petri dish with Sabourad dextrose agar.
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