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[5] [6] The genus name "Lomentospora" referred to the shape of the apex of the spore-bearing cell, which the authors interpreted to be a rachis resembling a bean pod of the sort constricted at each seed. The species epithet "prolificans" derived from the prolific nature of the mold's sporulation.
Paecilomyces variotii is fast growing, producing powdery to suede-like colonies that are yellow-brown or sand-colored. [8] It is distinguishable from microscopically similar microfungi, such as the biverticillate members of the genus Penicillium (affiliated with the genus Talaromyces) by its broadly ellipsoidal to lemon-shaped conidia, loosely branched conidiophores and phialides with pointed ...
It is the most resilient mould as it needs less water for growth and propagation. [14] It has a soft and velvety surface. The spore-bearing filaments, conidiophores are smooth and measure 200-300 μm in length. The hairy surface, penicilli are 8-12 μm long.
"We don't recommend cutting mold off of bread, because it's a soft food," Marianne Gravely, a senior technical information specialist for the United States Department of Agriculture, told NPR ...
A cluster of conidiophore s bearing the spore mass, like a cushion. [363] statismospore A spore that is not forcibly discharged, unlike a ballistospore. Seen in the basidiospores of Gastromycetes. From Gr. statis, immobility. [364] stellate Like a star in form, especially spores. [365] sterigma. pl. sterigmata
The plasmodium eventually transforms into a sponge-like aethalium, analogous to the spore-bearing fruiting body of a mushroom; which then degrades, darkening in color, and releases its dark-colored spores. F. septica produces the largest aethalium of any slime mold. [8] This species is known to have its spores dispersed by beetles (family ...
Sarocladium kiliense was renamed from Acremonium kiliense by Grütz in 1925, and it is particularly known as Cephalosporium acremonium in medical mycology. [5] The name Cephalosporium was used to describe colorless molds with simple unbranched conidiophores and condiogenous cells bearing at the tip or head of the unicellular conidia. [3]
The order was originally proposed in 1926 by Swiss mycologist Ernst Albert Gäumann to accommodate species within the phylum Basidiomycota producing basidiocarps (fruit bodies) showing a gymnocapous mode of development (forming the spore-bearing surface externally).