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GLOMERELLA|cingulata":
5 articles found in Index.
PARVEEN S., WANI A.H., BHAT M.Y., KOKA J.A. (2016): Biological control of postharvest fungal rots of rosaceous fruits using microbial antagonists and plant extracts - a review. [biological control, postharvest diseases, microbial pesticides, rosaceous fruits] Czech Mycology 68(1): 41-66 (published: 1st February, 2016)
abstract
This article aims to give a comprehensive review on the use of microbial antagonists (fungi and bacteria), botanicals and compost extracts as biocontrol agents against different pathogenic fungi causing postharvest fungal rots in rosaceous fruits which shows that they can play an important role in the biomanagement of fungi causing rot diseases. Plant extracts reported in the literature against pathogenic fungi indicate that they can act as a good biological resource for producing safe biofungicides. However most of the work has been done under experimental conditions rather than field conditions. There is still a need for research to develop suitable formulations of biofungicides from these microbial biocontrol agents and plant extracts. The review reveals that extensive ecological research is also required in order to achieve optimum utilisation of biological resources to manage various postharvest diseases of fruits.
GIRIVASAN K.P., SURYANARAYANAN T.S. (2004): Intact leaves as substrate for fungi: distribution of endophytes and phylloplane fungi in rattan palms. [phylloplane fungi, endophytes, Calamus, India] Czech Mycology 56(1-2): 33-43 (published: 12th August, 2004)
abstract
Leaves of twelve species of Calamus from southern India were screened simultaneously for the presence of phylloplane and endophytic fungi. Sampling of 2400 leaf segments yielded 824 endophyte isolates belonging to 34 species. Thirty species of phylloplane fungi were recorded. Several fungal species were found to be shared as endophytes by different hosts. However, the overlap between endophyte assemblage and phylloplane fungi of each host was low, suggesting that these two distinct groups of fungi occupy different niches, there by avoiding competition.
HUBÁLEK Z. (1981): A systematic survey of dimorphic and polymorphic fungi. Česká Mykologie 35(4): 209-226 (published: 1981)
abstract
Various definitions of the term dimorphism in fungi are briefly discussed and a general concept is given with a suggested morphological classification of the dimorphism. Dimorphism (and polymorphism) is delimited as an environmentally controlled reversible phenotypic duality (or plurality in the case of polymorphism) in the morphogenesis of the vegetative fungal cells, which is not restricted to pathogenic species and to the mycelial-yeast transitions only. A systematic list and an alphabetical index of the fungi exhibiting the phenomena of cellular dimorphism or polymorphism are presented.
JANITOR A. (1967): Inhibierende Wirkung von Extrakten und dichten Suspensionen von Konidien des Pilzes Erysiphe graminis f. sp. hordei Marchal auf deren eigene Keimung. Česká Mykologie 21(3): 185-191 (published: 1967)
abstract
The inhibitory effects of extracts and dense suspensions of Erysiphe graminis f. sp. hordei conidia on their own germination are studied. Findings suggest the presence of self-inhibitory substances released by the conidia, which may complicate in vitro cultivation of this obligate parasite.
BAUDYŠ E. (1950): O houbách, způsobujících hnilobu ovoce. Česká Mykologie 4(6-7): 99-102 (published: 15th August, 1950)
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