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Search for "dimorphospora": 5 articles found in Index.

GÖNCZÖL J., RÉVAY Á. (2011): Aquatic hyphomycetes and other water-borne fungi in Hungary.   [aquatic hyphomycetes, canopy fungi, Hungary]  Czech Mycology 63(2): 133-151   (published: 10th August, 2011)
  abstract   The history of research on aquatic hyphomycetes from various aquatic and terrestrial habitats in Hungary since the early 1900s is presented. Published and unpublished records of 117 species are listed, including those of some terrestrial hyphomycetes found in stream foam.

BÄRLOCHER F., STEWART M., RYDER D. (2011): Analyzing aquatic fungal communities in Australia: impacts of sample incubation and geographic distance of streams.   [aquatic hyphomycetes, zoosporic fungi, spore production, aeration vs. static incubation, temperature, geographic distance]  Czech Mycology 63(2): 113-132   (published: 10th August, 2011)
  abstract   Fungal colonization of Eucalyptus viminalis exposed in three streams (two sites each) near Armidale (NSW Tablelands, Australia) was characterized by measuring reproduction from recovered leaves in aerated and static water. Spore production for zoosporic and mitosporic fungi increased by up to 220 % and 310 %, respectively, in aerated water. Percentage similarities of aquatic hyphomycete communities between pairs of aerated and static samples from the same stream averaged 67.5 %; similarities among samples from different streams averaged 50.3 %. Canonical Analysis of Principal Coordinates (CAP) revealed no significant difference between fungal communities of aerated vs. static treatments summarized over all sites. The fungal communities of substrates from an additional nine streams, primarily from the coast, were characterized in September, 2010. They were compared to those on E. viminalis leaves incubated for four weeks at the original six sites. CAP revealed a significant difference between tableland and coastal fungal communities. Percentage similarities correlated significantly with geographic distance of the streams (R2 = 0.13), their temperature (R2 = 0.46) and their altitude (R2 = 0.65).

KARAMCHAND K.S., SRIDHAR K.R. (2008): Water-borne conidial fungi inhabiting tree holes of the west coast and Western Ghats of India.   [tree holes, canopy, leaf litter, water-borne fungi, conidia, diversity]  Czech Mycology 60(1): 63-74   (published: 4th July, 2008)
  abstract   The present study focuses on water-borne conidial fungi associated with leaf litter in riparian tree holes of the west coast (Konaje) and Western Ghats (Sampaje) of India during dry (summer) and wet (monsoon) seasons. Out of a total of 34 fungal taxa recovered from leaf litter trapped in tree holes, 26 fully identified taxa constitute the first record for the tree hole habitat. Paired t-test revealed no significant difference in number of taxa (P = 0.1177) and conidial output (P = 0.1816) between Konaje and Sampaje tree holes, while they significantly differed between seasons of Konaje (P = 0.0258) and Sampaje (P = 0.0206). The Simpson and Shannon diversity of fungi were highest in Sampaje than Konaje tree holes. Tree-wise diversity of fungi revealed that banyan (Ficus benghalensis) tree holes are highly diverse during the summer and monsoon seasons in Konaje, but only during summer in Sampaje. In spite of a low conidial output, tree hole leaf litter of Konaje yielded 18 taxa against 20 taxa in the Konaje stream, wheras 29 taxa were recorded in Sampaje tree holes against 68 taxa in the Sampaje stream. The current study has been compared with earlier investigations on the occurrence of water-borne conidial fungi in tree canopies (e. g. intact leaves, leaf litter, tree holes, stemflow and throughfall).

GULIS V., SUBERKROPP K. (2003): The effect of excluding plant litter on the aquatic hyphomycete conidia in a headwater stream.   [freshwater fungi, leaf litter, conidia concentration, community structure, seasonal patterns]  Czech Mycology 54(3-4): 249-260   (published: 23rd May, 2003)
  abstract   The concentrations and community structure of aquatic hyphomycete conidia in water were followed over a two-year period in two headwater streams at Coweeta Hydrologie Laboratory, NC, USA using the membrane filtration technique. Litter input into one stream was excluded for 6 years priorto and during the course of ourstudy whereas the reference stream received natural litter inputs during this time. This whole-stream substrate manipulation resulted in seasonal differences in maximum conidia concentrations in the two streams and shifts in dominant species or their rankings. However, total conidia concentrations were not significantly affected by the litter-exclusion treatment.

ŘEPOVÁ A. (1989): Soil micromycetes from Czechoslovakia-a list of isolated species with bibliography. III.  Česká Mykologie 44(1): 35-50   (published: 22nd February, 1990)
  abstract   A list of micromycetes (saprophytic, keratinophilic, rhizosphere, nematophagous, ovicidal, dermatophytes, and cellular slime moulds) isolated from various Czechoslovak soils is presented. Records about species distribution in Czechoslovakia and bibliography are included for each micromycete species.

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