Species composition of Dothideomycetes in the anthropogenically transformed ecosystems of the steppe zone of Ukraine

Abstract: The article considers the species composition of the Dothideomycetes and its structural characteristics in conditions of anthropogenically transformed ecosystems of the steppe zone of Ukraine. The materials of the work were the original mycological collection carried out as part of the mycological survey of this territory during 2008–2016, as well as the materials of the herbarium of the Institute of Botany named after M. Kholodny of the National Academy of Sciences of Ukraine. Herbarium collection and identif… Show more

“…The five target plants in our study belong to families of Chenopodiaceae (S. passerina and N. sphaerocarpa), Tamaricaceae (R. soongorica), Zygophyllaceae (S. regelii) and Ephedraceae (E. przewalskii), with these plant communities are found in desert, beach, arid grasslands and other different environments. Compared with these phylogenetically related plants, the orders of Hypocreals, Xylariles, Onygenales, Eurotiales and Saccharomycetales have been reported in coastal Chenopodiaceae plants [84,85]; Botryosphaeriales, Capnodiales, and Dothideales were found in the steppe ecosystem of Chenopodiaceae and Tamaricaceae plants [86]; and Pezizakes, Xylariles, Botryosphaeriales, Sordariales and Hymenochaetales have been identified in Chenopodiaceae, Zygophyllaceae and Ephedraceae plants in forest ecosystems [87][88][89]. This suggests the plant species associated with the same phylogenetic levels may play a selective recruitment role in endophytic communities and tend to share the same microflora regardless of their distributive distance [20].…”

Fungal Endophytic Community and Diversity Associated with Desert Shrubs Driven by Plant Identity and Organ Differentiation in Extremely Arid Desert Ecosystem

“…The five target plants in our study belong to families of Chenopodiaceae (S. passerina and N. sphaerocarpa), Tamaricaceae (R. soongorica), Zygophyllaceae (S. regelii) and Ephedraceae (E. przewalskii), with these plant communities are found in desert, beach, arid grasslands and other different environments. Compared with these phylogenetically related plants, the orders of Hypocreals, Xylariles, Onygenales, Eurotiales and Saccharomycetales have been reported in coastal Chenopodiaceae plants [84,85]; Botryosphaeriales, Capnodiales, and Dothideales were found in the steppe ecosystem of Chenopodiaceae and Tamaricaceae plants [86]; and Pezizakes, Xylariles, Botryosphaeriales, Sordariales and Hymenochaetales have been identified in Chenopodiaceae, Zygophyllaceae and Ephedraceae plants in forest ecosystems [87][88][89]. This suggests the plant species associated with the same phylogenetic levels may play a selective recruitment role in endophytic communities and tend to share the same microflora regardless of their distributive distance [20].…”

Fungal Endophytic Community and Diversity Associated with Desert Shrubs Driven by Plant Identity and Organ Differentiation in Extremely Arid Desert Ecosystem