2021
DOI: 10.1007/s00284-021-02437-5
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Foliar Endophytic Fungi Inhabiting an Annual Grass Along an Aridity Gradient

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Cited by 5 publications
(5 citation statements)
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“…The latter is likely associated with microclimate conditions, highlighting the importance of integrating both local and regional environmental factors in studying FE community composition. Our results concur with previous studies, which showed that marked aridity gradients or distinct aridity conditions modulate rhizosphere and endosphere fungal diversity and community composition [ 25 , 30 , 31 ]. For example, there is evidence that foliar FE richness in the annual plant Brachypodium sp.…”
Section: Discussionsupporting
confidence: 93%
See 1 more Smart Citation
“…The latter is likely associated with microclimate conditions, highlighting the importance of integrating both local and regional environmental factors in studying FE community composition. Our results concur with previous studies, which showed that marked aridity gradients or distinct aridity conditions modulate rhizosphere and endosphere fungal diversity and community composition [ 25 , 30 , 31 ]. For example, there is evidence that foliar FE richness in the annual plant Brachypodium sp.…”
Section: Discussionsupporting
confidence: 93%
“…was greater in wetter sites (over 1000 mm of annual precipitation) than in the drier sites along an aridity gradient (less than 500 mm of annual precipitation) [ 25 ]. By contrast, for the cactus Opuntia ficus-indica , it was shown that alpha fungal diversity in the rhizosphere and endosphere did not change along a bioclimatic gradient from 1200 to 200 mm of annual precipitation [ 31 ]. However, the aridity gradient significantly contributed to differences in fungal species composition (beta diversity) [ 31 ].…”
Section: Discussionmentioning
confidence: 99%
“…Environment and endophyte diversity-Assessing microbial diversity patterns, we found that bacterial endophyte species (Shannon's index) and phylogenetic (Faith's PD) diversity were remarkably consistent across host species and all environmental variables measured. Fungal endophyte diversity, however, was significantly greater in less arid and high precipitation regions (although insignificant in multivariate analyses), which is in accordance with observations of increased richness of foliar endophytic fungi of an annual grass at wetter locations in the Mediterranean by Penner and Sapir (2021), as well as of a tree species in a Hawaiian terrain by Zimmerman and Vitousek (2012). Our results showing non-significance of latitude contrast with previous investigations demonstrating a commonly observed latitudinal diversity gradient, in which diversity declines from equatorial to polar regions.…”
Section: Discussionsupporting
confidence: 88%
“…At genus resolution, plant samples showed a high abundance of genera that have been already described as endophytes: Exophiala (Yu et al, 2021), Monosporascus (Guo and Zou, 2020), Paraphoma (Kang et al, 2021), Plectospherella (Feng et al, 2021;Wei et al, 2021), Podospora (Penner and Sapir, 2021). Some of these genera were even identified in Brassicaceae plant endospheres, including Exophiala (Maciá-Vicente et al, 2016), Plectosphaerella (Plaszkó et al, 2020;Ważny et al, 2021), Setophoma (Szűcs et al, 2018;Poveda et al, 2020), or as a common pathogen: Thanatephorus (teleomorph of Rhizoctonia) (Dean et al, 2012).…”
Section: Fungal Community Composition and Diversitymentioning
confidence: 99%