scholarly journals Dominikia emiratia and Rhizoglomus dunense, two new species in the Glomeromycota

Botany ◽  
2017 ◽  
Vol 95 (7) ◽  
pp. 629-639 ◽  
Author(s):  
Mohamed N. Al-Yahya’ei ◽  
Sangeeta Kutty Mullath ◽  
Laila A. AlDhaheri ◽  
Anna Kozłowska ◽  
Janusz Błaszkowski
Keyword(s):  
New Species ◽  
United Arab Emirates ◽  
Mycorrhizal Fungi ◽  
Phylogenetic Analyses ◽  
Sand Dunes ◽  
Spore Wall ◽  
Wall Layer ◽  
Ammophila Arenaria ◽  
Rpb1 Gene ◽  
Two New Species

The morphological, histochemical, and molecular properties of two new species of arbuscular mycorrhizal fungi (AMF; Glomeromycota) have been characterized. The first species is distinguished by spores that are orange to brownish orange, small, and formed only in clusters and mainly by having two laminate layers in a three-layered spore wall, with layer three staining dark in Melzer’s reagent. Despite the morphological similarity to some Septoglomus spp., phylogenetic analyses of sequences of the SSU–ITS–LSU nrDNA region and the RPB1 gene accommodated the fungus in the genus Dominikia, hence it was named Dominika emiratia. Intact spores of the second species, named Rhizoglomus dunense, closely resemble colourless isolates of R. clarum, but their spore wall layer three never becomes coloured with age, as does that in most R. clarum spores, and most importantly, the two fungi are separated by a large molecular distance. Dominikia emiratia was originally extracted from the rhizosphere of three plant species cultivated in two fields in a sandy desert in the Emirate of Abu Dhabi of the United Arab Emirates. Rhizoglomus dunense was found in a trap culture inoculated with the rhizosphere soil and root fragments of Ammophila arenaria, which had colonized sand dunes of the Mediterranean Sea, located near Thessalonica, Greece.

Dominikia duoreactiva sp. nov. and Dominikia difficilevidera sp. nov., two new species in the Glomeromycota

Botany ◽  
2015 ◽  
Vol 93 (7) ◽  
pp. 389-396 ◽  
Author(s):  
Janusz Błaszkowski ◽  
Gerard Chwat ◽  
Sarah Symanczik ◽  
Anna Góralska
Keyword(s):  
New Species ◽  
Mycorrhizal Fungi ◽  
National Park ◽  
Phylogenetic Analyses ◽  
Arbuscular Mycorrhizal ◽  
Morphological Characters ◽  
Spore Wall ◽  
Worldwide Distribution ◽  
Two New Species ◽  
Dune Plants

Two new species of arbuscular mycorrhizal fungi (AMF) of the recently erected genus Dominikia (Glomeromycota) are described based on their morphology and phylogenetic analyses of SSU–ITS–LSU sequences. The distinctive morphological characters of the first species, Dominikia duoreactiva sp. nov., is the formation of loose clusters with yellow-coloured, 30–70 μm diameter spores having a three-layered spore wall, of which layers 1 and 3 stain in Melzer’s reagent. The second species, Dominikia difficilevidera sp. nov., is distinguished by its hyaline, 31–45 μm diameter spores, which arise mainly singly and have a three-layered spore wall, of which layer 1 is thicker than the structural laminate layer 2, and layer 3 is flexible to semi-flexible. Both species were originally associated with maritime dune plants; D. duoreactiva comes from the Giftun Island, Egypt, Africa, and D. difficilevidera from the Słowiński National Park, Poland. Based on available data, we suggest D. duoreactiva occurs rarely in the world, and D. difficilevidera has a worldwide distribution, but it either occurs infrequently or has been overlooked or lost during spore extraction from soils of many sites because of its extremely small and hyaline spores. A method allowing the extraction of even the smallest spores of AMF, but observable under a dissecting microscope, is described.

Diversispora valentina (Diversisporaceae), a new species of arbuscular mycorrhizal fungi from the Mediterranean sand dunes of Spain

Phytotaxa ◽  
2020 ◽  
Vol 468 (1) ◽  
pp. 62-74
Author(s):  
ALBERTO GUILLÉN ◽  
FERNANDO JAVIER SERRANO-TAMAY ◽  
JUAN BAUTISTA PERIS ◽  
ISABEL ARRILLAGA
Keyword(s):  
New Species ◽  
Mycorrhizal Fungi ◽  
Phylogenetic Analyses ◽  
Large Subunit ◽  
Sand Dunes ◽  
Arbuscular Mycorrhizal ◽  
Small Subunit ◽  
Mediterranean Coast ◽  
Ammophila Arenaria ◽  
The Mediterranean

A new arbuscular mycorrhizal fungal species, Diversispora valentina, is described and illustrated. In the field, this species is associated with marine dunes located along the Mediterranean coast in eastern Spain. Spores of D. valentina occurred in sporocarps, in clusters, and singly in the soil or inside the roots of Ammophila arenaria (Poaceae), Elymus farctus (Poaceae), Otanthus maritimus (Asteraceae), and Echinophora spinosa (Apiaceae) in the six locations studied. A single-species culture of D. valentina was obtained using Trifolium repens as a host plant. The small subunit internal transcribed spacer and large subunit (SSU-ITS1-5.8S-ITS2-LSU) nrDNA sequences place the new species in the genus Diversispora and suggest that it differs from any previously described species. The novelty of this species is supported by morphological, molecular, and phylogenetic analyses.

Dominikia litorea, a new species in the Glomeromycotina, and biogeographic distribution of Dominikia

Phytotaxa ◽  
2018 ◽  
Vol 338 (3) ◽  
pp. 241 ◽  
Author(s):  
JANUSZ BŁASZKOWSKI ◽  
PRZEMYSŁAW RYSZKA ◽  
ANNA KOZŁOWSKA
Keyword(s):  
New Species ◽  
Sequence Data ◽  
Phylogenetic Analyses ◽  
Sand Dunes ◽  
Mycorrhizal Fungus ◽  
Single Species ◽  
Morphological Characters ◽  
Spore Wall ◽  
Mycorrhizal Symbiosis ◽  
Rpb1 Gene

An arbuscular mycorrhizal fungus (AMF) producing clusters with colourless, small (11‒35 µm diam when globose) spores of unique morphological characters of two spore wall layers was grown in a trap culture and in single-species cultures. Both the spore wall layers are permanent and have the same thickness. The features of the spores prompted that the fungus most probably belongs to one of the genera, Dominikia or Kamienskia. Phylogenetic analyses of sequences of the SSU‒ITS‒LSU nrDNA and the RPB1 gene showed that the discussed AMF is an undescribed Dominikia sp. highly diverged molecularly from the 12 so far described species of the genus. Consequently, the fungus is described here as D. litorea sp. nov. The sporulation of D. litorea in the trap culture indicated that in the field the new species lived in mycorrhizal symbiosis with Xanthium spinosum that had colonized sand dunes of the Mediterranean Sea located near Verico, Greece. However, comparisons of the SSU‒ITS‒LSU sequences of D. litorea with those obtained from molecular environmental studies, which are deposited in public databases, indicated that the new species probably is also associated with roots of an unnamed plant species growing in China. In addition, based on available literature, sequence data and personal observations, the so far known geographical distribution, habitats, and plant-hosts of the described Dominikia spp. were presented and discussed. Finally, the potential participation of Dominikia spp. in influencing plants and plant communities with which they are associated and ecosystems in which they exist were discussed.

Glomus achrumandG. bistratum,two new species of arbuscular mycorrhizal fungi (Glomeromycota) found in maritime sand dunes

Botany ◽  
2009 ◽  
Vol 87 (3) ◽  
pp. 260-271 ◽  
Author(s):  
Janusz Błaszkowski ◽  
Przemysław Ryszka ◽  
Fritz Oehl ◽  
Sally Koegel ◽  
Andres Wiemken ◽  
...  
Keyword(s):  
Arbuscular Mycorrhiza ◽  
Mycorrhizal Fungi ◽  
Phylogenetic Analyses ◽  
Plantago Lanceolata ◽  
Sand Dunes ◽  
Arbuscular Mycorrhizal ◽  
Its Region ◽  
Ammophila Arenaria ◽  
Vesicular Arbuscular Mycorrhiza ◽  
Vesicular Arbuscular

Two new arbuscular mycorrhizal fungal species, Glomus achrum sp. nov. and Glomus bistratum sp. nov. (Glomeromycota), are described and illustrated. Both species produce small, hyaline spores in aggregates formed in the soil and inside roots. Glomus achrum was associated with roots of Ammophila arenaria (L.) Link colonizing maritime dunes of the Vistula Bar in northern Poland, and G. bistratum occurred among vesicular-arbuscular mycorrhiza of Xanthium cf. spinosum growing in dunes of the Mediterranean Sea adjacent to Veriko, Greece. Spores of G. achrum are globose to subglobose, (25–)43(–55) µm in diameter, rarely egg-shaped, oblong to irregular, 15–45 µm × 55–65 µm. Their wall consists of three hyaline layers: a mucilaginous, short-lived outermost layer; a laminate middle layer composed of loose sublayers; and a flexible innermost layer. The outermost and the innermost layers stain deeply red in Melzer’s reagent. Spores of G. bistratum are globose to subglobose, (20–)29(–50) µm in diameter, and have a wall composed of two permanent, hyaline layers. The outer layer is unit, smooth, and the inner one laminate. Only the inner layer stains yellow in Melzer’s reagent. Both species formed vesicular-arbuscular mycorrhiza in single-species cultures with Plantago lanceolata  L. as the host plant. Phylogenetic analyses of partial 18S rDNA subunit and internal transcribed spacer (ITS) region sequences placed G. achrum and G. bistratum into Glomus group A, but did not reveal any closely related described species. Environmental sequences from the public databases suggested that G. achrum occurred in at least two other plant species from geographically distant regions. No such evidence could be obtained for G. bistratum, which is currently known only from the type location.

Halonatospora gen. nov. with H. pansihalos comb. nov. and Glomus bareae sp. nov. (Glomeromycota; Glomeraceae)

Botany ◽  
2018 ◽  
Vol 96 (11) ◽  
pp. 737-748 ◽  
Author(s):  
Janusz Błaszkowski ◽  
Piotr Niezgoda ◽  
Bruno T. Goto ◽  
Anna Kozłowska
Keyword(s):  
New Genus ◽  
Phylogenetic Analyses ◽  
Sand Dunes ◽  
Single Species ◽  
Sensu Stricto ◽  
Undescribed Species ◽  
Ammophila Arenaria ◽  
Rpb1 Gene ◽  
Lsu Nrdna ◽  
North Western

We established single-species pot cultures of the former Glomus pansihalos, a member of the Glomeraceae, and obtained sequences of the SSU–ITS–LSU nrDNA segment and the RPB1 gene of the species. Phylogenetic analyses of the sequences indicated that G. pansihalos represents a separate clade at the rank of genus in the Glomeraceae. Consequently, the new genus was named Halonatospora, and G. pansihalos was renamed Halonatospora pansihalos comb. nov. We also grew an AMF that produced clusters with glomoid spores in single-species cultures and obtained SSU–ITS–LSU and RPB1 sequences of the fungus. Studies of pot cultures, morphological and histochemical characters of the spores, as well as phylogenetic analyses of the sequences proved that it is an undescribed species of the genus Glomus sensu stricto, which is associated with roots of Ammophila arenaria colonizing maritime sand dunes located in north-western Poland.

Dominikia lithuanica and Kamienskia divaricata: new species in the Glomeromycota

Botany ◽  
2016 ◽  
Vol 94 (12) ◽  
pp. 1075-1085 ◽  
Author(s):  
Janusz Błaszkowski ◽  
Gerard Chwat ◽  
Anna Góralska
Keyword(s):  
South Africa ◽  
New Species ◽  
Sequence Data ◽  
Sand Dunes ◽  
Spore Wall ◽  
Curonian Spit ◽  
Laminate Layer ◽  
Rpb1 Gene ◽  
Layer 2 ◽  
Lsu Nrdna

New species in the genera Dominikia and Kamienskia (Glomeromycota) are characterized based on morphology and sequences of SSU–ITS–LSU nrDNA and the RPB1 gene. Both species produce glomoid spores only in clusters. Spores of Dominikia lithuanica are hyaline to pale yellow and 22–52 μm in diameter when globose. In their three-layered spore wall, layers 1 and 2 are almost equal in thickness and much thinner than the structural laminate layer 3. Spore wall layers 1 and 3 usually stain faintly in Melzer’s reagent. Spores of Kamienskia divaricata remain hyaline regardless of age, are 10–24 μm in diameter and have a spore wall with two layers of nearly the same thickness. The laminate layer 2 usually shows a faint dextrinoid reaction in Melzer’s reagent. A further conspicuous character of K. divaricata spores is a relatively wide subtending hypha at the spore base. In the field, D. lithuanica and K. divaricata have so far been found only twice and once, respectively, and only in maritime sand dunes of the Curonian Spit, Lithuania (D. lithuanica), and South Africa (K. divaricata). Sequence data available in public databases suggest that D. lithuanica has not yet been detected by other researchers, and K. divaricata also occurs in Texas, USA.

Two new species of Craterellus (Cantharellaceae) from tropical India

Phytotaxa ◽  
2018 ◽  
Vol 346 (2) ◽  
pp. 157
Author(s):  
C. BIJEESH ◽  
A. MANOJ KUMAR ◽  
K.B. VRINDA ◽  
C.K. PRADEEP
Keyword(s):  
New Species ◽  
Tropical Forests ◽  
Phylogenetic Analyses ◽  
Gene Region ◽  
Similar Species ◽  
Rdna Gene ◽  
Two New Species ◽  
Kerala State

Two unusual species of Craterellus have been collected numerous times from the evergreen tropical forests in Kerala State, India. The species Craterellus albostrigosus and Craterellus inusitatus are described as new based on morphological and phylogenetic analyses of nrLSU-rDNA gene region. Complete morphological descriptions, photographs and comparisons with similar species are provided as well as a key to the known species of Craterellus from India.

Xylodon bambusinus and X. xinpingensis spp. nov. (Hymenochaetales) from southern China

Phytotaxa ◽  
2021 ◽  
Vol 511 (3) ◽  
Author(s):  
XIANG MA ◽  
CHANG-LIN ZHAO
Keyword(s):  
New Species ◽  
Bayesian Inference ◽  
Maximum Likelihood ◽  
Growth Habit ◽  
Southern China ◽  
Phylogenetic Analyses ◽  
Molecular Data ◽  
Two New Species ◽  
Thin Walled ◽  
Inference Methods

Two new species, Xylodon bambusinus and X. xinpingensis, are proposed based on morphological and molecular evidences. Both species share the annual growth habit, resupinate basidiomata and monomitic hyphal system with clamped, colorless generative hyphae, smooth, thin-walled basidiospores, but X. bambusinus is characterized by the smooth to tuberculate hymenial surface, presence of capitate and fusiform cystidia, broad ellipsoid basidiospores, while X. xinpingensis by the reticulate hymenophore with cream hymenial surface, and subglobose basidiospores (4.5–6 × 3.5–5 µm). Sequences of ITS and LSU nrRNA gene regions of the studied samples were generated, and phylogenetic analyses were performed with maximum likelihood, maximum parsimony and Bayesian inference methods. The phylogenetic analyses based on molecular data of ITS and ITS+nLSU sequences showed that X. bambusinus was sister to X. subclavatus, while X. xinpingensis grouped with X. astrocystidiatus and X. paradoxus. The nLSU dataset revealed that X. bambusinus grouped with X. asperus and X. brevisetus with lower supports, and that X. xinpingensis grouped with X. astrocystidiatus and X. paradoxus and then with X. rimosissimus without supports. Both morphological and molecular evidences confirmed the placement of two new species in Xylodon. Description and figures from the new species and a key to the known species of Xylodon from China are presented.

Phylogenetic analysis of some basal early Cambrian trilobites, the biogeographic origins of the Eutrilobita, and the timing of the Cambrian radiation

2002 ◽  
Vol 76 (4) ◽  
pp. 692-708 ◽  
Author(s):  
Bruce S. Lieberman
Keyword(s):  
Phylogenetic Analysis ◽  
New Species ◽  
Phylogenetic Analyses ◽  
Early Cambrian ◽  
Biogeographic Patterns ◽  
Two New Species ◽  
Vicariance Event ◽  
Cambrian Radiation ◽  
Early Radiation ◽  
Event Based

This paper presents a phylogenetic analysis of the “Fallotaspidoidea,” a determination of the biogeographic origins of the eutrilobites, and an evaluation of the timing of the Cambrian radiation based on biogeographic evidence. Phylogenetic analysis incorporated 29 exoskeletal characters and 16 ingroup taxa. In the single most parsimonious tree the genus Fallotaspidella Repina, 1961, is the sister taxon of the sutured members of the Redlichiina Richter, 1932. Phylogenetic analysis is also used to determine the evolutionary relationships of two new species of “fallotaspidoids” distributed in the White-Inyo Range of California that have been previously illustrated but not described. These species had been referred to Fallotaspis Hupé, 1953, and used to define the occurrence of the eponymous Fallotaspis Zone in southwestern Laurentia. However, these two new species need to be reassigned to Archaeaspis Repina in Khomentovskii and Repina, 1965. They are described as Archaeaspis nelsoni and A. macropleuron. Their phylogenetic status suggests that the Fallotaspis Zone in southwestern Laurentia is not exactly analogous to the Fallotaspis Zone in Morocco, where that division was originally defined. Thus, changes to the biostratigraphy of the Early Cambrian of southwestern Laurentia may be in order. Furthermore, specimens of a new species referable to Nevadia Walcott, 1910, are recognized in strata traditionally treated as within the Fallotaspis Zone, which is held to underlie the Nevadella Zone, suggesting further biostratigraphic complexity within the basal Lower Cambrian of southwestern Laurentia.Phylogenetic analyses of the Olenellina and Olenelloidea, along with the phylogenetic analysis presented here, are used to consider the biogeographic origins of the eutrilobites. The group appears to have originated in Siberia. Biogeographic patterns in trilobites, especially those relating to the split between the Olenellid and Redlichiid faunal provinces are important for determining the timing of the Cambrian radiation. Some authors have argued that there was a hidden radiation that significantly predated the Cambrian, whereas others have suggested that the radiation occurred right at the start of the Cambrian. The results from trilobite biogeography presented here support an early radiation. They are most compatible with the notion that there was a vicariance event relating to the origin of the redlichiinid trilobites, and thus the eponymous Redlichiid faunal province, from the “fallotaspidoids,” whose representatives were part of the Olenellid faunal province. This vicariance event, based on biogeographic patterns, is likely related to the breakup of Pannotia which occurred sometime between 600–550 Ma, suggesting that the initial episodes of trilobite cladogenesis occurred within that interval. As trilobites are relatively derived arthropods, this suggests that Númerous important episodes of metazoan cladogenesis precede both the earliest trilobitic part of the Early Cambrian, and indeed, even the Early Cambrian.

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