Ambispora granatensis

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Ambispora granatensis
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Fungi
Division: Glomeromycota
Class: Glomeromycetes
Order: Archaeosporales
Family: Ambisporaceae
Genus: Ambispora
Species:
A. granatensis
Binomial name
Ambispora granatensis
Palenz., N. Ferrol & Oehl 2010

Ambispora granatensis is an arbuscular mycorrhizal fungal species in the genus Ambispora , family Ambisporaceae. It forms spores of the acaulosporois and glomoid morphs, thus the Ambispora classification. [1] It was discovered in Granada Spain in 2010 and has unique spore characteristics, which distinguishes the species from the others in its genus. [2]

Contents

Taxonomy

The genus Ambispora is the only genus of the Ambisporaceae family. Species in this genus are characterized by having the potential for spore dimorphism (glomoid and acaulosporoid). [3]

The Ambisporaceae family is separated from the other families in the Archaeosporales order due to differences in the rDNA characteristics. [4]

Morphology

The species is found to form spores of the acaulosporoid and glomoid morphs, which explains the classification under the genus Ambispora. Like the other species in the genus, this species has two spore types. [5]

A unique characteristic of only this species, differentiating it from the others in its genus, is the spores form three walls rather than the commonly seen four-wall structure. [6] They have a “papillae-like” rough outer cell wall surface that can be difficult to identify within a few hours of development however, when placed in water it becomes more clear. [7] Both spore types tend to be smaller in size, having a diameter of around 90–150 μm. [7] They are the commonly seen color of the acaulosporoid morph, ranging from glassy translucent to white or even pale yellow. [7]

Glomoid spores are formed either in a small cluster of 2-10 or one single spore alone. [7] The acaulosporoid spores form individually in the soil on a short pedicel that is branched off of the neck of a soporiferous saccule. [7] The species spores can be differentiated from the other species of the genus due to its thin outer wall. [7]

Ecology

The species is known to invade plant root cells and surrounding soil to hold a symbiotic relationship with the plant it is colonizing. [8] The species has hyphal elements and forms a vesicular Arbuscular mycorrhizal structure to facilitate the symbiotic relationship. [1] Fungal symbiotic relationships play an important role in maintaining plant diversity and development, especially in unstable environments. [9]

Habitat and distribution

The species was isolated to garden asparagus, ( Asparagus officinalis ), which is multi-annually cultivated, the lifecycle and harvest schedule may explain the abundance and consistency of ambispora granatensis spore formation. [5] In studies, the species was propagated in pot cultures with red clover ( Trifolium pratense) and great millet (Sorghum vulgare) [2] .

The species was observed growing in the rhizosphere of the plant, forming a symbiotic relationship that is known to improve the growth and yield under a variety of conditions. [6]

Arbuscular mycorrhiza (AM) species, like ambispora granatensis, are significantly affected by soil characteristics including nitrogen, clay, cation exchange capacity, and the pH of the soil, determining the species distribution. [10] Ambispora species are the most abundant and have the highest diversity at high altitudes. [6]

The species was originally found in an agricultural site in Granada, Spain. Granada is located on the Genil River at the base of the Sierra Nevada Mountains, it has a very hot and humid summer season with increased rainfall before and after, and a mild winter. [11] This provides an ideal habitat for the species and allows for maximum spore production and abundance

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<span class="mw-page-title-main">Mycorrhiza</span> Fungus-plant symbiotic association

A mycorrhiza is a symbiotic association between a fungus and a plant. The term mycorrhiza refers to the role of the fungus in the plant's rhizosphere, its root system. Mycorrhizae play important roles in plant nutrition, soil biology, and soil chemistry.

<span class="mw-page-title-main">Arbuscular mycorrhiza</span> Symbiotic penetrative association between a fungus and the roots of a vascular plant

An arbuscular mycorrhiza (AM) is a type of mycorrhiza in which the symbiont fungus penetrates the cortical cells of the roots of a vascular plant forming arbuscules.

<span class="mw-page-title-main">Glomeromycota</span> Phylum of fungi

Glomeromycota are one of eight currently recognized divisions within the kingdom Fungi, with approximately 230 described species. Members of the Glomeromycota form arbuscular mycorrhizas (AMs) with the thalli of bryophytes and the roots of vascular land plants. Not all species have been shown to form AMs, and one, Geosiphon pyriformis, is known not to do so. Instead, it forms an endocytobiotic association with Nostoc cyanobacteria. The majority of evidence shows that the Glomeromycota are dependent on land plants for carbon and energy, but there is recent circumstantial evidence that some species may be able to lead an independent existence. The arbuscular mycorrhizal species are terrestrial and widely distributed in soils worldwide where they form symbioses with the roots of the majority of plant species (>80%). They can also be found in wetlands, including salt-marshes, and associated with epiphytic plants.

Glomus aggregatum is an arbuscular mycorrhizal fungus used as a soil inoculant in agriculture and horticulture. Like other species in this phylum it forms obligate symbioses with plant roots, where it obtains carbon (photosynthate) from the host plant in exchange for nutrients and other benefits.

Glomus is a genus of arbuscular mycorrhizal (AM) fungi, and all species form symbiotic relationships (mycorrhizae) with plant roots. Glomus is the largest genus of AM fungi, with ca. 85 species described, but is currently defined as non-monophyletic.

<i>Geosiphon</i> Monotypic genus of photosynthetic, non-lichen fungi

Geosiphon is a genus of fungus in the family Geosiphonaceae. The genus is monotypic, containing the single species Geosiphon pyriformis, first described by Kützing in 1849 as Botrydium pyriforme. In 1915, Von Wettstein characterized Geosiphon pyriforme as a multinucleate alga containing endosymbiotic cyanobacteria, although he also noted the presence of chitin, a component of fungal cell walls. In 1933, Knapp was the first to suggest the fungal origin of the species and described it as a lichen with endosymbiotic cyanobacteria. It is the only member of the Glomeromycota known to not form a symbiosis with terrestrial plants in the form of arbuscular mycorrhiza.

<span class="mw-page-title-main">Mucoromycotina</span> Subphylum of fungi

Mucoromycotina is a subphylum of uncertain placement in Fungi. It was considered part of the phylum Zygomycota, but recent phylogenetic studies have shown that it was polyphyletic and thus split into several groups, it is now thought to be a paraphyletic grouping. Mucoromycotina is currently composed of 3 orders, 61 genera, and 325 species. Some common characteristics seen throughout the species include: development of coenocytic mycelium, saprotrophic lifestyles, and filamentous.

<span class="mw-page-title-main">Gigasporaceae</span> Family of fungi

The Gigasporaceae are a family of fungi in the order Diversisporales. Species in this family are widespread in distribution, and form arbuscular mycorrhiza in roots.

Acaulospora alpina is a species of fungus in the family Acaulosporaceae. It forms arbuscular mycorrhiza and vesicles in roots. The fungus was discovered in Switzerland, in the rhizosphere of an alpine grassland at altitudes between 1,800 and 2,700 metres.

The mycorrhizosphere is the region around a mycorrhizal fungus in which nutrients released from the fungus increase the microbial population and its activities. The roots of most terrestrial plants, including most crop plants and almost all woody plants, are colonized by mycorrhiza-forming symbiotic fungi. In this relationship, the plant roots are infected by a fungus, but the rest of the fungal mycelium continues to grow through the soil, digesting and absorbing nutrients and water and sharing these with its plant host. The fungus in turn benefits by receiving photosynthetic sugars from its host. The mycorrhizosphere consists of roots, hyphae of the directly connected mycorrhizal fungi, associated microorganisms, and the soil in their direct influence.

<i>Rhizophagus</i> (fungus) Genus of fungi

Rhizophagus is a genus of arbuscular mycorrhizal (AM) fungi that form symbiotic relationships (mycorrhizas) with plant roots. The genome of Rhizophagus irregularis was recently sequenced.

<i>Rhizophagus irregularis</i> Species of arbuscular mycorrhizal fungus used as a soil inoculant in agriculture and horticulture

Rhizophagus irregularis is an arbuscular mycorrhizal fungus used as a soil inoculant in agriculture and horticulture. Rhizophagus irregularis is also commonly used in scientific studies of the effects of arbuscular mycorrhizal fungi on plant and soil improvement. Until 2001, the species was known and widely marketed as Glomus intraradices, but molecular analysis of ribosomal DNA led to the reclassification of all arbuscular fungi from Zygomycota phylum to the Glomeromycota phylum.

Paradentiscutata maritima is a species of fungus. It is characterised by introverted ornamentations on the spore wall; the spore wall structure and germ shield morphology. It was first isolated in northeast Brazil, and can be distinguished by the projections on the outer spore surface.

Orchid mycorrhizae are endomycorrhizal fungi which develop symbiotic relationships with the roots and seeds of plants of the family Orchidaceae. Nearly all orchids are myco-heterotrophic at some point in their life cycle. Orchid mycorrhizae are critically important during orchid germination, as an orchid seed has virtually no energy reserve and obtains its carbon from the fungal symbiont.

<span class="mw-page-title-main">Mycorrhiza helper bacteria</span> Group of organisms

Mycorrhiza helper bacteria (MHB) are a group of organisms that form symbiotic associations with both ectomycorrhiza and arbuscular mycorrhiza. MHBs are diverse and belong to a wide variety of bacterial phyla including both Gram-negative and Gram-positive bacteria. Some of the most common MHBs observed in studies belong to the phylas Pseudomonas and Streptomyces. MHBs have been seen to have extremely specific interactions with their fungal hosts at times, but this specificity is lost with plants. MHBs enhance mycorrhizal function, growth, nutrient uptake to the fungus and plant, improve soil conductance, aid against certain pathogens, and help promote defense mechanisms. These bacteria are naturally present in the soil, and form these complex interactions with fungi as plant root development starts to take shape. The mechanisms through which these interactions take shape are not well-understood and needs further study.

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Gigaspora margarita is an Arbuscular Mycorrhizal Fungi (AMF) which means it is an obligate symbiont that creates mutualistic relationships with many different plant species. Being an AMF, G. margarita does not produce a fruiting body. All of its mycelium will be found in the soil, associating with plant roots. Though hard to distinguish between different species of AMF, microscopic distinctions can be made. A prominent morphological distinction for species in the Gigasporaceae family is their large sized spores. Gigaspora margarita is characterized by its large, white, pearl-like spores found anywhere from 260 - 400 micrometers. This is where it gets its name as margarita in Latin means pearl.

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References

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  3. Walker, Christopher; Harper, Carla J.; Brundrett, Mark; Krings, Michael (2021-04-01). "The Early Devonian fungus Mycokidstonia sphaerialoides from the Rhynie chert is a member of the Ambisporaceae (Glomeromycota, Archaeosporales), not an ascomycete". Review of Palaeobotany and Palynology. 287: 104384. doi:10.1016/j.revpalbo.2021.104384. ISSN   0034-6667.
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