''Cenococcum geophilum'' Fr., synonym ''Cenococcum graniforme'' (Sow.) Ferd. and Winge, is an

Ascomycete Ascomycota is a phylum of the kingdom Fungi that, together with the Basidiomycota, forms the subkingdom Dikarya. Its members are commonly known as the sac fungi or ascomycetes. It is the largest phylum of Fungi, with over 64,000 species. The defi ...

fungal species and is the only member in the genus ''Cenococcum''. It is one of the most common ectomycorrhizal fungal species encountered in forest ecosystems. The geographic distribution of the species is notably cosmopolitan; it is found in ecosystems with a wide range of environmental conditions, and in many cases in high relative frequency. Because of its wide distribution and abundance in forest soils, it is one of the most well-studied ectomycorrhizal fungal species. While the species has long been known to be sterile and not produce asexual or sexual spores, cryptic sexual stages may exist.Spatafora, J. W., Owensby, C. A., Douhan, G. W., Boehm, E. W., & Schoch, C. L. (2012). Phylogenetic placement of the ectomycorrhizal genus Cenococcum in Gloniaceae (Dothideomycetes). Mycologia, 104(3), 758-765. The hyphae produced by ''C. geophilum'' are characterized by their thick (1.5-8 um), straight and jet black appearance with little branching. They usually form monopodial (unbranched)

ectomycorrhizas An ectomycorrhiza (from Greek ἐκτός ', "outside", μύκης ', "fungus", and ῥίζα ', "root"; pl. ectomycorrhizas or ectomycorrhizae, abbreviated EcM) is a form of symbiotic relationship that occurs between a fungal symbiont, or mycobi ...

. The mantles of ''C. geophilum'' ectomycorrhizas are usually thick with few to many emanating hyphae.

Taxonomy

Originally described in 1800 from its

sclerotia A sclerotium (; (), is a compact mass of hardened fungal mycelium containing food reserves. One role of sclerotia is to survive environmental extremes. In some higher fungi such as ergot, sclerotia become detached and remain dormant until favor ...

James Sowerby James Sowerby (21 March 1757 – 25 October 1822) was an English naturalist, illustrator and mineralogist. Contributions to published works, such as ''A Specimen of the Botany of New Holland'' or ''English Botany'', include his detailed and app ...

, the species was named ''Lycoperdon graniforme'' Sow. Later,

Elias Fries Elias Magnus Fries (15 August 1794 – 8 February 1878) was a Swedish mycologist and botanist. Career Fries was born at Femsjö (Hylte Municipality), Småland, the son of the pastor there. He attended school in Växjö. He acquired an ...

introduced the

genus Genus ( plural genera ) is a taxonomic rank used in the biological classification of extant taxon, living and fossil organisms as well as Virus classification#ICTV classification, viruses. In the hierarchy of biological classification, genus com ...

''Cenococcum'' and the sole

species In biology, a species is the basic unit of classification and a taxonomic rank of an organism, as well as a unit of biodiversity. A species is often defined as the largest group of organisms in which any two individuals of the appropriate s ...

was called ''Cenococcum geophilum'' Fr. These names were later combined to form ''Cenococcum graniforme'' (Sow) Ferd. and Winge in the monographic study of the species by Ferdinandsen and Winge in 1925. Hatch identified hyphae that formed ectomycorrhizas with “jet-black” mantles calling it ''Mycelium radicus-nigrostrigosum'' Hatch. Finally, Linhell linked the fungi forming the ectomycorrhizas to the fungus producing the sclerotia earlier described. The officially accepted name for the species is ''Cenococcum geophilum'' Fr. Molecular analyses have revealed that ''C. geophilum'' is not closely related to other

ectomycorrhizal fungi (mostly in the Pezizales) and is actually a member of the

Dothideomycetes Dothideomycetes is the largest and most diverse class of ascomycete fungi. It comprises 11 orders 90 families, 1300 genera and over 19,000 known species. Traditionally, most of its members were included in the loculoascomycetes, which is not par ...

. Cenococcum geophilum is the only known ectomycorrhizal member of the Dothideomycetes. Spatafora ''et al.'' (2012) placed ''C. geophilum in'' the Gloniaceae as a close relative to members of the Genus Glonium.

Ecology

Abundance and distribution

It is not unusual to find ''Cenococcum geophilum'' mycelium and ectomycorrhizas in high relative frequency in soil where ectomycorrhizal tree hosts are present. Unlike many ectomycorrhizal fungi, ''Cenococcum geophilum'' readily colonizes the fine roots of most ectomycorrhizal hosts. It may be found in all forest successional stages.Visser, S. (1995). Ectomycorrhizal fungal succession in jack pine stands following wildfire. New Phytologist, 129(3), 389-401. Unlike most ectomycorrhizal fungal species, ''Cenococcum geophilum'' appears to have no distinct vertical distribution in the organic horizons of soil though it appears to prefer organic horizons to mineral soil. ''Cenococcum geophilum'' also appears to have an even horizontal spatial distribution pattern at the microscale and site level. This unusual distributional pattern may be the result of wide niche breadth of ''Cenococcum geophilum'' and/or genetic variation within the species. A factor that may contribute to this wide niche breadth is the species ability to tolerate a wide range of stressors. ''Cenococcum geophilum'' isolates have been shown to tolerate freezing, salinity, and heavy metal stressors, but is probably best known for its ability to tolerate water stress. Hasselquist ''et al.'' (2005) found evidence that suggests that increased colonization of fine roots of Douglas fir seedlings by ''C. geophilum'' may alleviate water stress of the host plant during periods of low water availability.

Melanin Melanin (; from el, μέλας, melas, black, dark) is a broad term for a group of natural pigments found in most organisms. Eumelanin is produced through a multistage chemical process known as melanogenesis, where the oxidation of the amino ...

biosynthesis, which is quite high in ''C. geophilum'', gives its hyphae the “jet-black” appearance, and has been linked with stress tolerance in fungi. It may thus be a key functional trait reducing water stress in ''C. geophilum''. Other potential traits that C. geophilum may employ for water stress tolerance include the production and accumulation of compatible osmolytes and the production of heat shock proteins. Nitrogen fertilization appears to have negative effects on the abundance of ''C. geophilum'', which may be the result of host trees allocating less carbon to ectomycorrhizal symbiosis when nitrogen in the soil becomes non-limiting to the plant growth.

Enzyme production and nutrient acquisition

Along with other species of ectomycorrhizal fungi, ''C. geophilum'' produces extracellular

enzymes Enzymes () are proteins that act as biological catalysts by accelerating chemical reactions. The molecules upon which enzymes may act are called substrate (chemistry), substrates, and the enzyme converts the substrates into different molecule ...

that are able to

hydrolyze Hydrolysis (; ) is any chemical reaction in which a molecule of water breaks one or more chemical bonds. The term is used broadly for substitution, elimination, and solvation reactions in which water is the nucleophile. Biological hydrolysis ...

substrates found in the soil to access and acquire nutrients important to itself and its host plant. The ectomycorrhizas of ''C. geophilum'' have been shown to hydrolyze ¹⁴C labeled substrate common in plant litters, including hemicellulose and cellulose. ''Cenococcum geophilum'' ectomycorrhizas have also been shown to produce high levels of

laccase Laccases () are multicopper oxidases found in plants, fungi, and bacteria. Laccases oxidize a variety of phenolic substrates, performing one-electron oxidations, leading to crosslinking. For example, laccases play a role in the formation of l ...

, glucoronidase, and xylodase and phosphatase enzymes.

Carbon sequestration

In the light of climate change there is growing interest in understanding carbon sequestration in mycorrhizal fungal tissues. There is considerable evidence suggesting that ''C. geophilum'' mycelium, ectomycorrhizas and sclerotia are highly resistant to decay and have potential to sequester a great deal of carbon in their tissues. Fernandez et al. (2013) found that ''C. geophilum'' ectomycorrhizas persisted considerably longer in the soil than those of other ectomycorrhizal fungi. This resistance to decay is likely related to the heavy melanization of the cell wall found in ''C. geophilum'' hyphae which cannot be degraded with hydrolyzing enzymes and requires the implementation of oxidative enzymes, much like

lignin Lignin is a class of complex organic polymers that form key structural materials in the support tissues of most plants. Lignins are particularly important in the formation of cell walls, especially in wood and bark, because they lend rigidity ...

in plant litters. ''Cenococcum geophilum'' produces resting structures called

. These structures have been found to remain viable in the soil for years. Remarkably, these structures are known to persist relatively undecomposed in the soil for thousands of years.

Genetic diversity and cryptic speciation

Once regarded as a single species, observed variation in morphology, growth rates and response to growth conditions among ''C. geophilum'' isolates led researchers to speculate on possibility of cryptic speciation. Advances in molecular techniques have allowed researchers to test this hypothesis by examining the genetic variation in C. geophilum strains at various spatial scales. LoBuglio et al. 1991 examined the degree of variation in the ribosomal DNA across 71 isolates of ''C. geophilum'' of varying geographic origin (distinct to similar) and found a great deal of genetic variation across the isolates. A high degree of genetic variation of C. geophilum has been repeatedly observed at the stand level. Douhan & Rizzo (2005) found phylogenetically distinct lineages of ''C. geophilum'' at the scale of the soil sample supporting the hypothesis that there is cryptic sympatric speciation occurring in ''C. geophilum''.Douhan, G. W., & Rizzo, D. M. (2005). Phylogenetic divergence in a local population of the ectomycorrhizal fungus Cenococcum geophilum. New Phytologist, 166(1), 263-271.

References

External links

* {{Taxonbar, from=Q1053404 Dothideomycetes Fungi described in 1829 Taxa named by Elias Magnus Fries