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	==Endomycorrihza==		==Endomycorrihza==
-	Endomycorrizha are also known as arbuscular mycorrihizal (AM) fungi and are generally classified in the Zygomycota phylum<ref>Moore, D., Robinsion, G.D., & Trinci, A.P. (2011) 21st Century Guidebook to Fungi. Cambridge University Press, New York.</ref>	+	Endomycorrizha are also known as arbuscular mycorrihizal (AM) fungi and are generally classified in the Zygomycota phylum<ref>Moore, D., Robinsion, G.D., & Trinci, A.P. (2011) 21st Century Guidebook to Fungi. Cambridge University Press, New York.</ref> However, AM fungi lack the production of zygospores, which is a main and common characteristic of all fungi within Zygomycota. Therefore, according the AFTOL, AM fungi are apart of the Glomeromycota phylum.<ref>Moore, D., Robinsion, G.D., & Trinci, A.P. (2011) 21st Century Guidebook to Fungi. Cambridge University Press, New York.</ref>
	===Habitat===		===Habitat===
	Endomycorrihza are most abundant in areas where there is a massive decline in soil nutrients that is accessible to the vegetation. This is due to their purpose of invading hosts plants and aiding in nutrient retrieval. Moreover, Endomycorrihza can be considered as ecologically important for most vascular plants and is found in 85% of plant families, most of them being crop species<ref>Gederman, H. A. Rev. Phytopath. 6, 397−418 (1968).</ref> <ref>Wang, B.; Qiu, Y.L. (2006). "Phylogenetic distribution and evolution of mycorrhizas in land plants". Mycorrhiza 16 (5): 299–363. doi:10.1007/s00572-005-0033-6. PMID 16845554. Retrieved 2008-01-21.</ref>		Endomycorrihza are most abundant in areas where there is a massive decline in soil nutrients that is accessible to the vegetation. This is due to their purpose of invading hosts plants and aiding in nutrient retrieval. Moreover, Endomycorrihza can be considered as ecologically important for most vascular plants and is found in 85% of plant families, most of them being crop species<ref>Gederman, H. A. Rev. Phytopath. 6, 397−418 (1968).</ref> <ref>Wang, B.; Qiu, Y.L. (2006). "Phylogenetic distribution and evolution of mycorrhizas in land plants". Mycorrhiza 16 (5): 299–363. doi:10.1007/s00572-005-0033-6. PMID 16845554. Retrieved 2008-01-21.</ref>

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Revision as of 16:30, 15 March 2013

Contents 1 Introduction to Mycorrhiza 2 Endomycorrihza 2.1 Habitat 2.2 Reproduction and Growth 2.2.1 Life Cycle 2.2.2 Biochemical Pathways 2.3 Applications 2.3.1 Genetics 2.3.2 Current Studies 3 Ectomycorrihza 3.1 Habitat 3.2 Reproduction and Growth 3.2.1 Life Cycle 3.2.2 Biochemical Pathways 3.3 Applications 3.3.1 Genetics 3.3.2 Current Studies 4 Comparison Table 5 Environmental concerns 5.1 Acid Rain 5.2 Head 2 6 Extra Information 7 References

Introduction to Mycorrhiza

Hello everyone! I still have to reference these findings, as well as finish this section. This is just a start to my brainstorming process. Thanks! Brianne Taylor

"Mycor" - "rhiza" is derived from the Greek words meaning "fungus" - "root" ^[1]. This symbiotic relationship occurs underground between the fungi and the root system of vascular plants. Mycorrhiza colonize in host plant root systems either intracellularly(endomycorrhiza) or extracellularly(ectomycorrhiza). Commonly, upon invasion a mutualistic relationship is established in which hundreds of thousands of mycelial branches are extended into the soil to allow uptake of phosphorous spanning over a large area. However, occasionally upon invasion a pathogenic relationship is established

Endomycorrihza

Endomycorrizha are also known as arbuscular mycorrihizal (AM) fungi and are generally classified in the Zygomycota phylum^[2] However, AM fungi lack the production of zygospores, which is a main and common characteristic of all fungi within Zygomycota. Therefore, according the AFTOL, AM fungi are apart of the Glomeromycota phylum.^[3]

Habitat

Endomycorrihza are most abundant in areas where there is a massive decline in soil nutrients that is accessible to the vegetation. This is due to their purpose of invading hosts plants and aiding in nutrient retrieval. Moreover, Endomycorrihza can be considered as ecologically important for most vascular plants and is found in 85% of plant families, most of them being crop species^{[4] [5]}

Reproduction and Growth

Life Cycle

Biochemical Pathways

Applications

Genetics

Current Studies

Ectomycorrihza

Habitat

Reproduction and Growth

Life Cycle

Biochemical Pathways

Applications

Genetics

Current Studies

Comparison Table

Environmental concerns

Acid Rain

Acid rain is formed in the upper atmosphere as NO3 and SO2 are hydrolyzed ^[6] mixing with rain water and eventually falling back down to earth. Mycorrhizal associations can be affected either indirectly or through influence on host shoots. ^[7] Acid rain can have differeing effects on different species, one particular ECM fungi ascomycetes Cenococcum spp. has been reported to be more abundant in forests that have under gone acidification, most likely due to decreased competition from other species of fungi.^[8] The problem of acid rain is often compounded as an increase in PH leads to an increase in the rate that minerals dissolve such as toxic heavy metals. ^[9]

Head 2

Extra Information

Plant species that benefit from Endomycorrizha and Ectomycorrizha[1]

References

^[10]

^[11]

^[12]

1. ↑ Frank, A. B. (1885). "Über die auf Würzelsymbiose beruhende Ehrnährung gewisser Bäum durch unterirdische Pilze". Berichte der Deutschen Botanischen Gesellschaft 3: 128–145.
2. ↑ Moore, D., Robinsion, G.D., & Trinci, A.P. (2011) 21st Century Guidebook to Fungi. Cambridge University Press, New York.
3. ↑ Moore, D., Robinsion, G.D., & Trinci, A.P. (2011) 21st Century Guidebook to Fungi. Cambridge University Press, New York.
4. ↑ Gederman, H. A. Rev. Phytopath. 6, 397−418 (1968).
5. ↑ Wang, B.; Qiu, Y.L. (2006). "Phylogenetic distribution and evolution of mycorrhizas in land plants". Mycorrhiza 16 (5): 299–363. doi:10.1007/s00572-005-0033-6. PMID 16845554. Retrieved 2008-01-21.
6. ↑ Charlson, R.J., Rodhe, H., 1982. Factors controlling the acidity of natural rainwater. Nature 295, 683-685
7. ↑ Cairney,J. Meharg,A. Influences of anthropogenic pollution on mycorrhizal fungal.Environmental Pollution 106 (1999) 169-182
8. ↑ Danielson, R.M., Visser, S., 1989. Ef€fects of forest soil acidification on ectomycorrhizal and vesicular-arbuscular mycorrhizal development. New Phytologist 112, 41±47
9. ↑ Cairney,J. Meharg,A. Influences of anthropogenic pollution on mycorrhizal fungal.Environmental Pollution 106 (1999) 169-182
10. ↑ Frank, A. B. (1885). "Über die auf Würzelsymbiose beruhende Ehrnährung gewisser Bäum durch unterirdische Pilze". Berichte der Deutschen Botanischen Gesellschaft 3: 128–145.
11. ↑ Author, 2013
12. ↑ Author2, 2014