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'''''Epigeic'''''  '''is Greek'''  "'''''for upon the earth.'''''"


Oligochaeta or earthworms of the [[Annelids]] phylum are divided into 3 categories: anecic, endogeic, and the '''epigeic''', depending on where they dwell within the [[Soil Horizons]]. Epigeic earthworms are defined as species that inhabit and feed at the [[soil]] surface.
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Epigeic is Greek for ‘upon the earth’, endogeic means ‘within the earth’ and anecic is Greek for ‘out of the earth’
 
These are the three basic habitat classifications of Earthworms or oligochaeta of the annelida Phylum.
== Description ==
== Description ==
'''Epigeic Earthworms''' are small bodied and range from 1-7 cm in length. Some are colored bright red, although most have a reddish brown skin pigmentation. Their pigmentation is darker on their back and lighter on their tail and abdomen. Which may provide extra protection from ultra violet rays.[1] Epigeics share essentially the same anatomy and reproduction methods as the endogeic and anecic species.
== Range, Habitat and Diet ==
They are adapted to live in moist conditions and variable temperatures at the soil surface. The worms found in [[compost]] piles are epigeic and are unlikely to survive in an environment with low amounts of [[Organic Matter|organic matter]].[2] Epigeics inhabit every continent except Antarctica. However, all earthworms are invasive species in the temperate and boreal forests of North America.[3] The endogeic species can turn epigeic during suitable weather conditions, but retreat under the soil during dry weather conditions. Other '''epigeics''' migrate soil to aestivate or hibernate. Some classify earthworms with both these "migratory" type behaviors as epi-endogeics.


== Range and Habitat ==
ftffhg
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=== Species ===
=== Example Species ===


[[File:Dendrobaena.jpg|200px|left|Dendrobaena octaedra []|thumb]]
[[File:Dendrobaena.jpg|200px|left|''Dendrobaena octaedra'' [Alenya Wood]|thumb]]


[[File:Eisen.jpg|200px|right|Eiseniella tetraedra[]|thumb]]
[[File:Eisen.jpg|200px|right|''Eiseniella tetraedra''|thumb]]


[[File:Eudrilis.jpg|200px|left|Eudrilus eugeniae []|thumb]]
[[File:Eudrilis.jpg|200px|left|''Eudrilus eugeniae''|thumb]]


[[File:Lumbra_cas.jpg|200px|right|Lumbricus castaneus[]|thumb]]
[[File:Lumbra_cas.jpg|200px|right|''Lumbricus castaneus'' [7]|thumb]]


==== Dendrobaena octaedra ====
==== '''''Dendrobaena octaedra''''' ====
''Dendrobaena octaedra'' is a small (2-4 cm in length) '''epigeic''' with extensive morphological variability. This species has been introduced to the North American range and demonstrates wide variability in somatic and reproductive characteristics in its native Northern European range.[4]
''Dendrobaena octaedra'' is common in coniferous forests in its native European habitat as well as its foreign North American range.[5]


==== Eudrilus eugeniae ====
==== '''''Eudrilus eugeniae''''' ====
''Eudrilus eugeniae'' is frequently used in the vermicomposting of solid wastes. Similar epigeic genera – ''Eisenia foetida'' and ''Perionyx excavatus'' are also able to speed up the [[decomposition]] process of [[Organic Matter|organic matter]], especially in tropical conditions.[6]


==== Lumbricus castaneus ====  
==== '''''Lumbricus castaneus''''' ====  
This species is also known as the Chestnut Worm. The ''Castaneus'' is endemic to England and most active in the spring months.[7] 


==== Eiseniella tetraedra ====  
==== '''''Eiseniella tetraedra''''' ====  
This red worm may vary from 2 to 8 cm in length. It is considered an aquatic species with a distinctive cliellum (saddle) around its segments. They are present widespread across Britain and found year round within: gardens, fields, pastures, forests, estuary flats, lake shores, manure, and other damp conditions.[8]


== Ecological Impact==


== Activity and Diet ==
==== Benefits ====
Based on the feeding behavior of earthworms, '''epigeic''' species have a greater potential as waste [[decomposers]] than anecics and endogeics due to their [[humus]] consumption and surface dwelling nature.[6]  Epigeics are considered detrivores but will feed primarily on microorganisms associated with the decaying surface litter while facilitating the breakdown and mineralization of that region.[9] These earthworms exert important effects on the presence of decomposer [[microorganisms]] and their microbial grazers, which leads to an increase in the rate of [[decomposition]] of the [[Organic Matter|organic matter]].[10] Nevertheless, little is known about whether and to what extent these changes are due to the direct effects of earthworms on the decaying material (i.e. transformations of the ingested material during passage through the gut) or due to indirect effects related to their casting and burrowing activities.[11]


== Reproduction ==
==== Subversive effects ====
Invasive earthworms are particularly problematic in previously [[earthworm]]-free temperate and boreal forests of North America that are dominated by ''Acer, Quercus, Betula, Pinus'' and ''Populus'' trees.[3] '''Epigeics''' physically disrupt the organic layer of the soil by consuming and mixing the F and H [[Soil Horizons]] layers, producing a homogeneous and granular form of organic forest floor.[5] It has been shown that fungi and macroinvertebrate populations are altered in presence of epegeics.[1] Although some invasive epegeics change the dynamics of these forests they seem to have a limited impact on the mineral structure of the soil and composition of the forest floor. The endoeic and anecic earthworms are found to have more deleterious effects on the forest floor and in turn the health of ecosystem with their extraordinary mixing of the [[Soil Horizons]].[1][3]
== Role in Soil ==


==== Benefits ====
==== Harmful Effects ====


== References ==
== References ==
Line 42: Line 48:
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[1] Hale, Cindy. Earthworms of the Great Lakes. Kollath+Stensaas Pub., 2013.


[2] Edwards, Clive  A. “Natural Resources Conservation Service.” Home | NRCS Soils, 2019, https://www.nrcs.usda.gov/wps/portal/nrcs/detailfull/soils/health/biology/?cid=nrcs142p2_053863


Epigeic earthworms
[3] Frelich, Lee E., et al. “Earthworm Invasion into Previously Earthworm-Free Temperate and Boreal Forests.” Biological Invasions Belowground: Earthworms as Invasive Species, 2006, pp. 35–45., doi:10.1007/978-1-4020-5429-7_5.
Lumbricus castaneus, an epigeic earthworm
https://link.springer.com/article/10.1007/s10530-006-9019-3
Epigeic earthworms live on the surface of the soil in leaf litter. These species tend not to make burrows but live in and feed on the leaf litter. Epigeic earthworms are also often bright red or reddy-brown.
 
Epigeic earthworm speices include Dendrobaena octaedra, Dendrobaena attemsi, Dendrodrilus rubidus, Eiseniella tetraedra, Heliodrilus oculatus, Lumbricus rubellus, Lumbricus castaneus, Lumbricus festivus, Lumbricus friendi, Satchellius mammalis ( Earthworm society Britain)
 
Epegeic Eaarthworms are small bodies 1-7 cm with reddish brown skin pigmentation. is darker on the back and lighter on the tail and the belly. the back pigmentation may provide extra protection from ultra violet rays they are very sensitive to. Great lakes; Dendrobaena octaedra, Dendrobaena octaedra, Eiseniella tetraedra, Eiseniella eisneni.  
can change fungi and macroinvertabrate pops do not decrease forest floor. (great lakes book)


Dendrobaena octaedra is an epigeic species. It inhabits the litter layer, feeding primarily on microorganisms associated with decaying surface litter (Hale et al., 2008). Epigeic species facilitate the breakdown and mineralisation of surface litter (Hendrix & Bohlen, 2002).
[4] Terhivuo, Juhani, and Anssi Saura. “Dispersal and Clonal [[Diversity]] of North-European Parthenogenetic Earthworms.” Biological Invasions Belowground: Earthworms as Invasive Species, 2006, pp. 5–18., doi:10.1007/978-1-4020-5429-7_2.
https://link.springer.com/article/10.1007/s10530-006-9015-7


Dendrobaena octaedra and Dendrodrilus rubidus are epigeic species, which inhabit and feed at the soil surface. Epigeics physically disrupt the organic layer of the soil by consuming and mixing the F and H layers, producing a homogenous and granular form of organic forest floor (Addison, 2009)
[5] Addison, J.a., and S.b. Holmes. “Effect of Two Commercial Formulations of Bacillusthuringiensis Suhsp. Kurstaki on the Forest Earthworm Dendrobaenaoctaedra.” Canadian Journal of Forest Research, vol. 26, no. 9, 1996, pp. 1594–1601., doi:10.1139/x26-179. https://www.nrcresearchpress.com/doi/abs/10.1139/x26-179#.XM0hFo5KjIU


Exotic earthworms are a particular problem in previously earthworm-free temperate and boreal forests of North America dominated by Acer, Quercus, Betula, Pinus and Populus (Frelich et al., 2006).(GISD)
[6] Singh, Arjun, et al. “Taxonomic and Functional Diversity of the Culturable Microbiomes of Epigeic Earthworms and Their Prospects in [[Agriculture]].” Journal of Basic Microbiology, vol. 56, no. 9, 2016, pp. 1009–1020., doi:10.1002/jobm.201500779.
https://onlinelibrary.wiley.com/doi/full/10.1002/jobm.201500779


The endoeic species can turn epigeic during suitable weather conditions but during dry weather turn to soil and now called (epi-endogeic)
[7]“Chestnut Worm (Lumbricus Castaneus).” INaturalist.org,
https://www.inaturalist.org/taxa/484186-Lumbricus-castaneus


Other epegeic go to soil to aestivate or hibernate.
[8]“Eiseniella Tetraedra.” NatureSpot, 2019,
https://www.naturespot.org.uk/


Based on the feeding behavior of earthworms, epigeic species have a greater potential as waste decomposers, than anecics, and endogeics, which is due to their humus consuming and surface dwelling nature. Although the epigeic earthworm species Eudrilus eugeniae is frequently used in vermicomposting of solid wastes other epegeic genera – Eisenia foetida and Perionyx excavatus are able to speed up the decomposition process of organic matter with especially under tropical conditions. (Taxonomic and functional diversity of the culturable microbiomes of epigeic earthworms and their prospects in agriculture
[9] Hendrix, Paul F., and Patrick J. Bohlen. “Exotic Earthworm Invasions in North America: Ecological and Policy Implications.” BioScience, vol. 52, no. 9, 2002, p. 801., doi:10.1641/0006-3568(2002)052[0801:eeiina]2.0.co;2.
Arjun Singh)
https://pdfs.semanticscholar.org/2540/a686a6cfa2f71fef74fd692182821583aa93.pdf


Epigeic earthworms (i.e. those that feed and live in the litter layer) increase decomposition rates and strongly affect populations of other litter inhabiting organisms (Domínguez et al., 2003, McLean and Parkinson, 2000a, McLean and Parkinson, 2000b). Nevertheless, little is known about whether and to what extent these changes are due to direct effects of earthworms on the decaying material (i.e. transformations of the ingested material during passage through the gut) or to indirect effects related to their casting and burrowing activities (Brown et al., 2000, Domínguez, 2004).
[10] Monroy, Fernando, et al. “Changes in Density of [[Nematodes]], [[Protozoa]] and Total Coliforms after Transit through the Gut of Four Epigeic Earthworms (Oligochaeta).” Applied Soil [[Ecology]], vol. 39, no. 2, 2008, pp. 127–132., doi:10.1016/j.apsoil.2007.11.011. https://www.researchgate.net/publication/222415275_Changes_in_density_of_nematodes_protozoa_and_total_coliforms_after_transit_through_the_gut_of_four_epigeic_earthworms_Oligochaeta


Epigeic earthworms are detritivorous organisms that live and feed in the soil litter layer. These earthworms exert important effects on the presence of decomposer micro-organisms and their microbial grazers, which lead to changes in the rate of decomposition of the organic matter(Changes in density of nematodes, protozoa and total coliforms after transit through the gut of four epigeic earthworms (Oligochaeta)
[11]Domínguez, Jorge, and María Gómez-Brandón. “The Influence of Earthworms on Nutrient Dynamics during the Process of Vermicomposting.” Waste Management &amp; Research, vol. 31, no. 8, 2013, pp. 859–868., doi:10.1177/0734242x13497079.
Author links open overlay panelFernandoMonroy)
http://jdguez.webs.uvigo.es/wp-content/uploads/2013/07/the-influence-of-earthworms-on-nutrient-dynamics.pdf

Latest revision as of 14:11, 5 June 2023

Epigeic is Greek "for upon the earth."

Oligochaeta or earthworms of the Annelids phylum are divided into 3 categories: anecic, endogeic, and the epigeic, depending on where they dwell within the Soil Horizons. Epigeic earthworms are defined as species that inhabit and feed at the soil surface.


Description

Epigeic Earthworms are small bodied and range from 1-7 cm in length. Some are colored bright red, although most have a reddish brown skin pigmentation. Their pigmentation is darker on their back and lighter on their tail and abdomen. Which may provide extra protection from ultra violet rays.[1] Epigeics share essentially the same anatomy and reproduction methods as the endogeic and anecic species.

Range, Habitat and Diet

They are adapted to live in moist conditions and variable temperatures at the soil surface. The worms found in compost piles are epigeic and are unlikely to survive in an environment with low amounts of organic matter.[2] Epigeics inhabit every continent except Antarctica. However, all earthworms are invasive species in the temperate and boreal forests of North America.[3] The endogeic species can turn epigeic during suitable weather conditions, but retreat under the soil during dry weather conditions. Other epigeics migrate soil to aestivate or hibernate. Some classify earthworms with both these "migratory" type behaviors as epi-endogeics.


Example Species

Dendrobaena octaedra [Alenya Wood]
Eiseniella tetraedra
Eudrilus eugeniae
Lumbricus castaneus [7]

Dendrobaena octaedra

Dendrobaena octaedra is a small (2-4 cm in length) epigeic with extensive morphological variability. This species has been introduced to the North American range and demonstrates wide variability in somatic and reproductive characteristics in its native Northern European range.[4] Dendrobaena octaedra is common in coniferous forests in its native European habitat as well as its foreign North American range.[5]

Eudrilus eugeniae

Eudrilus eugeniae is frequently used in the vermicomposting of solid wastes. Similar epigeic genera – Eisenia foetida and Perionyx excavatus are also able to speed up the decomposition process of organic matter, especially in tropical conditions.[6]

Lumbricus castaneus

This species is also known as the Chestnut Worm. The Castaneus is endemic to England and most active in the spring months.[7]

Eiseniella tetraedra

This red worm may vary from 2 to 8 cm in length. It is considered an aquatic species with a distinctive cliellum (saddle) around its segments. They are present widespread across Britain and found year round within: gardens, fields, pastures, forests, estuary flats, lake shores, manure, and other damp conditions.[8]

Ecological Impact

Benefits

Based on the feeding behavior of earthworms, epigeic species have a greater potential as waste decomposers than anecics and endogeics due to their humus consumption and surface dwelling nature.[6] Epigeics are considered detrivores but will feed primarily on microorganisms associated with the decaying surface litter while facilitating the breakdown and mineralization of that region.[9] These earthworms exert important effects on the presence of decomposer microorganisms and their microbial grazers, which leads to an increase in the rate of decomposition of the organic matter.[10] Nevertheless, little is known about whether and to what extent these changes are due to the direct effects of earthworms on the decaying material (i.e. transformations of the ingested material during passage through the gut) or due to indirect effects related to their casting and burrowing activities.[11]

Subversive effects

Invasive earthworms are particularly problematic in previously earthworm-free temperate and boreal forests of North America that are dominated by Acer, Quercus, Betula, Pinus and Populus trees.[3] Epigeics physically disrupt the organic layer of the soil by consuming and mixing the F and H Soil Horizons layers, producing a homogeneous and granular form of organic forest floor.[5] It has been shown that fungi and macroinvertebrate populations are altered in presence of epegeics.[1] Although some invasive epegeics change the dynamics of these forests they seem to have a limited impact on the mineral structure of the soil and composition of the forest floor. The endoeic and anecic earthworms are found to have more deleterious effects on the forest floor and in turn the health of ecosystem with their extraordinary mixing of the Soil Horizons.[1][3]


References


[1] Hale, Cindy. Earthworms of the Great Lakes. Kollath+Stensaas Pub., 2013.

[2] Edwards, Clive A. “Natural Resources Conservation Service.” Home | NRCS Soils, 2019, https://www.nrcs.usda.gov/wps/portal/nrcs/detailfull/soils/health/biology/?cid=nrcs142p2_053863

[3] Frelich, Lee E., et al. “Earthworm Invasion into Previously Earthworm-Free Temperate and Boreal Forests.” Biological Invasions Belowground: Earthworms as Invasive Species, 2006, pp. 35–45., doi:10.1007/978-1-4020-5429-7_5. https://link.springer.com/article/10.1007/s10530-006-9019-3

[4] Terhivuo, Juhani, and Anssi Saura. “Dispersal and Clonal Diversity of North-European Parthenogenetic Earthworms.” Biological Invasions Belowground: Earthworms as Invasive Species, 2006, pp. 5–18., doi:10.1007/978-1-4020-5429-7_2. https://link.springer.com/article/10.1007/s10530-006-9015-7

[5] Addison, J.a., and S.b. Holmes. “Effect of Two Commercial Formulations of Bacillusthuringiensis Suhsp. Kurstaki on the Forest Earthworm Dendrobaenaoctaedra.” Canadian Journal of Forest Research, vol. 26, no. 9, 1996, pp. 1594–1601., doi:10.1139/x26-179. https://www.nrcresearchpress.com/doi/abs/10.1139/x26-179#.XM0hFo5KjIU

[6] Singh, Arjun, et al. “Taxonomic and Functional Diversity of the Culturable Microbiomes of Epigeic Earthworms and Their Prospects in Agriculture.” Journal of Basic Microbiology, vol. 56, no. 9, 2016, pp. 1009–1020., doi:10.1002/jobm.201500779. https://onlinelibrary.wiley.com/doi/full/10.1002/jobm.201500779

[7]“Chestnut Worm (Lumbricus Castaneus).” INaturalist.org, https://www.inaturalist.org/taxa/484186-Lumbricus-castaneus

[8]“Eiseniella Tetraedra.” NatureSpot, 2019, https://www.naturespot.org.uk/

[9] Hendrix, Paul F., and Patrick J. Bohlen. “Exotic Earthworm Invasions in North America: Ecological and Policy Implications.” BioScience, vol. 52, no. 9, 2002, p. 801., doi:10.1641/0006-3568(2002)052[0801:eeiina]2.0.co;2. https://pdfs.semanticscholar.org/2540/a686a6cfa2f71fef74fd692182821583aa93.pdf

[10] Monroy, Fernando, et al. “Changes in Density of Nematodes, Protozoa and Total Coliforms after Transit through the Gut of Four Epigeic Earthworms (Oligochaeta).” Applied Soil Ecology, vol. 39, no. 2, 2008, pp. 127–132., doi:10.1016/j.apsoil.2007.11.011. https://www.researchgate.net/publication/222415275_Changes_in_density_of_nematodes_protozoa_and_total_coliforms_after_transit_through_the_gut_of_four_epigeic_earthworms_Oligochaeta

[11]Domínguez, Jorge, and María Gómez-Brandón. “The Influence of Earthworms on Nutrient Dynamics during the Process of Vermicomposting.” Waste Management & Research, vol. 31, no. 8, 2013, pp. 859–868., doi:10.1177/0734242x13497079. http://jdguez.webs.uvigo.es/wp-content/uploads/2013/07/the-influence-of-earthworms-on-nutrient-dynamics.pdf