Trichodoridae (stubby-root nematodes, trichodorids) is a family of terrestrial root feeding nematodes, being one of two that constitute suborderTriplonchida.[3][4] They are economically important plant parasites and virus vectors.[5][6]
Taxonomy
The first trichodorid was described in 1880 (De Man) as Dorylaimus primitivus, and the type genus, Trichodorus described in 1913 by Cobb, based on Trichodorus obtusus.[7]
Subdivision
Historically, up to 1973, Trichodorus was the only genus in this family. Originally it was the only genus in a subfamily, the Trichodorinae Thorne 1935,[1] within the family Diphtherophoridae, to distinguish it from the other subfamily, Diphtherophorinae.[8] However Diphtherophoridae was elevated to superfamily rank, and the subfamily Trichodorinae became a full-fledged family.[9] The genus Trichodorus was split into two genera in 1974 by Siddiqi,[10]Trichodorus and Paratrichodorus. This was based on the position of the gland nuclei and the type of pharyngo-intestinal junction. Siddiqi also used these criteria to divide Paratrichodirus into three subgenera, Paratrichodorus, Atlantadorus and Nanidorus. Rodriguez-Montessorosoon proposed further separating these genera into two subfamilies, resurrecting the name Trichodorinae.[11] With Siddiqi's subgenera not accepted by all authorities,[12] his elevation of these subgenera to genus level in 1980[13][14] was followed by even fewer,[15] but now is finding supports in molecular systematics.
Phylogenetics
In the case of Nanidorus, phylogenetic analysis has supported its recognition as a separate genus, although clustering with Trichodorus rather than its parent Paratrichodorus.[15][16]
Genera
There were few species recognised before the economic importance of the family was recognised, and in 1957 there were only 12, but this increased rapidly. In addition further genera than the original Trichodorus (1913) and Paratrichodorus (1974) were created in the 1970s, and another genus in 2002.[17]
There are now about 100 species divided into five to six genera.[18][19] Duarte et al. (2010) list 102 species.[15]
The two largest genera have didelphic females (two genital tracts), and are distributed worldwide. In the contrast the three small genera, have females that are monodelphic-prodelphic (single tract) and are native to Central America and the northern part of South America.
Etymology
Trichodoridae comes from the Greek trichos (a hair) and dory (a spear).[4] The name "stubby-root" comes from the effect of the nematodes on the root system which appears "stubby" or stunted.[23][5]
Plant pathology
The family only became of interest in 1951.[24] At that time Trichodorus christie (=Paratrichodorus minor) was recognised as a pest of crops (beets and corn) in Florida.[17] In 1961 it was discovered that they were also virus vectors,[25] though this seems to be mainly the didelphic genera.[15]
References
^ abThorne, G (1935). "Notes on free-living and plant parasitic nematodes, II". Proc. Helminth. Soc. Wash. 2: 96–98.
^Clark, W.C. (1961). "A revised classification of the order Enoplida (Nematoda)". New Zealand Journal of Science. 4 (1): 123–150.
^Phylum Nematoda: Triplochida Nematode Classification. Department of Nematology. University of California, Riverside.
^ abOrder Triplochida Nemaplex: Nematode-Plant Expert Information System. University of California, Davis. Version October 9, 2012.
^ abcSiddiqi, M.R. (1974). "Systematics of the genus Trichodorus Cobb, 1913 (Nematoda: Dorylaimida), with descriptions of three new species". Nematologica. 19: 259–278.
^RODRIGUEZ-MR, .S, HER, S. A. & SIIYDIQIM, . R. (1978). Systematics of the monodelphic species of Trichodoridae (Nematoda : Diphtherophorina) with descriptions of a new genus and four new species. J. Nematol., 10 : 141-152
^ANDRASSY, 1. (1976). Evolution as a basis for the systematization of nematodes. London, San Francisco
& Melbourne, Pitman Publishing
^Cobb, N. A. (1913). "New nematode genera found inhabiting fresh water and non-brackish soils". J. Wash. Acad. Sci. 3: 432–444.
Perry, Roland N.; Moens, Maurice, eds. (2013). Plant nematology (2 ed.). Boston, MA: CABI. ISBN978-1780641515. Retrieved 16 December 2014.
Articles
Blaxter, Mark L.; De Ley, Paul; Garey, James R.; Liu, Leo X.; Scheldeman, Patsy; Vierstraete, Andy; Vanfleteren, Jacques R.; Mackey, Laura Y.; Dorris, Mark; Frisse, Linda M.; Vida, J. T.; Thomas, W. Kelley (5 March 1998). "A molecular evolutionary framework for the phylum Nematoda". Nature. 392 (6671): 71–75. Bibcode:1998Natur.392...71B. doi:10.1038/32160. PMID9510248. S2CID4301939.
De Ley, P & Blaxter, M 2004, 'A new system for Nematoda: combining morphological characters with molecular trees, and translating clades into ranks and taxa'. in R Cook & DJ Hunt (eds), Nematology Monographs and Perspectives. vol. 2, E.J. Brill, Leiden, pp. 633–653.
Siddiqi, M.R. (1974). "Systematics of the genus Trichodorus Cobb, 1913 (Nematoda: Dorylaimida), with descriptions of three new species". Nematologica. 19: 259–278.
Duarte, Isabel; Neilson, Roy; Decraemer, Wilfrida; Brown, Derek; de Almeida, Maria Teresa M.; Marques (1 February 2010). "Phylogenetic relationships, based on SSU rDNA sequences, among the didelphic genera of the family Trichodoridae from Portugal". Nematology. 12 (2): 171–180. doi:10.1163/156854109X461721. hdl:1822/18363.
