Jeyaraney Kathirithamby PhD
University Research Lecturer
Senior Research Fellow, St Hugh’s College
© Steve Taylor
Past and Present Members
Natalie Helbert (
Rebecca Saff (
Takis Solulu (EU Research Student)
David Hughes (Hope Student)
Robin Frink (
Dino McMohan (Leverhulme Trust Research Student)
Alex Hayward (Leverhulme Trust Postdoctoral Research Fellow)
Research
Strepsiptera are bizarre parasites that display unique adaptations in response to long and diverse coevolution with their hosts (7 orders and 34 families of Insecta). The sexes exhibit extreme sexual dimorphism with free-living males and endoparasitic females (except in one family). After extensive taxonomic and morphological studies of this unusual entomophagous parasitoid, I am now engaged in using them as model organisms in the study of evolutionary relationships between parasites and their hosts. Included in these studies are systematics, coevolution, cophylogenetics, sex determination, evolutionary development, biodiversity and immunogenetics. In collaboration with laboratories and museums throughout the world, we are beginning to understand the complex interactions that characterize this complex host-parasite relationship.
Systematics, evolutionary development and biodiversity. Of
necessity, a major focus of our work has been insect systematics.
Descriptions, including taxonomic revisions of a large number of extant
strepsipteran species, are being carried out. The family Myrmecolacidae has
been of particular interest, because it has dimorphic hosts: the males
parasitize ants and the females parasitize orthopterans.
That Strepsiptera undergo genetic changes as they shift hosts has been only now
being documented. By molecular characterization we for the first time
unequivocally matched a female myrmecolacid to its male. As a part of this
study, we found identical males from
Cephalothorax of female Caenocholax fenyesi waloffi parasitic in a cricket
The cosmopolitan distribution of strepsipterans, their wide range of hosts, and their presence in earliest fossils, all suggest that this is an ancient order of insects. We are using molecular methods to examine the long-time coevolution of strepsipterans and their hosts in selected species.
Immunogenetics. As with all aspects of strepsipteran biology, the method used to avoid host immune response is interesting and unique. We recently found that a species of strepsipteran wraps itself with host-derived epidermis, remaining thereby undetected by the host during its endoparastic stage. Other mechanisms of strepsipterans’ host immune avoidance are being studied.
Challenges in the study of Strepsiptera. The greatest challenge in study of the strepsipteran host-parasite relationship is the cryptic nature of these insects. We have now located several sites throughout the world where fresh material can be collected for molecular, developmental and fine structure studies. In addition, we have developed methods of rearing species in the laboratory, facilitating all aspects of these studies. Remaining as a challenge is the phylogenetic position of the order. The combination of morphological reduction and modification, and the unusual life history of Strepsiptera, have puzzled biologists for over two centuries. The Strepsiptera's phylogenetic position has been the most enigmatic question in ordinal level insect systematics (the "Strepsiptera problem", Kristensen 1981). See Strepsiptera. Twisted-wing parasites. For more details cf. The Tree of Life Web Project:
http://tolweb.org/tree?group=Strepsiptera&contgroup=Endopterygota http://tolweb.org/tree?group=Stylopidia&contgroup=Strepsiptera
http://tolweb.org/tree/eukaryotes/animals/arthropoda/hexapoda/strepsiptera/stylohosts.html
Prospects for strepsipterans in biocontrol. Early on, we showed that stylopization
by strepsipterans causes loss or reduction of the host’s external and internal
genitalia, as well as abnormality in the eggs of hosts. More recently, we have
been involved in the use of strepsipterans as biocontrol agents. Some of the
hosts of Strepsiptera are pests of such crops as araca
nuts, coconuts, corn, mangoes, oil palm and rice. Collaboration with the Papua
New Guinea Oil Palm Research Organisation has resulted in the successful
release of female Stichotrema dallatorreanum, a biocontrol agent of the
long-horned grasshopper that severely defoliates oil palm. Preliminary studies
are underway on the possible use of a male myrmecolacid, Caenocholax fenyesi
texensis, as a biocontrol agent for the imported red fire ant in the southern
states of
The World Checklist of Strepsiptera is being created in Species2000 at the moment.
Oil palm estate,
Collaborators:
Comparative reproductive and
developmental biology in both sexual and parthenogenetic
species is being studied in collaboration with Claudio Alanso
and Cassandra Extavour
(
Behavioral
studies have been conducted over a number of years in collaboration with Laura Beani (
Male Xenos vesparum emerging from Polistes
dominulus
In collaboration with David
Grimaldi (American
In collaboration with colleagues in
Texas A&M (USA), we found that the male of Caenocholax
fenyesi texensis (a parasite of the red imported fire ant) has the smallest
insect genome so far studied. The genome (based on the sequences generated by
Propidium iodide
fluorescence (PMT4) of DNA in nuclei from female Xenos vesparum (shaded)
and Drosophila melanogaster nuclei (unshaded)
show large numbers (8000 total) of 2C, 4C, 8C
and 16C nuclei in female Xenos vesparum.
With Steve Taylor (Centre for
In collaborations with Juan Barrera (El Colegio de la Frontera Sur, Tapachula, Chiapas, Mexico), RicardoAndreazze (UFRN-Centro de Biociências, Departamento de Microbiologia e Parasitologia, Natal, Brasil) and Pedro Lozada (Museo de Historia Natural, Univeraidad Nacional Mayar de San Matcos, Peru) we are conducting a survey of Strespiptera and their hosts from Mesoamerica and the Neotropics.
Selected publications:
1989. J. Kathirithamby. Review of the order Strepsiptera.
Systematic Entomology 14: 41-92.
1991. J. Kathirithamby. Strepsiptera, Chapter 36,
pp. 684-695. In,The
Insects of
textbook
for students and research workers. 2 volumes, 560 + 600 pp.,
2nd edition,
Naumann, P. B.
Carne, J. F. Lawrence, E. S. Nielson, J. P. Spradberry,
R. W. Taylor, M. J.
Whitten, and M. J. Littlejohn (eds) CSIRO, Melbourne University
Press.
1992. J. Kathirithamby and W. D. Hamilton. More covert sex: the elusive females of
Myrmecolacidae
(Strepsiptera).
Trends in Ecology and Evolution 7(10): 349-351.
1993. J. Kathirithamby. Strepsiptera
of
Insects of Panama and
Mesoamerica: Selected Studies,
Diomedes, Q. & Aiello, A. (eds)
1999. A. Rokas, J.
Kathirithamby & P. W. H. Holland. Intron insertion as a phylogenetics character:
the engrailed
Homeobox of Strepsiptera does not indicate
affinity with Diptera. Insect
Molecular Biology 8:
527-530.
2001. J. Kathirithamby. Stand tall and they still
get you in your Achilles foot-pad. Proceedings of the
Royal Society of
2001. N. Halbert, L.
Ross, J. Kathirithamby, J. Wolley, R. Saff & S. Johnston. Phylogenetic
analysis
as a means of species identification within Myrmecolacidae (Insecta:
Strepsiptera).
Tijdschrift voor
Entomologie 144: 179-186.
2002. J. Kathirithamby, T.
Solulu & R. Caudwell. Descriptions of female Myrmecolacidae parasitic in Orthoptera in
2002.
J. Kathirithamby. Strepsiptera. Twisted-wing parasites. The Tree of Life Web Project,
2002. J. Kathirithamby & D.
P. Hughes.
Caenocholax fenyesi Pierce (Strepsiptera: Myrmecolacidae)
parasitic
in Camponotus planatus Roger (Hymenoptera: Formicidae) in
original
host? Annals of the Entomological Society of America 95: 558-563.
2003.
J.
Kathirithamby. Strepsiptera. Stylopidia. The Tree of Life Web Project.
2003.
J.
Kathirithamby. Strepsiptera: Host relations. Tree of Life Web
project.
2003. J. Kathirithamby,
L. D. Ross & S. J. Johnston. Masquerading as self? Endoparasitic
Strepsiptera enclose themselves in host-derived epidermal “bag”. Proceedings of the
2003. R. Dallai, L. Beani, J.
Kathirithamby, P. Lupetti & B. A. Afzelius. New findings on sperm
ultrastructure of
Xenos vesparum (Rossi) (Strepsiptera, Insecta). Tissue and
Cell 35: 19
-27.
2003.
D. P. Hughes,
G. Moya-Raygoza &
J. Kathirithamby. The first record among Dolichoderinae
(Formicidae)
of parasitism by Strepsiptera. Insectes
Sociolux 50: 148-150.
2003. D. P. Hughes, L. Beani, S. Turillazzi & J. Kathirithamby. 2002. Prevalence of the
parasite in
Polistes
as detected by dissection of immatures. Insectes Sociolux 50:
62-68.
2004.
J. Kathirithamby & J. S. Johnston. The discovery after 94 years of the
elusive female of a
myrmecolacid
(Strepsiptera), and the cryptic species of Caenocholax fenyesi Pierce
sensu
lato Proceedings of the Royal
Society of London, B (Suppl.3) 271: S5-S8.
2004. D. P.
Hughes, P. Pamilo & J. Kathirithamby. Horizontal transmission of Wolbachia by
strepsipteran
endoparasites? A response to Noda et al. 2001. Molecular Ecology 13(2):
507-509.
2004. G. Moya-Roygoza, J.
Kathirithamby & K. J. Larsen. Dry season parasitoids of the corn
leafhopper
(Homoptera: Cicadellidae). Canadian Entomologist 136
(1):
119-127.
2004. D. P. Hughes, J.
Kathirithamby, S. Turillazzi & L. Beani. Social wasps desert the colony and
aggregate
outside if parasitized: parasite manipulation? Behavioural
Ecology 15(6): 1037-1043.
2004. R. Dallai,
P. Lupetti, F. Giusti, D. Mercati, E. Paccagnini, S. Turillazzi, L. Beani & J.
Kathirithamby.
Fine structure of the Nassonow’s gland in the
neotenic, endoparasitic female
of Xenos vesparum (Rossi)
(Strepsiptera, Insecta). Tissue & Cell 36: 211-220.
2004. J. S.
Johnston, L. D. Ross, L. Beani, D. P. Hughes & J.
Kathirithamby. Tiny genomes
and
endoreduplication in Strepsiptera. Insect Molecular Biology 13(6):
581-585.
2004. D. P. Hughes, J. Kathirithamby
& L. Beani. Prevalence of the parasite
Strepsiptera in adult
Polistes wasps:
field collections and literature overview. Ethology, Ecology and Evolution 16: 363-375.
2005. D. Grimaldi, J. Kathirithamby & V. Schawaroch. Strepsiptera and triungula in Cretaceous amber.
Insect Systematics
and Evolution Group 1, 36: 1-20.
2005. D. P. Hughes & J.
Kathirithamby. Cost of strepsipteran macroparasitism
for immature wasps:
Does sociality modulate virulence? Oikos 110(3): 428-434.
2005. J. Kathirithamby &
check
list of Strepsiptera from the
2005. J. Kathirithamby. Further homage to Santa Rosalia: discovery at
last of the elusive females of a
species
of Myrmecolacidae (Strepsiptera:
Insecta). In, Narrow
Roads of Gene Land.
Collected
papers by W. D. Hamilton, Vol. III, Ed.
M. Ridley pp. 117-134. Oxford University
Press.
2005. J. Kathirithamby. How Wallace and Dampier
faced Tsunamis at sea. Correspondence to Editor.
Nature 438: 282.
http://info.nature.com/cgi-bin24/DM/y/eVr70BgZEc0Ch0pe20E6
2005. J. Gillespie, C. McKenna,
R. Gutell, J. S. Johnston, J. Kathirithamby, & A.
Cognato.
Assessing
the
odd secondary structural properties of nuclear small subunit ribosomal RNA
sequences
(18S) of the twisted-wing
parasites (Insecta: Strepsiptera). Insect Molecular Biology 14(6):
625-643.
2006. J. Kathirithamby &
D. P. Hughes. Descriptions and biological notes of the first
species of
Xenos (Strepsiptera: Stylopidae)
parasitic in Polistes carnifex F. (Hymenoptera: Vespidae) in
Mexico
2006. J. Kathirithamby. Partial
List of Strepsiptera species. Tree of Life Project.
http://tolweb.org/notes/?note
id=2978.
2006. F. Bonneton, F. G.
Brunet, J. Kathirithamby & V. Laudet. The rapid divergence of the ecdysone
receptor
is a synapomorphy for Mecopterida
that clarifies the Strepsiptera problem. Insect
Molecular Biology 15(3):
351-362.
2006. J. Kathirithamby. Strepsiptera,
In, Os Insetos do Brasil
(in press).
Selected
Reviews in Popular Press
Guardian -
Oxford
University Media Release –
Innovations
Report –
Imperial News 79 - 6 June
2003
BBC Science,
Radio 4, The Material World –
BBC –
Enviromental News Network –
BBC Wildlife Magazine, 2003 August, pg. 28.
Science Daily News –
Washington
Times –
United Press International –
Futures and
Commodity News –
Canadian Wildlife Magazine, October 2003 pg. 44.
Pesticide
Potpourri – October 2003,
Unusual Parasite Offers
Unusual Parasite Offers
BBC Natural Wildlife Magazine – January 2004, pg. 27.
Selected
Reviews in Scientific Literature
Nature
Science Update –
California
Academy of Sciences – 4 June 2003
Science
Science News Online
–
Nature –
Science News – June 2003, 164: 358.Skin Scam.
Science –
Bioscience – May 2004, 54: 383-5.Strepsipterans:
parasitic insects that may help eradicate pests.
Science -
. http://www.sciencemag.org/cgi/reprint/307/5708/343.pdf