The ptychoid defensive mechanism in Phthiracarus longulus (Acari, Oribatida, Phthiracaroidea): Exoskeletal and muscular elements
Keywords:
Synchrotron X-ray microtomography, Phthiracarus longulus, ptychoidy, Phthiracaridae, box mite, convergent evolution, predator defenceAbstract
The most complex defensive mechanism in oribatid mites is ptychoidy, a special body form allowing the animals to retract their legs and coxisternum into a secondary cavity in the idiosoma and to seal it off with the prodorsum. Many exoskeletal and muscular adaptations are required to enable the functionality of this mechanism, e.g. a soft and pliable podosoma. Its membranous part not only gives the coxisternum the ability to move independently from the rest of the hardened cuticular elements, but also builds up the ‘walls’ of the secondary cavity. Here, using scanning electron microscopy and synchrotron microtomography we present the first detailed study on ptychoidy in a phthiracaroid mite, Phthiracarus longulus, and compare it to the Euphthiracaroidea. Morphological differences regarding ptychoidy between these groups are already noticeable from the outside: the ventral plates of P. longulus are embedded into the soft anogenital membrane, whereas euphthiracaroid mites connect the ventral plates to the notogaster through the hardened plicature plates. Internally, we discovered a not yet described coxisternal protractor muscle, which presumably assists haemolymph pressure during the deployment of the coxisternum during ecptychosis.
Downloads
References
Akimov, I. A. & A. V. Yastrebtsov (1991): Skeletal-Muscular System of Oribatid Mites (Acariformes: Oribatida). – Zoologische Jahrbücher für Anatomie und Ontogenie der Tiere 121: 359–379.
Alberti, G., R. A. Norton & J. Kasbohm (2001): Fine structure and mineralisation of cuticle in Enarthronota and Lohmannioidea (Acari: Oribatida). – In: Halliday, R. B., D. E. Walter, H. C. Proctor,
R. A. Norton & M. J. Colloff (eds): Acarology: Proceedings of the 10th International Congress. – CSIRO Publishing, Melbourne: 230–241.
Balogh, J. & P. Balogh (1992): The oribatid mites genera of the world, Vol. 1. – Hungarian National Museum Press, Budapest: 263 pp.
Betz, O., U. Wegst, D. Weide, M. Heethoff, L. Helfen, W. K. Lee & P. Cloetens (2007): Imaging applications of synchrotron x-ray micro-tomography in biological morphology and biomaterial science. I. General aspects of the technique and its advantages in the analysis of arthropod structure. – Journal of Microscopy 22: 51–71.
Grandjean, F. (1934): Observations sur les Oribates (6e série). – Bulletin du Muséum national d‘Histoire naturelle 6: 353–360.
Grandjean, F. (1954): Essai de classification des Oribates. – Bulletin de la Société Zoologique de France 78: 421–446.
Grandjean, F. (1967): Nouvelles observations sur les Oribates (5e série). – Acarologia 9: 242–272. Grandjean, F. (1969): Considérations sur le classement des Oribates leur division en 6 groupes majeurs. – Acarologia 11: 127–153.
Hammen, L. van der (1989): Glossary of Acarological Terminology. – SPB Academic Publishing bv Publishers, The Hague: 576 pp.
Heethoff, M. & R. A. Norton (2009): Role of musculature during defecation in a particle-feeding arachnid, Archegozetes longisetosus (Acari, Oribatida). – Journal of Morphology 270: 1–13.
Heethoff, M., M. Laumann & P. Bergmann (2007): Adding to the reproductive biology of the parthenogenetic oribatid mite Archegozetes longisetosus (Acari, Oribatida, Trhypochthoniidae). – Turkish Journal of Zoology 31: 151–159.
Heethoff, M., L. Helfen & P. Cloetens (2008): Non-invasive 3D-visualization of the internal organization of microarthropods using synchrotron X-ray-tomography with sub-micron resolution. – JOVE 15: doi:10.3791/737
Hoebel-Mävers, M. (1967): Funktionsanatomische Untersuchungen am Verdauungstrakt der Hornmilben (Oribatei). – Dissertation, Universität Braunschweig: 45 pp.
Märkel, K. (1964): Die Euphthiracaridae Jacot, 1930, und ihre Gattungen (Acari: Oribatei). – Zoologische Verhandelingen, Leiden 67: 4–78.
Niedbała, W. (2008): Ptyctimous Mites (Acari: Oribatida) of Poland. – Fauna Poloniae, Polish Academy of Sciences, Warszawa: 242 pp.
Norton, R. A. (1984): Monophyletic groups in the Enarthronota (Sarcoptiformes). – In: Griffiths, D. A. & C. E. Bowman (eds): Acarology VI, vol. I. – Ellis Horwood, Chichester: 233–240.
Norton, R. A. (1994): Evolutionary aspects of oribatid mite life histories and consequences for the origin of the Astigmata. – In: Houck, M. (ed): Mites. Ecological and evolutionary analyses of life-history patterns. – Chapman and Hall, New York: 99–135.
Norton, R. A. (2001): Systematic relationships of Nothrolohmanniidae, and the evolutionary plasticity of body form in Enarthronota (Acari: Oribatida). – In: Halliday, R. B., D. E. Walter, H. C. Proctor, R. A. Norton & M. J. Colloff (eds): Acarology: Proceedings of the 10th International Congress. – CSIRO Publishing, Melbourne: 58–75.
Norton, R. A. & V. Behan-Pelletier (1991): Calcium carbonate and calcium oxalate as cuticular hardening agents in oribatid mites (Acari: Oribatida). – Canadian Journal of Zoology 69: 1504–1511.
Norton R. A. & J. C. Lions (1992): North American Synichotritiidae (Acari: Oribatida) 1. Apotritia walkeri n. g., n. sp., from California. – Acarologia 33: 285–301.
Raspotnig, G. (2006): Chemical alarm and defence in the oribatid mite Collohmannia gigantea (Acari: Oribatida). – Experimental and Applied Acarology 39: 177–194.
Sanders, F. H. & R. A. Norton (2004): Anatomy and function of the ptychoid defensive mechanism in the mite Euphthiracarus cooki (Acari: Oribatida). – Journal of Morphology 259: 119–154.
Saporito, R. A., M. A. Donnelly, R. A. Norton, H. M. Garraffo, T. F. Spande & J. W. Daly (2007): Oribatid mites as a major dietary source for alkaloids in poison frogs. – Proceedings of the National Academy of Sciences 104: 8885–8890.
Schmelzle, S., L. Helfen, R. A. Norton & M. Heethoff (2008): The ptychoid defensive mechanism in Euphthiracaroidea (Acari: Oribatida): A comparison of exoskeletal elements. – Soil Organisms 80 (2): 227–241.
Schmelzle, S., L. Helfen, R. A. Norton & M. Heethoff (2009): The ptychoid defensive mechanism in Euphthiracaroidea (Acari: Oribatida): A comparison of muscular elements with functional considerations. – Arthropod Structure and Development 38 (6): 461–472, doi:10.1016/ j.asd.2009.07.001
Shimano, S., T. Sakata, Y. Mizutani, Y. Kuwahara & J. I. Aoki (2002): Geranial: The alarm pheromone in the nymphal stage of the oribatid mite, Nothrus palustris. – Journal of Chemical Ecology 28: 1831–1837.
Walker, N. A. (1965): Euphthiracaridae of California Sequoia litter, with a reclassification of the families and genera of the world. – Fort Hayes Studies, Science Series No 3, 1–155.
Wauthy, G. (1984): Observations on the ano-genital region of adult Phthiracarus nitens (Oribatida: Mixonomata). – In: Griffiths, D. A. & C. E. Bowman (eds): Acarology VI. – Horwood, Chichester, Vol. 1: 268–275.
Wauthy, G., M. Leponce, N. Banaï, G. Sylin & J. C. Lions (1998): The backward jump of a box moss mite. – Proceedings of the Royal Society – Biological Sciences 265: 2235–2242.
Yastrebtsov, A. V. (1991): Peculiarities of the muscular system and skeletal parts of the oribatid mite Oribotritia sp. (Oribatida, Ptyctima). – Revue d’ Entomologie de l’URSS. 70: 495–499 (in Russian).
Downloads
Published
Issue
Section
License
All articles on www.soil-organisms.org may be read, copied, distributed, and (in limited quantity) printed for non-commercial, private, scientific purposes.