Reproductive biology of the onychophoran Euperipatoides rowelli

Paul Sunnucks; Natalie C. Curach; Anthony Young; Jordan French; Ray Cameron; Dave A. Briscoe; Noel N. Tait

doi:10.1111/j.1469-7998.2000.tb00788.x

Abstract

The reproductive biology of the ovoviviparous peripatus Euperipatoides rowelli was investigated from field collections and laboratory cultures. The sexes have different demographics. The frequency distribution of individual weight is essentially L-shaped in females, but closer to normality for males: thus the sexes must exhibit different patterns of growth and/or mortality. Males are generally much smaller and rarer than females. The primary sex ratio seems to be 1:1 with equal investment in the sexes, while the tertiary ratio is highly female-biased. Logs with fewer individuals tend to be male-biased while well-populated logs tend to be female-biased. Males mature at 15–30% of the bodyweight of mature females. The weight frequency distribution of males without developed sperm in their tracts is strongly skewed to the lower weights, while that of males with sperm is more normally distributed, indicating that sperm production occurs as soon in life as possible. Males mature in their first year of life, if growth rates in culture may be extrapolated to the wild. In contrast to this rapid maturity in males, females may mature as late as their second or third years. Most mature females, and many prior to maturity, carry sperm in their spermathecae. After maturity, there is an approximately linear relationship between body mass and number of developing embryos. Reproduction in E. rowelli is significantly seasonal despite high individual variance, with a major bout of parturition in November–December (summer). A female can harbour one developed and one undeveloped batch of embryos in each uterus. Excesses of developed embryos in one uterus are counterbalanced by deficits of undeveloped ones, indicating that females can use their paired reproductive tracts independently. Individual females in culture can experience episodes of parturition approx. 6 months apart without re-mating, thus gestation may be 6 months or more. Sperm in spermathecae remain capable of vigorous swimming for at least 9.5 months.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Barclay, S. Ash, J. E. and Rowell, D. M. 2000. Environmental factors influencing the presence and abundance of a log‐dwelling invertebrate,Euperipatoides rowelli(Onychophora: Peripatopsidae). Journal of Zoology, Vol. 250, Issue. 4, p. 425.

Sunnucks, P. Wilson, A. C. C. Beheregaray, L. B. Zenger, K. French, J. and Taylor, A. C. 2000. SSCP is not so difficult: the application and utility of single‐stranded conformation polymorphism in evolutionary biology and molecular ecology. Molecular Ecology, Vol. 9, Issue. 11, p. 1699.

Rockman, Matthew V Rowell, David M and Tait, Noel N 2001. Phylogenetics of Planipapillus, Lawn-Headed Onychophorans of the Australian Alps, Based on Nuclear and Mitochondrial Gene Sequences. Molecular Phylogenetics and Evolution, Vol. 21, Issue. 1, p. 103.

Tait, Noel N. and Norman, Jennifer M. 2001. Novel mating behaviour in Florelliceps stutchburyae gen. nov., sp. nov. (Onychophora: Peripatopsidae) from Australia. Journal of Zoology, Vol. 253, Issue. 3, p. 301.

Tutt, Karen Daugherty, Charles H. and Gibbs, George W. 2002. Differential life‐history characteristics of male and female Peripatoides novaezealandiae (Onychophora: Peripatopsidae). Journal of Zoology, Vol. 258, Issue. 2, p. 257.

Eriksson, B. Joakim Tait, Noel N. and Budd, Graham E. 2003. Head development in the onychophoran Euperipatoides kanangrensis with particular reference to the central nervous system. Journal of Morphology, Vol. 255, Issue. 1, p. 1.

Walker, Muriel H. and Tait, Noel N. 2004. Studies of embryonic development and the reproductive cycle in ovoviviparous Australian Onychophora (Peripatopsidae). Journal of Zoology, Vol. 264, Issue. 4, p. 333.

Sherbon, Beverley J. and Walker, Muriel H. 2004. A new species of Peripatopsis from South Africa, P. stelliporata, with observations on embryonic development and sperm degradation (Onychophora, Peripatopsidae). Journal of Zoology, Vol. 264, Issue. 3, p. 295.

GARRICK, R. C. SANDS, C. J. ROWELL, D. M. TAIT, N. N. GREENSLADE, P. and SUNNUCKS, P. 2004. Phylogeography recapitulates topography: very fine‐scale local endemism of a saproxylic ‘giant’ springtail at Tallaganda in the Great Dividing Range of south–east Australia. Molecular Ecology, Vol. 13, Issue. 11, p. 3329.

Reinhard, Judith and Rowell, David M. 2005. Social behaviour in an Australian velvet worm, Euperipatoides rowelli (Onychophora: Peripatopsidae). Journal of Zoology, Vol. 267, Issue. 1, p. 1.

SUNNUCKS, PAUL BLACKET, MARK J. TAYLOR, JODY M. SANDS, CHESTER J. CIAVAGLIA, SHERRYN A. GARRICK, RYAN C. TAIT, NOEL N. ROWELL, DAVID M. and PAVLOVA, ALEXANDRA 2006. A tale of two flatties: different responses of two terrestrial flatworms to past environmental climatic fluctuations at Tallaganda in montane southeastern Australia. Molecular Ecology, Vol. 15, Issue. 14, p. 4513.

Woodman, J. D. Ash, J. E. and Rowell, D. M. 2006. Population structure in a saproxylic funnelweb spider (Hexathelidae: Hadronyche) along a forested rainfall gradient. Journal of Zoology, Vol. 268, Issue. 4, p. 325.

GARRICK, R. C. SANDS, C. J. ROWELL, D. M. HILLIS, D. M. and SUNNUCKS, P. 2007. Catchments catch all: long‐term population history of a giant springtail from the southeast Australian highlands — a multigene approach. Molecular Ecology, Vol. 16, Issue. 9, p. 1865.

Woodman, James D. Cooper, Paul D. and Haritos, Victoria S. 2007. Effects of temperature and oxygen availability on water loss and carbon dioxide release in two sympatric saproxylic invertebrates. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology, Vol. 147, Issue. 2, p. 514.

Clusella-Trullas, Susana and Chown, Steven L. 2008. Investigating onychophoran gas exchange and water balance as a means to inform current controversies in arthropod physiology. Journal of Experimental Biology, Vol. 211, Issue. 19, p. 3139.

Norman, Jennifer M. and Tait, Noel N. 2008. Ultrastructure of the eggshell and its formation in Planipapillus mundus (Onychophora: Peripatopsidae). Journal of Morphology, Vol. 269, Issue. 10, p. 1263.

Garrick, Ryan C. Rowell, David M. Simmons, Chris S. Hillis, David M. and Sunnucks, Paul 2008. FINE-SCALE PHYLOGEOGRAPHIC CONGRUENCE DESPITE DEMOGRAPHIC INCONGRUENCE IN TWO LOW-MOBILITY SAPROXYLIC SPRINGTAILS. Evolution, Vol. 62, Issue. 5, p. 1103.

Mayer, Georg and Whitington, Paul M. 2009. Neural development in Onychophora (velvet worms) suggests a step-wise evolution of segmentation in the nervous system of Panarthropoda. Developmental Biology, Vol. 335, Issue. 1, p. 263.

Whitington, Paul M. and Mayer, Georg 2011. The origins of the arthropod nervous system: Insights from the Onychophora. Arthropod Structure & Development, Vol. 40, Issue. 3, p. 193.

Garrick, Ryan C. 2011. Montane refuges and topographic complexity generate and maintain invertebrate biodiversity: recurring themes across space and time. Journal of Insect Conservation, Vol. 15, Issue. 3, p. 469.

Download full list

Article contents

Reproductive biology of the onychophoran Euperipatoides rowelli

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Reproductive biology of the onychophoran Euperipatoides rowelli

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests