Inequalities in size and intensity-dependent growth in a mermithid nematode parasitic in beach hoppers

• Published in: Journal of helminthology Vol. 76; no. 1; pp. 65 - 70
• Main Authors: Poulin, R., Latham, A.D.M.
• Format: Journal Article
• Language: English
• Published: Cambridge, UK Cambridge University Press 01.03.2002
• Subjects: Animal and plant ecology; Animal, plant and microbial ecology; Animals; Biological and medical sciences; Crustacea - anatomy & histology; Crustacea - parasitology; Enoplida Infections - parasitology; Fundamental and applied biological sciences. Psychology; Mermithoidea - anatomy & histology; Mermithoidea - growth & development; Mermithoidea - isolation & purification; Synecology; Terrestrial ecosystems; Mermithidae; Growth; Interspecific comparison; Variability; Parasite; Amphipoda; Crustacea; Arthropoda; Body size; Helmintha; Nemathelminthia; Population dynamics; Parasitism rate; Invertebrata; Nematoda
• ISSN: 0022-149X; 1475-2697
• DOI: 10.1079/JOH200195

Inequality in body sizes is a common feature in populations of helminth parasites, with potential consequences for egg production and population genetics. Inequalities in body lengths and the effects of intraspecific competition on worm length were studied in a species of mermithid nematode parasitic in the crustacean Talorchestia quoyana (Amphipoda: Talitridae). The majority of the 753 worms recovered were relatively small, and an analysis using a Lorenz curve and Gini coefficient suggested that there were no marked inequalities in body lengths among the worms. Total worm length in the 356 infected amphipods (i.e. the sum of the lengths of all the worms in a host) increased steadily as a function of the number of worms per amphipod, whereas the length of the longest worm per amphipod peaked in amphipods harbouring intermediate numbers of worms. This last result was not significantly accounted for by the observed increase in host size with increasing intensity of infection, but resulted from a correlation between worm length and host size. As the number of worms per amphipod increased, the relative sizes of the second-, third-, and fourth-longest worms per host increased markedly. This means that relative inequalities in sizes become less pronounced, i.e. subordinate worms get closer in size to the longest worm, as the number of worms per host increases. The main consequence of this phenomenon is that worm sizes in the mermithid population are more homogeneous than they would be if intraspecific competition had stronger effects on worm growth.