MOVEMENT OF EELWORMS

Tracks were plotted of about 300 individual eelworms comprising six species among water droplets on a glass surface. Measurements of the tracks indicated that the product of length and activity of an eelworm divided by its speed was a constant. This supports the hypothesis that the speed of an eelworm among water droplets is a function of its length and activity. This principle can only be applied to movement in soil where the length of the eelworm is less than about three times the particle diameter. Under such conditions the eelworms move in thin films or water droplets over particles. Among smaller-sized particles the speed of the eelworms is influenced by particle size. With increasing eelworm length there is an increase in soil particle size for maximum mobility.     

Revision of the coral genus Acropora (Scleractinia: Astrocoeniina: Acroporidae) in Indonesia

The coral genus Acropora is reviewed from Indonesia for the first time, following detailed collections made at 131 sites and additional material collected from approximately 40 sites throughout the archipelago during the period 1993–6. Eighty-three species are recorded, four of these ( Acropora halmaherae, A. awi, A. plumosa and A. simplex ) new to science, six first described in 1994 and six in 1997. Records are compared with specimen-based records from localities worldwide. The species of Acrokora occurring in Indonesian waters include five recorded only from the Indian Ocean and Indonesia, seven recorded only from the Pacific Ocean, South China Sea and Indonesia, and a further 10 species apparently endemic to Indonesia, as well as widespread Indo-Pacific species. Two species ( A. jacquelineae Wallace, 1994 and A. batunai Wallace, 1996) are recorded only from north central Indonesia and Papua New Guinea, and two species ( A. russelli Wallace, 1994 and A. turaki Wallace, 1994) only from north central Indonesia and north western Australia. The findings contribute to a new view of the corals of the Indo-Pacific 'centre of diversity' as a composite fauna with origins in a number of events in space and time.     

Printed in Great Britain Mandobius regalis gen. et sp.n. (Copepoda: Poecilostomatoida: Lichomolgidae) associated with the coral Pectinia lactuca in New Caledonia

A new genus, Mandobius gen.n, containing a new species, M. regalis sp.n., is associated with the coral Pectinia lactuca in New Caledonia. The new copepod differs conspicuously from the allied genus Paramolgus in having only one seta on the first segment of the first antenna, in the formula 1,11,3 for the third segment of the endopodite of leg 1, and in the formula 11,1,5 for the third segment of the exopodite of leg 4.     

Interspecific competition in Drosophila I. Reversal of competitive superiority due to varying concentration of ethanol

The experiments reported here were designed to investigate the outcome of interspecific competition between Drosophila melanogaster and D. simulans in environments varying in one factor only. The factor chosen was ethanol concentration in the medium; the strains used were D. melanogaster SM5 (Series I), D. melanogasterw, b , (Series II) and D. simulans v (both Series).
The results of competition over a number of generations, the longest experiment lasting 100 days, showed clear differences in the relative competitive abilities of the two species between the different environments. With no ethanol, D. simulans won in all replicates; with 896 ethanol, D. melanogaster won in all replicates; at intermediate (496) concentration, the winning species was not consistent. Experiments in Series II showed very similar results to their counterparts in Series I despite distinct genetic differences between the strains of D. melanogaster used.
These results tie in with published work, on (i) the relative susceptibility of single–species cultures of D. melanogaster and D. simulans to high ethanol concentrations, and (ii) distributional patterns observed in some field populations exposed to alcohols in their environment.     

Frequency-dependent competitive abilities and differential resource use in competition between Drosophila hydei and D. melanogaster

Several experiments, each involving competition between Drosophila melanogaster and D. hydei in population cages, were set up and allowed to run for up to 50 weeks. The population sizes of both species, and hence the species frequencies, were monitored once a fortnight, i.e. approximately once per generation. Coexistence of the two species was observed in cages containing resource bottles with 5 g of food medium; cages whose resource bottles contained only 1.5 g resulted in competitive exclusion of D. hydei. Competitive abilities were frequency-dependent in the former case but not in the latter. Tests of larval depth distributions revealed that D. hydei larvae feed at a deeper level in the food medium than larvae of D. melanogaster. The explanation of the contrasting results of competition when bottles contained 5 g and 1.5 g of resources lies in the production of frequency-dependent competitive abilities by larval resource partitioning in the bottles with 5 g, and the preclusion of such partitioning in the 1.5 g bottles because of the very limited depth of food medium then available. The relevance of these results to a model of competition is discussed, and the potential generality of differential resource use as a stabilizing mechanism in both interspecific and intergenotypic competition is noted.