Article: The mud flat anemone-cockle association: mutualism in the intertidal zone?

The intertidal cockle Austrovenus stutchburyi exists in a symbiotic relationship with the mud flat anemone Anthopleura aureoradiata, the latter using the shell of buried cockles as the only available hard substrate for attachment. The cockles are also host to a detrimental larval trematode Curtuteria australis that invades the bivalves through the filtration current, and here we demonstrate that the anemones significantly depress the rate by which cockles accumulate parasites in the field. Along the tidal gradient, the relative parasite load of cockles was lowest where anemones were most abundant, and the area occupied by anemones per square meter sediment surface explained 30% of the spatial variation in infection intensity. At a smaller spatial scale, parasite loads were significantly lower (34%) in cockles from patches with than without anemones at the same tidal height. A field experiment manipulating the density of anemones showed that the rate of parasite accumulation in cockles decreased with increasing anemone density, and that the generally positive relationship between infection intensity and cockle size tended to disappear in the presence of anemones. The results suggest that the anemone-cockle symbiosis is a non-obligate mutualistic relationship in which the former is provided with a suitable substrate for attachment whereas the latter obtains protection against parasitic infections.

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References

1.

CHRISTENSEN N, Frandsen F, Nansen P . The interaction of some environmental factors influencing Schistosoma mansoni cercarial host-finding. J Helminthol. 1980; 54(3):203-5. DOI: 10.1017/s0022149x0000660x. View

2.

Fashuyi S, Williams M . The role of Chaetogaster limnaei in the dynamics of trematode transmission in natural populations of freshwater snails. Z Parasitenkd. 1977; 54(1):55-60. DOI: 10.1007/BF00380636. View

3.

Wajdi N . THE PREDATION OF SCHISTOSOMA MANSONI BY THE OLIGOCHAETE ANNELID CHAETOGASTER. J Helminthol. 1964; 38:391-2. DOI: 10.1017/s0022149x00033939. View

4.

Patzig F, Schmid K . [Chaetogaster limnaei K.E. v. Baer. A problem for laboratory water-snail colonies in research on trematodes]. Z Parasitenkd. 1981; 65(3):261-70. DOI: 10.1007/BF00926719. View

5.

Stirewalt M, Lewis F . Schistosoma mansoni: effect of rotifers on cercarial output, motility and infectivity. Int J Parasitol. 1981; 11(4):301-8. DOI: 10.1016/0020-7519(81)90040-0. View

The Mud Flat Anemone-cockle Association: Mutualism in the Intertidal Zone?