The distribution of an introduced mollusc and its role in the long-term demise of a native confamilial species

The estuarine mud snail, Batillaria attramentaria, was transported to the Pacific coast of North America with the Pacific oyster, Crassostrea gigas (C. gigas), imported from Japan in the early part of this century, and has proliferated in several bays where the oyster was introduced. Since the arrival of Batillaria there have been declines in populations of its native ecological equivalent, Cerithidea californica. This study documents the distribution of the exotic Batillaria throughout its entire introduced range, concentrating on the few bays in northern California where both snails exist sympatrically. Using dates of initial importation of C. gigas and dates of first documentation of Batillaria within a bay, I established the earliest possible date for the introduction of Batillaria in a particular area. In cases where Cerithidea also was, or had been, present within a bay, I calculated a range of time for either the continued coexistence of the two species or the time until local exclusion of the native. Density measurements of Cerithidea within these bays where the species co-occurred allowed comparison of present Cerithidea numbers to historical accounts. Results indicated that Batillaria is replacing Cerithidea in the northern marshes of California. This replacement of the northernmost Cerithidea populations is not only reducing Cerithidea's overall range, but also eliminating a race recently shown to be a genetically distinct from southern Cerithidea populations. Other studies that have demonstrated superior exploitative competitive ability by Batillaria provide a potential mechanism for this displacement pattern. Regardless, the results presented here indicate that the displacement process is slow, taking on average > 50 years to complete. This study illustrates a gradual, but predictable process of exotic replacement of native species, and argues strongly against complacency toward invaders that may currently seem innocuous.