Invading the invaders: reproductive and other mechanisms mediating the displacement of zebra mussels by quagga mussels (original) (raw)

Invertebrate Reproduction & Development, 2012

Abstract

Dreissenids are invasive bivalves, native to water bodies of the Ponto-Caspian region of southwestern Asia. Following dispersion in Europe in the early nineteenth century, they were accidentally introduced into the Great Lakes region of North America in the 1980s and 1990s. Recently, they were discovered in the southwestern USA. Initially, Dreissena polymorpha (zebra mussel, ZM) spread more rapidly than Dreissena rostriformis bugensis (quagga mussel, QM); however, QM is becoming predominant in many areas of the Great Lakes and was the first to appear west of the Continental Divide, in Lake Mead. In Europe, as well, ZM was the first species to spread widely in western Europe from its endemic range; however, QM have recently been found in areas previously colonized only by ZM. This article reviews the dynamics of this double dreissenid invasion and considers the question: what mechanisms mediate the displacement of ZM by QM? Despite their similar appearance, QM differ from ZM in temperature and salinity tolerance, byssal thread attachment, growth, respiration rates, assimilation efficiency, enzymes such as thiaminase, depth of occurrence, and reproduction. Differences in reproduction include the depth at which reproductively active animals are found, the temperature at which spawning can be initiated, number of gametes produced, and length and timing of their annual reproductive cycle. A hypothetical role of hybrids between the species mediating species change is suggested. Future investigations of the displacement of ZM by QM should consider the role of reproductive differences (hybrids, responses to environmental chemicals, etc.) in mediating the change.

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