R-16-02 Deepwater lobster settlement across thermal gradients in the Gulf of Maine

Richard Wahle
School of Marine Sciences
University of Maine
richard.wahle@maine.edu

Kathleen Reardon
Maine Department of Marine Resources

Fishing Industry collaborators:

Curtis Brown, Portland, ME
Matt Parkhurst, Boothbay Harbor, ME
Norbert Lemieux, Cutler, ME
 

The American lobster, Homarus americanus, supports the most valuable single-species fishery in New England and Atlantic Canada. In recent years, the American lobster population has expanded north and east, and down into deeper water (>30 fathoms or ~60 meters), areas historically deemed too cold for larval development.

As lobsters have moved north, fishermen have experienced a four-fold increase in harvest, and they are seeing more juvenile lobsters. These observations have led fishermen and scientists like UMaine’s Richard Wahle to speculate that temperatures may have warmed enough to increase the area of favorable nursery habitat. The question this research project seeks to address is whether the unprecedented surge in small lobsters in the historically cold eastern and deeper parts of the Gulf of Maine in the last decade is the result of expanded settlement (lobster larvae settling in deep, offshore waters), or juvenile lobsters settling in shallow nurseries and then moving into deeper water. This is an important distinction, because it has implications for the carrying capacity and production potential of coastal nursery habitats.

Juvenile lobster collector made of yellow wire mesh filled with rocksWorking with participating fishermen, Wahle will deploy rock-filled “collectors” on the sea floor to collect newly settled juvenile lobsters, in parallel with the State of Maine’s ventless lobster trap survey of older juveniles, coordinated by Kathleen Reardon. They will sample juvenile lobsters and monitor temperature at 15 sites at three different depths in the eastern and western Gulf of Maine. The north-to-south ocean temperature gradient along New England’s coast is one of  the steepest on Earth, providing an effective laboratory for studying the effects of temperature change on marine fauna. The results will quantify patterns of lobster size and density to distinguish the effects of settlement and post-settlement processes, and the influence of temperature on the availability of nursery habitat (and overall role in the increase in the lobster population).


Two-year project, total project costs $225,384 (Sea Grant funds $150,000)