Life Sciences Commons^™

Linking Bioturbation And Sensory Biology: Chemoreception Mechanisms In Deposit-Feeding Polychaetes, Sara M. Lindsay, Paul Rawson

University of Maine Office of Research Administration: Grant Reports

Soft-sediment benthic habitats are ubiquitous in the marine environment and typically feature macrofaunal assemblages that include large numbers of deposit-feeding invertebrates such as polychaetes, bivalves, gastropods, crustaceans, holothurians, and hemichordates. Via their feeding, modulated in part by chemoreception, these organisms have profound effects on the ecology, biology, geology, and chemistry of their habitats. Very little is known, however, concerning the physiology and molecular biology of chemoreception in deposit feeders.

This research is a comprehensive investigation of the sensory mechanisms coordinating chemoreception in deposit feeding spionid polychaetes. It directly addresses this lack of information and will therefore have a significant impact …

The Lobster Bulletin, Fall 2006, Lobster Institute, University Of Maine

Lobster Bulletin

The Lobster Bulletin newsletter includes research updates, and information on lobsters and the lobster industry. The Lobster Institute at the University of Maine is dedicated to protecting and conserving the lobster resource, and enhancing lobstering as an industry and a way of life.

Headlines in the Fall 2006 issue include:

• Lobster Institute C.O.R.E. Campaign Receives $100,000 Riverdale Challenge
• Maine Aquatic Animal Health Laboratory to be Outfitted with State-of-the Art Equipment
• A Region-Wide Organization
• Research Report: Equipping the Maine Aquatic Animal Health Laboratory
• Research Report: Immunology Response of Lobster Hemolymph
• Research Report: The New England Lobster Research Initiative Announces 2006 Grant …

Tb194: Hemisgrapsus Sanguineus (Asian Shore Crab) As Predator Of Juvenile Homarus Americanus (American Lobster), Anna Demeo, John G. Riley

Technical Bulletins

Hemigrapsus sanguineus, commonly known as the Asian shore crab, was first discovered on the east coast of the United States in New Jersey in 1988. The spread of this invasive crab has been rapid, and it is now abundant along a large portion of the mid-Atlantic and southern New England coast. Further, an invasion of H. sanguineus into New Hampshire and southern Maine is in its preliminary stages. The introduction of this crab to North America could potentially affect a variety of native species. Numerous studies have examined the predation of H. sanguineus on blue mussels, snails, and other bivalves. …

Collaborative Research: Globec-01: Tidal Front Mixing And Exchange On Georges Bank: Controls On The Production Of Phytoplankton, Zooplankton, And Larval Fishes, David W. Townsend, Robert Houghton

University of Maine Office of Research Administration: Grant Reports

Georges Bank supports a rich fishery because: (1) large portions of the bank are shallow enough that light-limitation of phytoplankton is usually not important; (2) deep waters rich in inorganic nutrients are available for mixing onto the bank; and (3) the Bank's clockwise circulation can retain the planktonic stages of important fish species. The tidally mixed front (TMF) is central to the productivity of Georges Bank through the processes of nutrient injection in the north and retention of larvae on the south flank. These two regions are connected by a circulation pathway along the front in which nutrients lead to …

The Lobster Bulletin, Summer 2006, Lobster Institute, University Of Maine

Lobster Bulletin

The Lobster Bulletin newsletter includes research updates, and information on lobsters and the lobster industry. The Lobster Institute at the University of Maine is dedicated to protecting and conserving the lobster resource, and enhancing lobstering as an industry and a way of life.

Headlines in the Summer 2006 issue include:

• Lobster Institute Christens Its "New" Research Vessel
• CSI: Lobster Institute
• Research Report: Using Sensor Technology to Gauge Lobster Quality
• Research Report: Maine's Zone C Lobster Hatchery Ready for Production
• Select Lobster Institute Oral History Interviews Now Available Online
• Maine Begins Groundline Exchange Pilot Program

Distribution And Diversity Of Bacterial Chemolithotrophs In Marine And Freshwater Sediments, Lisa M. Nigro

Electronic Theses and Dissertations

Bacterial chemolithotroph population structure has been investigated in Lowes Cove marine intertidal mudflat and Damariscotta Lake, Maine. A 492 to 495 fragment of the cbbL gene, coding for the large subunit of Form I ribulose-1,5- bisphosphate carboxylase/oxygenase (rubisco) was amplified from lake surface (upper 2 mm) sediments and mudflat surface (upper 2 mm), subsurface (5-7 cm), and Mya arenaria burrow wall sediments, as well as sulfide-oxidizing bacterial mat samples. Amplified DNA was used to construct cbbL clone libraries. Phylogenetic analysis showed that Damariscotta Lake cbbL clones were mainly of the 1C type, indicating a facultative carbon monoxide/hydrogen-oxidizing community. Conversely, clones …

Biochemical And Molecular Autonomy Of Symbiotic Chloroplasts, Mary E. Rumpho

University of Maine Office of Research Administration: Grant Reports

Photosynthesis provides the energy that drives all plant growth, productivity and life on earth. A marine sea slug, Elysia chlorotica, has acquired the ability to carry out photosynthesis like a plant as a result of forming a symbiotic association with chloroplasts of the alga, Vaucheria litorea. Juvenile sea slugs feed on the filamentous alga and retain only the chloroplasts, incorporating them into cells of the digestive epithelium. The chloroplasts in the now dark-green animals are functional, i.e. they evolve oxygen and fix carbon dioxide and actively synthesize proteins from DNA contained in the chloroplasts. Once the symbiosis is established, the …

Evolution Of Endosymbiosis In (Xylotrophic) Wood-Eating Bivalves, Daniel L. Distel

University of Maine Office of Research Administration: Grant Reports

A grant has been awarded to Dr. Daniel L. Distel of the University of Maine to investigate the evolution of wood-boring clams. Though not well known to the general public, wood-boring clams are destructive species that may be considered the marine equivalent of termites. They include many diverse species that cause more than a billion dollars in damage to wooden structures, boats, and fishing gear annually in marine environments worldwide. The most destructive of these are the "shipworms"; worm-like clams that burrow into and eat wood. These voracious wood eaters can destroy a twelve-inch diameter pier piling in less than …