Scallop survey in a tube: Skylar Bayer is developing a molecular technique to detect scallop spawning events in the field

Submitted by Rachel Lasley-Rasher on Wed, 11/30/2016 - 15:33

NOTE: This blog was written by Skylar Bayer, a graduate student at the University of Maine, working on a Sea Grant-funded project with Dr. Rick Wahle of University of Maine, and Dr. Pete Countway of Bigelow Laboratory for Ocean Sciences.

The Knowledge of Native Peoples

Submitted by Catherine Schmitt on Wed, 11/23/2016 - 11:58

November is National Native American Heritage Month, a time to recognize “the significant contributions the first Americans made to the establishment and growth of the United States.” On Thanksgiving, we come together in shared humanity and celebration of the lands and waters that sustain us. The original residents of the continent accommodated European colonists, shared their knowledge of where to find food and shelter. They ate together—Homo sapiens trying to survive in the same landscape.

Using remotely operated vehicles to characterize habitat at a large scale

Submitted by Rachel Lasley-Rasher on Thu, 11/17/2016 - 12:18

 Our Director for Research, Dr. Damian Brady published a paper along with Dr. Robert Steneck and former graduate student, Jennifer McHenry (lead author) titled, Abiotic proxies for predictive mapping of near-shore benthic assemblages: Implications for marine spatial planning. In this paper researchers identified important habitat variables and spatial gradients that correlate with abundance, diversity, and commercial value of species assemblages in the Gulf of Maine using a remotely-operated vehicle (ROV).

Studying a restored Penobscot River

Submitted by Catherine Schmitt on Wed, 11/09/2016 - 15:18

Between the head of tide above Bangor to where it widens into the bay at Searsport, the Penobscot River shifts from a flowing freshwater waterway banked by cedar and pine to a brackish, wave-lapped marsh with a rocky shoreline. In this estuary, salt concentrations fluctuate as the winds and tides push sea water and sediments back and forth.