November 14, 2024 — The following was released by NOAA Fisheries:
In September 2024, my colleague Shannon Meseck and I took a road trip up north to Canada, to visit a research lab in St. Andrews, New Brunswick. The St. Andrews Biological Station is a part of Fisheries and Oceans Canada, the Canadian equivalent to NOAA Fisheries. Though the oldest of Canada’s Atlantic research facilities, the lab features state-of-the-art seawater systems with capacity to do climate and aquatic research.
This project was a transboundary collaboration with climate scientist Helen Gurney-Smith to study climate change stressors on Atlantic sea scallop larvae. It was funded by the NOAA Ocean Acidification Program. The larval period, typically the first 3 weeks of a sea scallop’s life, is particularly challenging for bivalve shellfish because they are planktonic, or free-floating in the water column. During this period, larvae are subject to heavy predation and are transported through ocean currents. The water they are exposed to is constantly changing with environmental conditions, and pulses of warm and/or low pH water are becoming more common with climate change.
One way we can test how larvae respond to changes in environmental conditions is by measuring their respiration rate. As with all animals, sea scallops breathe oxygen and release carbon dioxide. The oxygen they breathe is dissolved in seawater, and we can measure the drop in the oxygen concentration of that water over time with specialized equipment known as respiration chambers. Changes in respiration rate indicate physiological stress. We hypothesized that respiration rate may change when sea scallop larvae are exposed to non-ideal seawater conditions.