Overview
Temperature is a key driver of biological and physical components of the marine ecosystem.
Ocean temperature is a critical parameter for marine life, influencing physiological processes, species distribution, and species abundance (Canada 2016). Warming temperatures have been linked to individual and population-level changes in fish species, including decreased body size (Baudron et al. 2013) and population expansion or shifts towards cooler, deeper waters (Nye et al. 2009; Shackell, Ricard, and Stortini 2014). For example, several species typically associated with warm waters south of Nova Scotia are now considered “well established” on the Scotian Shelf (e.g., the blackbelly rosefish; Helicolenus dactylopterus), and it is expected that more warm water species will become established as temperatures increase (Fisheries and Canada 2020).
Temperature is directly related to ocean stratification, which refers to vertical layers of water with similar properties (e.g., temperature and salinity). Upper ocean stratification is seasonal, with a warm fresh layer developing in the spring and summer1 and disappearing in the fall and winter2. This process brings heat and carbon dioxide into deeper waters, and transports nutrients from deep waters to the euphotic zone, supporting the base of the food web (Environment and Canada 2019). There is evidence that stratification in some regions of Atlantic Canada is increasing due to changes in temperature and salinity (Hebert et al. 2021). Increased stratification has implications for climate change (e.g., reduced ability to absorb carbon dioxide) and the ecosystem (e.g., fewer nutrients available for phytoplankton).