Ocean salinity refers to the concentration of dissolved salts in seawater. While seawater may appear fresh, it contains a significant amount of dissolved salts, primarily sodium chloride (common salt). This salinity plays a crucial role in many oceanographic processes.
- Factors Affecting Salinity
- Evaporation: In regions with high evaporation rates, such as the tropics, water evaporates, leaving behind salts, thus increasing salinity.
- Precipitation: Rainfall and snowfall add freshwater to the ocean, diluting the seawater and reducing salinity.
- River Runoff: Rivers carry dissolved salts and freshwater from the land into the ocean, influencing salinity levels near coastlines.
- Sea Ice Formation: When seawater freezes to form sea ice, salts are excluded from the ice crystals, increasing the salinity of the surrounding water.
- Melting Ice: The melting of icebergs and ice shelves, which are relatively fresh, can decrease salinity in surrounding waters.
- Global Salinity Distribution
- High Salinity Regions: Areas with high evaporation rates and limited freshwater input, such as the subtropical gyres, typically exhibit high salinity.
- Low Salinity Regions: Regions with high precipitation and significant river runoff, such as the Arctic and Antarctic, generally have lower salinity.
- Importance of Salinity
- Density and Circulation: Salinity plays a crucial role in determining the density of seawater. Denser water tends to sink, driving ocean circulation patterns.
- Marine Life: Salinity levels influence the distribution and abundance of marine organisms.
- Climate: Ocean salinity patterns affect global climate by influencing ocean circulation and heat transport.