Factors Impacting the Migration Paths of Humpback Whales, Megaptera novaeangliae, in Queensland, Australia

Charles J Lemckert1, Joshua Reinke2 and Olaf Meynecke2, (1)Griffith University, Griffith School of Engineering, Nathan, QLD, Australia, (2)Griffith University, Griffith School of Engineering, Nathan, Australia
Abstract:
Humpback whales, Megaptera novaeangliae, migrate annually from polar feeding grounds in summer to tropical breeding grounds in winter. Large scale migration patterns are quite well known; however, small scale distribution patterns and relationships with environmental conditions have received less attention. Protection from a range of threats, as well as predicting the effects of climate change, requires knowledge of preferred habitat and the reasons behind the preferences.

East Australian humpback whales travel from the Southern Ocean, along the East Coast of Australia, to the Great Barrier Reef (or further) to breed. The East Australian coastal environment is dominated by the East Australian Current. This current carries warm water poleward from the tropics and is responsible for generating upwelling conditions on the coast and providing the majority of nutrients available for primary production. Sharp temperature changes develop at the border of the warm current and the cooler coastal and upwelled waters.

This study investigates relationships between humpback whale distribution and environmental conditions (including bathymetry and remotely sensed sea surface temperature, as well as their gradients) on the Gold Coast and Hervey Bay, Australia. The Gold Coast is used primarily a migration route, but also provides a rest stop for mothers and calves on the return journey. Hervey Bay is used on the southern (return) migration for resting and socialising. Environmental preferences for these two will provide a comparison of the requirements for different habitat types.

Initial outcomes of the study on the Gold Coast suggest a preference for cooler waters and in areas with a strong temperature gradient. The higher productivity in cooler upwelled water and fronts may provide the whales with a chance of opportunistic feeding, a rare occurrence on their prolonged journey. Following particular hydrodynamic features such as these, which generally run parallel to the shore, may also serve as a tool for navigation.