African Penguins (Spheniscus demersus) Can Detect Dimethyl Sulphide, a Prey-Related Odour
Publication Type: |
Journal Article |
Year of Publication: |
2008 |
Authors: |
G.B. Cunningham, V. Strauss, P.G. Ryan |
Publication/Journal: |
Journal of Experimental Biology |
Keywords: |
african penguin, dimethyl sulphide, foraging behavior, foraging behaviour, olfaction, spheniscus demersus |
ISBN: |
0022-0949 1477-9145 |
Abstract:
Although it is well established that certain procellariiform seabirds use odour cues to find prey, it is not clear whether penguins use olfactory cues to forage. It is commonly assumed that penguins lack a sense of smell, yet they are closely related to procellariiforms and forage on similar types of prey in similar areas to many procellariiforms. Such regions are characterized by having high levels of dimethyl sulphide (DMS) a scented compound that many marine animals use to locate foraging grounds. If penguins can smell, DMS may be a biologically relevant scented compound that they may be sensitive to in nature. To test this hypothesis, we investigated whether adult African penguins (Spheniscus demersus) could detect DMS using two separate experiments. We tested wild penguins on Robben Island, South Africa, by deploying μmolar DMS solutions in the colonies, and found that birds slowed down their walking speeds. We also tested captive penguins in a Y-maze. In both cases, our data convincingly demonstrate that African penguins have a functioning sense of smell and are attracted to DMS. The implication of this work is that the detection of changes in the odour landscape (DMS) may assist penguins in identifying productive areas of the ocean for foraging. At-sea studies are needed to investigate this issue further.