Adaptive responses in resurgent Lake Victoria cichlids over the past 30 years

• Published in: Evolutionary ecology Vol. 27; no. 2; pp. 253 - 267
• Main Authors: van Rijssel, Jacco C., Witte, Frans
• Format: Journal Article
• Language: English
• Published: Dordrecht Springer Netherlands 01.03.2013; Springer; Springer Nature B.V
• Subjects: Adaptive radiation; Analysis; Animal Ecology; Biomedical and Life Sciences; Cichlidae; diet; Ecology; Environmental changes; Environmental effects; Eutrophication; Evolutionary Biology; Extinct species; eyes; Fish; Fishes; Freshwater; Fringillidae; Genotype & phenotype; head; Lake Victoria; Lakes; Lates niloticus; Life Sciences; Morphology; morphometry; Original Paper; phenotypic plasticity; Plant Sciences; Predation; Rare species; Africa, Victoria L; Lake Victoria; Body shape; Ecomorphology; Functional ecology; Morphological trade off; Morphological adaptations; Nile perch predation
• ISSN: 0269-7653; 1573-8477
• DOI: 10.1007/s10682-012-9596-9

Textbook examples of adaptive radiation like the Galapagos finches and the East-African cichlids form a subject of major interest in evolutionary biology. Many of these species often show rapid morphological changes in response to a perturbed environment. The dramatic ecological changes in Lake Victoria during the past three decades, e.g. Nile perch predation and eutrophication, provide a unique opportunity to study environmental effects on cichlid morphology. Preliminary research has revealed that the lake’s haplochromines tend to be extremely plastic and sensitive to these environmental changes. So far, long-term ecomorphological studies at short-term intervals are extremely rare. In this study, we examined morphological changes over a 30 year period in six haplochromine species. Geometric morphometric analyses at intervals of approximately 3 years revealed adaptive responses. Three out of four resurgent haplochromines had a smaller head surface/caudal peduncle area (HS/CPA) ratio during the upsurge of the predatory Nile perch. During the same period, all four resurgent species had a larger cheek depth and a smaller eye size. The smaller HS/CPA ratio and larger cheek depth are likely to be adaptive responses to a high predation pressure and a diet shift to larger prey. The smaller eye size seems to be the result of a trade off between the eyes and other morphological structures in the smaller head of these species. Interestingly, the direction of the morphological changes was different between the four resurgent cichlid species and two species that became extremely rare or even may have gone extinct. The HS/CPA ratio increased in the extinct species where it decreased in the resurgent species. This study suggests that predation is a major driver of these morphological changes, which may be due to either phenotypic plasticity or adaptive changes.