Beyond the last glacial maximum: island endemism is best explained by long-lasting archipelago configurations

Journal article

Aim: To quantify the influence of past archipelago configuration on present-day insular biodiversity patterns, and to compare the role of long-lasting archipelago configurations over the Pleistocene to configurations of short duration such as at the Last Glacial Maximum (LGM) and the present-day. Location: 53 volcanic oceanic islands from 12 archipelagos worldwide – Azores, Canary Islands, Cook Islands, Galápagos, Gulf of Guinea, Hawaii, Madeira, Mascarenes, Pitcairn, Revillagigedo, Samoa, and Tristan da Cunha. Time period: The last 800 Kyr, representing the nine most recent glacial¬–interglacial cycles. Major taxa studied: Land snails and angiosperms. Methods: Species richness data for land snails and angiosperms were compiled from existing literature and species checklists. We reconstructed archipelago configurations at the following sea-levels: the present-day high interglacial sea-level, the intermediate sea-levels that are representative of the Pleistocene, and the low sea-levels of the LGM. We fitted two alternative linear mixed models for each archipelago configuration on the number of single-island endemic, multiple-island endemic, and native non-endemic species. Model performance was assessed based on the goodness-of-fit of the full model, the variance explained by archipelago configuration, and model parsimony. Results: Single-island endemic richness in both taxonomic groups was best explained by intermediate palaeo-configuration (positively by area change, and negatively by palaeo-connectedness), whereas non-endemic native species richness was poorly explained by palaeo-configuration. Single-island endemic richness was better explained by intermediate archipelago configurations than by the archipelago configurations of the LGM or present-day. Main conclusions: Archipelago configurations at intermediate sea-levels – which are representative of the Pleistocene – have left a stronger imprint on single-island endemic richness patterns on volcanic oceanic islands than extreme archipelago configurations that persisted for only a few thousand years (such as the LGM). In understanding ecological and evolutionary dynamics of insular biota it is essential to consider longer-lasting environmental conditions, rather than extreme situations alone.

Authors: Norder, S; Proios, K; Whittaker, R; Alonso, M; Borges, P

• Publication status: Published
• Peer review status: Peer reviewed
• Publisher: John Wiley & Sons, Inc.
• Journal: Global Ecology and Biogeography
• Volume: 28
• Issue: 2
• Pages: 184-197
• Publication date: 2018-11-21
• Acceptance date: 2018-08-22
• DOI: 10.1111/geb.12835
• EISSN: 1466-8238
• ISSN: 1466-822X
• Keywords: land snails; volcanic oceanic islands; archipelago configuration; biotic interchange; past environmental change; glacial–interglacial cycles; flowering plants; late Quaternary; sea-level oscillations; endemism