Abstract
Understanding colonization of new habitats and ecological successions is key to ecosystem conservation. However, studies on primary successions are scarce for reef-building corals, due to the rarity of newly formed substratum and the long-term monitoring efforts required for their long life cycle and slow growth rate. We analysed data describing the diversity, structure and demography of coral assemblages on lava flows of different ages and coral reefs at Reunion Island, to evaluate the strength and mechanisms of succession, and its agreement to the theoretical models. No significant differences were observed between the two habitats for most structure and demographic descriptors. In contrast, species richness and composition differentiated coral reefs from lava flows, but were not related to the age of the lava flow. We observed a strong dominance of Pocillopora colonies, which underline the opportunistic nature of this taxa, with life-history traits advantageous to dominance on primary and secondary successional stages. Although some results argue in favor of the tolerance model of succession, the sequences of primary successions as theorized in other ecosystems were difficult to observe, which is likely due to the high frequency and intensity of disturbances at Reunion, that likely distort or set back the expected successional sequences.
Highlights
"preparing the ground", and being progressively replaced by by species replacement through time, with pioneer species mid- and late successional species; only after this can later restricted to youngest lava flows species colonize
All lava flow sites are made of basaltic substrate resulting from volcanic eruptions, whereas coral reef sites are located on the reef framework, resulting from the prolific growth of calcium carbonate secreting corals
It was outside the scope of this study, this within-habitat heterogeneity is likely governed by a variety of interacting extrinsic physical and biological drivers, such as the availability of adequate substrate, sediment characteristics, light, water quality, hydrodynamic forces, and biotic interactions[52,67]
Summary
"preparing the ground", and being progressively replaced by by species replacement through time, with pioneer species mid- and late successional species; only after this can later restricted to youngest lava flows species colonize. Demographic processes of the three dominant coral genera, Acropora, Pocillopora and Porites (which represent ~ 96% and ~ 70% of the total coral cover on lava flows and reefs, respectively), were evaluated through the survey of juvenile (colonies ≤ 5 cm in diameter) and adult (mature colonies > 5 cm in diameter) stages during one year.
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