Abstract
The abundance of reef builders, non-builders and the calcium carbonate produced by communities established in Calcification Accretion Units (CAUs) were determined in three Abrolhos Bank shallow reefs during the period from 2012 to 2014. In addition, the seawater temperature, the irradiance, and the amount and composition of the sediments were determined. The inner and outer reef arcs were compared. CAUs located on the inner reef shelf were under the influence of terrigenous sediments. On the outer reefs, the sediments were composed primarily of marine biogenic carbonates. The mean carbonate production in shallow reefs of Abrolhos was 579 ± 98 g m-2 y-1. The builder community was dominated by crustose coralline algae, while the non-builder community was dominated by turf. A marine heat wave was detected during the summer of 2013–2014, and the number of consecutive days with a temperature above or below the summer mean was positively correlated with the turf cover increase. The mean carbonate production of the shallow reefs of Abrolhos Bank was greater than the estimated carbonate production measured for artificial structures on several other shallow reefs of the world. The calcimass was higher than the non-calcareous mass, suggesting that the Abrolhos reefs are still in a positive carbonate production balance. Given that marine heat waves produce an increase of turf cover on the shallow reefs of the Abrolhos, a decrease in the cover represented by reef builders and shifting carbonate production are expected in the near future.
Highlights
Coral reefs are in decline on a global scale [1,2,3,4] and several factors related to this decline stem from anthropogenic activities [5]
The first bleaching event at Abrolhos reefs was recorded during the summer of 1993–1994, when 50 to 90% of the coral colonies were bleached after the occurrence of a marine heat wave associated with an El Niño global episode [19]
Based on the classification of terrigenous and marine sediments, the results showed that the Calcification Accretion Units (CAUs) located at Pedra de Leste (PL), the inner shelf reef, showed an influence of terrigenous sediments composed of 18.3% kaolinite and quartz
Summary
Coral reefs are in decline on a global scale [1,2,3,4] and several factors related to this decline stem from anthropogenic activities [5]. The main threats to coral reef ecosystems are overfishing, contamination from land-based activities, marine pollution, waste water release in coastal areas and increased sedimentation [6,7]. These activities can degrade coral reefs on a local scale, making them less resilient to climate change [8]. The first bleaching event at Abrolhos reefs was recorded during the summer of 1993–1994, when 50 to 90% of the coral colonies were bleached after the occurrence of a marine heat wave associated with an El Niño global episode [19]. Several successive bleaching events occurred [20]
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