4.7 Article

The Bourake semi-enclosed lagoon (New Caledonia) - a natural laboratory to study the lifelong adaptation of a coral reef ecosystem to extreme environmental conditions

Journal

BIOGEOSCIENCES
Volume 18, Issue 18, Pages 5117-5140

Publisher

COPERNICUS GESELLSCHAFT MBH
DOI: 10.5194/bg-18-5117-2021

Keywords

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Funding

  1. French grant scheme Fonds Pacifiques [1976]
  2. University of New Caledonia

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Current experimental evidence suggests that coral reefs may disappear within the century if CO2 emissions remain high, but some corals may thrive under extreme conditions such as high temperatures, high pCO2 levels, and low oxygen levels. Unique study sites like volcanic CO2 vents, semi-enclosed lagoons, and mangrove estuaries provide opportunities to explore how reef species could adapt to climate change. Despite extreme environmental conditions, the Bourake lagoon in New Caledonia supports a diverse community of corals, sponges, and macroalgae, possibly due to environmental variability and nutrient imbalances.
According to current experimental evidence, coral reefs could disappear within the century if CO2 emissions remain unabated. However, recent discoveries of diverse and high cover reefs that already live under extreme conditions suggest that some corals might thrive well under hot, high-pCO(2), and deoxygenated seawater. Volcanic CO2 vents, semi-enclosed lagoons, and mangrove estuaries are unique study sites where one or more ecologically relevant parameters for life in the oceans are close to or even worse than currently projected for the year 2100. Although they do not perfectly mimic future conditions, these natural laboratories offer unique opportunities to explore the mechanisms that reef species could use to keep pace with climate change. To achieve this, it is essential to characterize their environment as a whole and accurately consider all possible environmental factors that may differ from what is expected in the future, possibly altering the ecosystem response. This study focuses on the semi-enclosed lagoon of Bourake (New Caledonia, southwest Pacific Ocean) where a healthy reef ecosystem thrives in warm, acidified, and deoxygenated water. We used a multi-scale approach to characterize the main physical-chemical parameters and mapped the benthic community composition (i.e., corals, sponges, and macroalgae). The data revealed that most physical and chemical parameters are regulated by the tide, strongly fluctuate three to four times a day, and are entirely predictable. The seawater pH and dissolved oxygen decrease during falling tide and reach extreme low values at low tide (7.2 pH(T) and 1.9 mg O-2 L-1 at Bourake vs. 7.9 pH(T) and 5.5 mg O-2 L(-1 )at reference reefs). Dissolved oxygen, temperature, and pH fluctuate according to the tide by up to 4.91 mg O-2 L-1, 6.50 degrees C, and 0.69 pH(T) units on a single day. Furthermore, the concentration of most of the chemical parameters was 1 to 5 times higher at the Bourake lagoon, particularly for organic and inorganic carbon and nitrogen but also for some nutrients, notably silicates. Surprisingly, despite extreme environmental conditions and altered seawater chemical composition measured at Bourake, our results reveal a diverse and high cover community of macroalgae, sponges, and corals accounting for 28, 11, and 66 species, respectively. Both environmental variability and nutrient imbalance might contribute to their survival under such extreme environmental conditions. We describe the natural dynamics of the Bourake ecosystem and its relevance as a natural laboratory to investigate the benthic organism's adaptive responses to multiple extreme environmental conditions.

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