Idea of Coral Reefs as Oases in Marine Deserts May Be Mistaken

Coral reefs are likely one of the most common subjects of nature documentaries and hold special interest to the world for their diverse beauty and productivity. Often, they are depicted as a thriving oasis surrounded by a clear blue ocean devoid of nutrients and plankton. While these reef systems certainly do exist, a new study released this week, [June 5th] in Current Biology, shatters the long-held notion and belief that coral reefs are oases in marine deserts, a notion that became known as “Darwin’s Paradox”. In fact, the study shows that, although reefs are indeed among the world’s most productive ecosystems, their existence in nutrient-deprived oceans is the exception rather than the rule and, importantly, not linked to Charles Darwin either.

The narrative of Darwin’s paradox has evolved over the past few decades and has since  become a staple in mainstream media and high-profile publications. “While the narrative is really compelling, it is both factually and historically wrong, which can have important implications for how we manage coral reef ecosystems,” said senior author Dr. Simon Brandl, Assistant Professor at the University of Texas Marine Science Institute. The oases in the desert hypothesis implies that reefs are closed systems that are largely independent from conditions in the surrounding waters. “Our findings suggest that the majority of the world’s coral reefs exist in conditions where surrounding waters may very well be able to sustain much of the fabulous productivity on reefs,” said Brandl. This has large implications, since links between the reefs and surrounding oceans may be modified by a variety of human impacts, including nutrient runoff and global warming effects that may alter nutrient and phytoplankton distributions throughout the tropics . 

To better understand coral reef systems and their global distribution, the authors tested both parts of the alleged paradox: high productivity (i.e. oases) and resource available in surrounding waters (i.e. deserts). To examine productivity, they analyzed the net primary production of coral reefs against a wide range of other ecosystems, demonstrating that the productivity of coral reefs is only matched by coastal wetlands, while most other habitats on Earth, including forests, rivers and lakes, or even coastal upwelling zones, lag far behind. To test the “desert” component, the authors measured both direct food sources of coral reef organisms (i.e., phytoplankton) and their nutrient sources in tropical ocean waters using both satellite data and empirical measurements. Remarkably, they found that most of coral reef system thrive in intermediate or elevated nutrient concentrations and in areas where chlorophyll a (which measures the photosynthesis of phytoplankton) is twice the median range for tropical oceans and double for oligotrophic oceans or “deserts.” In fact, 80% of coral reefs occur in conditions we would generally classify as nutrient-enriched. 

Poignantly, not only the paradox’s meaning, but also its attribution to Darwin is fundamentally wrong. Using a combination of manual review and text mining, the authors show that Darwin’s cited work does not include any mention of coral reef productivity or the role of surrounding oceans, nor would Darwin have had an understanding of ocean conditions deep enough to arrive at the alleged conclusion. Attribution to Darwin was likely made (and persisted) due to his gravity and name recognition, and persisted because a large-scale in depth global review has not been completed until now. This demonstrates that we must not be afraid to rethink and challenge existing knowledge. “With this study, we hope to cast a more quantitative light on coral reefs and what allows them to be so productive,” said Brandl. Their persistence across a broad range of oceanic conditions indicate that linkages between reef animals and their prey are more complex and context-dependent than previously thought. As human impact continues to enrich coastal oceans with nutrients and rising temperatures change plankton communities surrounding reefs,  additional effort should be put into understanding these linkages and energy flow. “Our analysis shows that coral reefs are truly unique in their capacity to produce an abundance of life, but how this occurs depends on where these reefs are located and, unfortunately, how human impact will change local conditions,” reflects Brandl.

Brandl is joined by his colleagues Drs. Renato Moris, lead author at Université Paris Sciences et Lettres, Larissa Patricia-Valerio from Central Queensland University, and Pauline Narvaez and Valeriano Parravicini from Université Paris Sciences et Lettres. The work was supported by RAMS’s Branco Weiss Fellowship Society in Science, PSL Junior Fellowship, and a US National Science Foundation Award to SJB.