Using a global analysis of 223 sites, we show that local stressors paired with climate change kills corals. We offer the optimistic premise that effective local management, alongside global efforts to mitigate climate change, can help coral reefs.
To test the effects of relevant nutrient enrichment on coral growth and filters, we conducted a 5‐week experiment on two Hawaiian coral species with results highlighting how life history traits modify species response to environmental change.
A study investigating the phytoplankton biomass near island and atoll reef ecosystems (termed IME) at Rangiroa Atoll. By studying IME we can better understand changes caused by a warming climate and changing environmental conditions for marine ecosystems.
In the face of challenges faced by core reefs, we developed an mapping approach and deep learning models to better understand the distribution of live corals throughout the main Hawaiian islands.
An exceptionally large, hermatypic colony of Porites sp. has been measured and identified as the biggest colony recorded in American Samoa, and one of the largest documented worldwide.
We explore how an ecosystem model could better integrate economic and social objectives, using the coral reef ecosystem around Hawai`i as a case study.
Here, we investigate the a method of monitoring sponges with results suggesting COI metabarcoding is capable of capturing sponge richness from a complex natural community.
We addressed the effect of spatial structures on tropical coral reefs across seascapes using community data collected around five uninhabited central Pacific oceanic islands.