KAUST's VP for Research, Donal Bradley, discovered a new species of sea bream near Thuwal, Saudi Arabia, named *Acanthopagrus oconnorae* or Bev Bradley’s Bream. Bradley noticed unique features like a shallow forehead and black gill patch and collaborated with the Red Sea Research Center for genetic analysis. The discovery involved multiple researchers and even the KAUST Fishing Club to collect more specimens. Why it matters: This highlights the biodiversity research happening in the Red Sea and KAUST's role in advancing marine science in the region.
Researchers from KAUST, JCU, and UTS discovered dozens of new coral species on the Great Barrier Reef during a 21-day expedition. The team found that the biodiversity of some coral groups is up to three times higher than previously thought. One hard coral species, Acropora hyacinthus, may actually be five different species. Why it matters: This discovery enhances the understanding of coral diversity and distribution, which is crucial for the conservation and management of Australia's World Heritage site.
KAUST researchers undertook a week-long expedition in May 2017 from Al-Lith, Saudi Arabia to explore the biodiversity of the Red Sea. The expedition involved 35 participants, including KAUST faculty and 10 international marine scientists, and collected over 3,000 specimens. Over 50 species not previously recorded were found during the expedition. Why it matters: Cataloging the Red Sea's biodiversity is crucial given increasing development and provides insights into how marine organisms adapt to extreme conditions, which can inform climate change predictions.
Dr. Gustav Paulay from the Florida Museum of Natural History spoke at KAUST in 2018 about the surprisingly low level of knowledge about marine biodiversity. He noted that only a fraction of the millions of marine species are currently known and described. Paulay highlighted the effectiveness of large-scale biodiversity surveys and the use of technology like mass sampling and DNA analysis to speed up species identification. Why it matters: Understanding and documenting marine biodiversity is crucial for conservation efforts and for leveraging the potential of marine resources in the Red Sea region and beyond.
KAUST and the National Center for Wildlife (NCW) are collaborating on research to protect Saudi Arabia's coastal ecosystems and marine economy from invasive species. They are conducting biodiversity surveys along the Red Sea and Arabian Gulf coasts, having surveyed 34 sites and collected over 10,000 samples. So far, 200 species with potential marine invasive traits have been identified, expanding the national knowledge base of marine life. Why it matters: The partnership aims to develop early detection and monitoring systems, fortifying Saudi Arabia's marine biosecurity efforts and supporting its Vision 2030 blue economy goals.
KAUST researchers have conducted the first measurements of deep-sea corals in the Red Sea. They retrieved specimens of three different species at depths of 300-750 meters and temperatures exceeding 20 degrees Celsius. This discovery challenges the existing understanding that deep-sea corals are exclusive to cold-water environments. Why it matters: The research expands known ecosystem boundaries for deep-sea corals and demonstrates their resilience in warm, nutrient-poor waters, offering new insights into marine biodiversity and adaptation.
A KAUST-led study identified 15 large mammal species that inhabited the Arabian Peninsula in the last 10,000 years, tripling previous estimates. Researchers analyzed thousands of petroglyphs from scientific expeditions, publications, and social media. The study identified two species never known to live in the region before: the greater kudu and the Somali wild ass. Why it matters: The findings provide a benchmark for rewilding efforts and inform decisions on which mammals to reintroduce to the region.
Professor Catherine McFadden of Harvey Mudd College discussed coral reef biodiversity at KAUST, noting that only about 10% of coral reef species have been described. Her research indicates that many Red Sea coral species are unique and not closely related to Indo-Pacific species as previously thought. Genetic analysis has revealed that species identification based on appearance alone is flawed, impacting conservation efforts. Why it matters: Understanding the genetic diversity of Red Sea corals is crucial for effective conservation strategies in the face of climate change and coral bleaching.