KAUST is investing in a state-of-the-art 50-meter oceanographic research vessel (RV) to replace the existing Thuwal RV, selecting Glosten for the design. The new RV will feature a reconfigurable deck, advanced positioning system, and weather-hardy traits tailored for the Red Sea's unique conditions. This upgrade aims to enhance KAUST's marine research capabilities, enabling studies in shallow reef and deep-water environments up to 3000 meters. Why it matters: The advanced vessel positions KAUST to lead Red Sea research, supporting Saudi Arabia's environmental and economic initiatives like NEOM and the Red Sea giga-projects.
KAUST and GEOMAR Helmholtz Centre for Ocean Research Kiel collaborated on a research expedition in the Red Sea aboard the R/V Meteor in October. The first cruise (M193 REPLENISH) focused on the Al Wajh coral reefs, while the second (M194 HEXPLORES) aims to discover undiscovered black smoker hydrothermal vent fields. HEXPLORES is led by Dr. Nico Augustin from GEOMAR and Dr. Froukje van der Zwan from KAUST. Why it matters: This collaboration highlights KAUST's role in spearheading Red Sea studies and attracting global experts to the region, furthering our understanding of the Red Sea's unique ecosystem and geological features.
KAUST researchers and German collaborators explored the Red Sea's depths using the RV Meteor, employing ROVs and seismic equipment to map geological and biological features. They examined underwater hot springs, microbial mats, and deep-sea brine pools, discovering hydrothermal vent fields with unique ecosystems. The research, involving multidisciplinary teams, provides insights into the Red Sea's geology, ecosystems, and biodiversity. Why it matters: Studying the Red Sea's unique environment can offer valuable knowledge about young ocean development and novel marine ecosystems, relevant for understanding similar geological formations and biodiversity hotspots in the region.
KAUST has commissioned Freire Shipyards to build the RV Thuwal II, Saudi Arabia's first regional class research vessel, expected to be completed in 2026. The vessel will be 50m long and designed for a 30-year lifespan, with modular labs and green propulsion technologies. It will support marine research in the Red Sea, accommodate 30 people, and aid in emergency response. Why it matters: This investment enhances Saudi Arabia's research capabilities in marine science and positions KAUST as a hub for Red Sea exploration and international scientific collaboration.
KAUST researchers are studying ancient supervolcanoes, like the Toba eruption 75,000 years ago, to understand current and future climate conditions. Volcanic eruptions serve as natural experiments that push the climate system to its limits, helping scientists understand climate's physical mechanisms. Research shows that volcanic eruptions delayed global warming by about 30% starting from 1850. Why it matters: Understanding the impact of volcanic activity on climate change can improve predictions of future global warming, particularly in regions like the Middle East which are strongly affected by volcanic events.
KAUST researchers have made the first direct observations of active hydrothermal vent fields in the Red Sea, specifically on Hatiba Mons. The total active area spans 1.6 km2, the largest reported globally, with vent temperatures around 40 degrees Celsius supporting thriving microbial communities. The observations, confirmed using remotely operated underwater vehicles (ROVs), build on over a decade of data collection. Why it matters: These findings provide insights into the Red Sea's unique biological and mineralogical resources, offering a model to study the evolution of life in extreme environments.
This paper introduces a virtual wheel-terrain interaction model developed and validated for the UAE Rashid rover to enhance simulation accuracy for space rovers. The model incorporates wheel grouser properties, slippage, soil properties, and interaction mechanics, validated via lunar soil simulation. Experiments tested a Grouser-Rashid rover wheel at slip ratios of 0, 0.25, 0.50, and 0.75. Why it matters: This simulation method advances rover design and control, crucial for the UAE's space exploration program and lunar mission success.
KAUST held a workshop on metaorganism research, bringing together experts in microbial ecology and metaorganism evolution. Participants discussed the role of microbiomes in animal and plant health, with a focus on how next-generation sequencing is changing our understanding of microbial diversity. Researchers from KAUST's Red Sea Research Center, Desert Agriculture Initiative Research Laboratory, and Biological and Environmental Science and Engineering Division participated. Why it matters: The workshop highlights KAUST's growing interest in metaorganism research and its potential to address issues of animal and plant health through the lens of microbial ecology.