KAUST Professor Raquel Peixoto will co-lead the first global body under the International Union for Conservation of Nature (IUCN) to safeguard microbial biodiversity. The Microbial Conservation Specialist Group will explore ecological disruption and potential extinction of microbes vital to ecosystems and human health. The group will assess extinction risks, set conservation priorities, and establish criteria for a microorganism Red List. Why it matters: This initiative highlights the growing recognition of the importance of microbial ecosystems and positions KAUST as a leader in integrating microbiology into global biodiversity governance.
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.
Researchers at KAUST and international collaborators have published a framework in Nature Microbiology for using microbiomes to protect wildlife. The framework outlines a path from laboratory research to large-scale applications of microbiome solutions for threatened ecosystems. It addresses ethical considerations and risk assessment for applying environmental probiotics. Why it matters: This framework provides a science-based guide for responsible research and development of microbiome solutions to combat global biodiversity loss, particularly in sensitive marine ecosystems like coral reefs.
A KAUST-led study has revealed a unique microbial ecosystem in the Hatiba Mons hydrothermal vent fields of the Red Sea, first documented in 2023. Using genome-resolved metagenomics, the study reconstructed over 300 microbial genomes from five vent sites. The analysis showed an ecosystem dominated by microbes capable of iron, sulfur, nitrogen, and carbon cycling, unlike most hydrothermal vents that are sulfur- and methane-based. Why it matters: The discovery provides new insights into microbial processes in extreme conditions, ocean resilience, and global carbon cycling, highlighting the interplay between geology and biology in the Red Sea.
KAUST Professor Alexandre Rosado studies extremophiles in extreme environments, including Saudi deserts, volcanoes, hot springs, and mangroves. His team researches the diversity and biotechnological potential of microorganisms in these harsh Saudi ecosystems. The logistical challenges of collecting samples in remote and extreme conditions are significant. Why it matters: This research can reveal new species and processes with biotechnological applications, particularly in bioremediation and understanding life's limits.
KAUST Professor Raquel Peixoto has been awarded the inaugural Rachel Carson Prize for microbiology. The prize recognizes scientists using microbiology to preserve the global ecosystem, understand terrestrial life and ocean biodiversity, and provide solutions for sustainable marine resource use. Peixoto's research at KAUST focuses on microbiome restoration and rehabilitation through probiotics to protect corals threatened by climate change. Why it matters: This award highlights the importance of KAUST's research in marine science and its potential to provide innovative solutions for coral reef conservation in the Red Sea and beyond.
A KAUST Global Ocean Genome workshop convened international scientists to discuss and evaluate the global ocean genome's progress. Participants assessed the representation of microbial communities and their gene pools, explored the functional capacities of the global ocean microbiome, and examined the distribution of key functional genes. KAUST aims to become a repository of global metagenome data, using big-data systems to explore ocean metagenome knowledge. Why it matters: This initiative highlights KAUST's commitment to advancing microbiome research and fostering international collaboration in marine genomics, positioning the university as a key player in understanding and utilizing ocean biodiversity.
KAUST researchers collaborated on a study published in Nature analyzing microbiomes in 170 glacier-fed streams worldwide. The study, led by EPFL, identified a unique microbiome distinct from other cryospheric systems, with almost half the bacteria endemic to specific mountain ranges. KAUST's sequencing efforts helped create a global atlas of these threatened microbiomes. Why it matters: Understanding these microbiomes is crucial for monitoring the impact of climate change on vital freshwater sources originating from glaciers.