KAUST Professor Heribert Hirt has been elected to Academia Europaea for his research on plant-microbe relationships. His work focuses on identifying beneficial microbial genes and finding local microbes to enhance plant resilience, especially in desert environments. Hirt's research has demonstrated the importance of microbes for plant health and the detrimental effects of chemical-reliant agriculture. Why it matters: This recognition highlights KAUST's contributions to understanding plant resilience in extreme environments and the importance of microbiome research for sustainable agriculture in the region.
KAUST researchers are contributing new information about desert and mangrove plants to support Saudi Arabia's Green Initiative. They are creating a soil atlas for Saudi Arabia, studying soil profiles and microbial populations in hyperarid regions. The team has also compiled the world’s largest biobank of desert microbes, sequencing each microbe's genome. Why it matters: This research is crucial for ensuring the success and sustainability of large-scale greening efforts in arid environments like Saudi Arabia.
KAUST's Center for Desert Agriculture is holding an international conference on November 3-5, 2014, focusing on desert rhizosphere microbes for sustainable agriculture. Researchers aim to understand how plants survive in extreme conditions by studying microbes that help them tolerate heat, drought, and salt. They will explore genetic engineering and natural microbe usage to improve crop performance under heightened stress conditions. Why it matters: This research is critical for adapting agricultural systems to global warming and meeting future food production challenges in arid regions like the Middle East.
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.
KAUST researchers have discovered that the bacterium Enterobacter sp. SA187, found in desert plants, enhances plant salt tolerance by triggering sulfur metabolism. Salt stress prompts the bacteria to release sulfur metabolites, which then generate the antioxidant glutathione in the plant, protecting it from salt-induced damage. A KAUST startup aims to commercialize SA187 as a probiotic treatment for seeds and crops. Why it matters: This research offers a biotechnological approach to enable saline agriculture, which is crucial for water-scarce regions like Saudi Arabia that rely on energy-intensive desalination.
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.
KAUST's Darwin21 research group, led by Maged Saad and Heribert Hirt, has developed biostimulant products using plant endophyte microbes to enhance crop resilience in arid conditions. Estidamah, the National Research and Development Center for Sustainable Agriculture, validated Darwin21's products, demonstrating increased vegetable yield and quality with reduced water consumption. A cucumber harvest required only two-thirds of the water when the microbes were applied. Why it matters: This validation paves the way for commercial application, contributing to Saudi Vision 2030's goals of water conservation and food security through innovative agri-technologies.
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.