DSU receives $300,000 grant for microalgae research – Renewable Carbon News
The U.S. Department of Agriculture has granted just under $300,000 to two researchers from DSU for a three-year project focused on exploring the potential of microalgae for energy and cancer treatment applications. Led by Dr. Ali Parsaeimehr, the Principal Investigator (PI) and DSU Postdoctoral Researcher, and Dr. Gulnihal Ozbay, the Co-PI and Professor of Natural Resources and Associate Dean of Cooperative Extension, the project aims to develop a cost-effective method for cultivating engineered microalgae for the production of high-value molecules and bioenergy.
The research encompasses two primary objectives. First, the team aims to convert microalgae into bioenergy and biofuels, exploring their potential as sustainable energy sources. Second, they seek to utilize microalgae to create a more economical alternative for the production of taxol, a crucial anti-cancer pharmaceutical. Dr. Parsaeimehr highlighted the benefits, stating that using microalgae for taxol production could significantly reduce costs and increase the biomass yield in a shorter timeframe.
Dr. Ozbay emphasized the value of the project in terms of student involvement and development. This initiative provides both undergraduate and graduate students with an excellent opportunity to participate in innovative research, honing their molecular and technical skills. The experience gained through this research will make the students more competitive in the job market.
The research is being carried out at the Ag Annex’s One Health Lab, which focuses on environmental, animal, and human health-related studies. The facility’s multidisciplinary approach complements the project’s objectives, allowing for comprehensive and integrated research.
Efforts are underway to generate a substantial impact through the project’s research outcomes. By exploring the potential of microalgae for bioenergy and biofuels, the team aims to contribute to the development of sustainable energy sources that can reduce reliance on traditional fossil fuels. Simultaneously, the utilization of microalgae for taxol production holds immense promise in developing a more cost-effective and efficient method for manufacturing anti-cancer drugs.
The implications extend beyond the boundaries of this research project. Students involved in this study gain valuable experience and training, equipping them with the necessary skills to pursue careers in the field. Moreover, the advancements made in microalgae research could pave the way for novel technological developments in various other industries, positively impacting sectors such as healthcare and renewable energy.
The grant received by DSU recognizes the importance of this research and its potential to catalyze significant advancements in both energy and healthcare sectors. With the involvement of talented researchers and dedicated students, this project has the potential to foster groundbreaking discoveries, furthering our understanding of microalgae and their diverse applications. As the team continues their research, they hope to unlock the full potential of microalgae for a more sustainable and healthier future.
Note: The news article has a word count of 449 words.