SBIR-STTR Award

Harmful Algal Blooms (HABs) pose a significant and increasing risk, both to human health and to the Blue Economy. ‘Omics approaches to early detection promise to help mitigate these risks. We propose to develop HABSSED (HAB Surveillance by Sequencing of Environmental DNA) a portable, reliable, rapid, low-cost pipeline for detecting HABs in the field using 3rd generation sequencing with the Oxford Nanopore MinION device. We propose to demonstrate the efficacy of our approach by sequencing existing samples collected by our collaborators at James Madison University from a NOAA GLERL on Lake Erie. We will sequence eDNA from samples drawn before, during, and after a Microcystis bloom, and estimate the abundance of HAB-associated taxa. We hope to show that this approach will allow for more efficient detection of HABs when compared to conventional approaches. Results from our pilot sequencing runs in Phase I will be used to optimize and streamline the extraction, sequencing, and analysis processes for the development of HABBSED in Phase II. Our team includes expert bioinformaticians, data scientists, MinION sequencing experts, and HAB SMEs, and is uniquely suited to develop and deliver this product to assist NOAA in mitigating this threat to the Blue Economy

Harmful algal blooms (HABs) represent a significant problem for the Blue Economy, adversely affecting drinking water, commercial fisheries, water recreation, and tourism. Early detection of HABs is crucial in mitigating their effects. We propose to continue our development of HABSSED (Harmful Algal Bloom Surveillance by Sequencing of Environmental DNA) into the prototyping phase. The HABSSED pipeline, once completed, will be a novel, rapid, inexpensive surveillance technique for detecting HABs by leveraging abundance of microbial taxa in the environment, measured through eDNA sequencing. The pipeline will be simple enough to democratize the process, such that citizen scientists and labs with limited funding can benefit from it. For our Phase I work, we successfully demonstrated the feasibility of our approach, by sequencing water samples drawn from Lake Erie GLERLs, and showing differential abundance of Microcystis species between bloom-drawn and pre-bloom samples. Our Phase II plans are to develop a prototype pipeline that incorporates the processes developed in Phase I, but refines each step from sampling, through sequencing, analysis, and predictive modelling. When complete, we believe HABSSED will become an essential tool for any Blue Economy stakeholder in areas where HABs are a concern or likely to become a concern in the future.