Abstract
Understanding biodiversity is crucial for protecting unique environments, but acquiring this knowledge is challenging in isolated areas due to limited availability of easy-to-implement biomonitoring tools. To determine optimal sampling strategies in remote regions, environmental DNA and RNA (eDNA and eRNA) sampling workflows were evaluated at 12 sites in three fiords within Fiordland National Park, Aotearoa-New Zealand. For filtration comparison, a modified cruising speed net was used to concentrate eDNA/eRNA onto 20 μm nylon filters, while water from the net’s cod-end was filtered through a 5 μm Smith-Root self-preserving filter using the eDNA Citizen Scientist Sampler. To compare preservation methods, Smith-Root filters were cut in half, with one half preserved in the self-preserving unit and the other in DNA/RNA Shield™ buffer. Biodiversity screening was performed by sequencing the 18S rRNA gene for eukaryotes and two mitochondrial 16S rRNA genes for fish and marine vertebrates. Comparable amplicon sequence variant (ASVs) richness was observed between methods, yet samples preserved with buffer showed higher richness of fish and marine vertebrate taxa and higher PCR amplification success. There was little variation in community composition, except for 16S rRNA targeting fish, where distinct patterns emerged based on preservation methods. Overall, sampling workflows showed similar community composition and alpha diversity across both nucleic acids. These results confirm that enhancing eDNA/eRNA yields for sparse taxa requires consideration of collection and preservation methods. However, abundant taxa biodiversity is captured consistently, allowing for adjustments without compromising robustness. These insights support streamlined eDNA/eRNA sampling, emphasizing adaptive strategies based on targeted taxa.
• Streamlined environmental DNA/RNA sampling workflows are viable for remote environments
• Self-preserving filters employing desiccation efficiently preserve environmental RNA
• Consistent abundant taxa core biodiversity captured across workflows suggest the use of adaptive sampling strategies
• For sporadic taxa, careful consideration of collection and preservation methods is warranted