PT  - JOURNAL ARTICLE
AU  - Rachel S. Meyer
AU  - Teia M. Schweizer
AU  - Wai-Yin Kwan
AU  - Emily Curd
AU  - Adam Wall
AU  - Dean Pentcheff
AU  - Regina Wetzer
AU  - Eric Beraut
AU  - Alison Young
AU  - Rebecca Johnson
AU  - Robert K. Wayne
TI  - Beach environmental DNA fills gaps in photographic biomonitoring to track spatiotemporal community turnover across 82 phyla
AID  - 10.1101/680272
DP  - 2019 Jan 01
TA  - bioRxiv
PG  - 680272
4099  - http://biorxiv.org/content/early/2019/06/25/680272.short
4100  - http://biorxiv.org/content/early/2019/06/25/680272.full
AB  - Environmental DNA (eDNA) metabarcoding is emerging as a biomonitoring tool available to the citizen science community that promises to augment or replace photographic observation. However, eDNA results and photographic observations have rarely been compared to document their individual or combined power. Here, we use eDNA multilocus metabarcoding, a method deployed by the CALeDNA Program, to inventory and evaluate biodiversity variation along the Pillar Point headland near Half Moon Bay, California. We describe variation in presence of 13,000 taxa spanning 82 phyla, analyze spatiotemporal patterns of beta diversity, and identify metacommunities. Inventory and measures of turnover across space and time from eDNA analysis are compared to the same measures from Global Biodiversity Information Facility (GBIF) data, which contain information largely contributed by iNaturalist photographic observations. We find eDNA depicts local signals with high seasonal turnover, especially in prokaryotes. We find a diverse community dense with pathogens and parasites in the embayment, and a State Marine Conservation Area (SMCA) with lower species richness than the rest of the beach peninsula, but with beta diversity signals showing resemblance to adjacent unprotected tidepools. The SMCA differs in observation density, with higher density of protozoans, and animals in Ascidiacea, Echinoidea, and Polycladida. Local contributions to beta diversity are elevated in a section of East-facing beach. GBIF observations are mostly from outside the SMCA, limiting some spatial comparisons. However, our findings suggest eDNA samples can link the SMCA sites to sites with better GBIF inventory, which may be useful for imputing species from one site given observations from another. Results additionally support &amp;gt;3800 largely novel biological interactions. This research, and accompanying interactive website support eDNA as a gap-filling tool to measure biodiversity that is available to community and citizen scientists.