Monitoring Lake Okeechobee Harmful Algal Bloom populations and dynamics with a long-duration Autonomous Surface Vehicle
Author:
Xomchuk Veronica Ruiz1, Duncan Scott2, McFarland Malcolm3, Beckler Jordon3
Affiliation:
1. University of Maryland, Baltimore County 2. Navocean Inc. 3. Florida Atlantic University
Abstract
Abstract
This article describes the main findings of a full year of continuous operation of a 2-meter Autonomous Sail and Solar Surface Drone, the Nav2 (Navocean Inc.), as part of a Harmful Algal Bloom (HAB) monitoring program in Lake Okeechobee. The Nav2 was equipped with a set of water quality and atmospheric sensors, that recorded high frequency measurements (\textless 1 min) and transmitted near real-time information to allow reporting through a web portal for assessment and operation responses. Major findings include detection of HABs early in the year through chlorophyll (chl-a) and phycocyanin (phyco) fluorometric measurements, as well as different spatial scales of variability in the algal patches. The 24/7 high resolution monitoring allowed detection of patch motion and discrimination between growth and motion along a transect. Furthermore, the platform can potentially fingerprint specific HAB species based on the relatively fine-scale spatial expression of the phyco to chl-a ratio, which essentially captures the bloom macrostructure (e.g. surface scums versus more uniform sub-surface waves over 0.1 - 1 km scale). Sensor outputs, when converted to concentrations based on calibrated with pure laboratory standards, did not accurately yield true chl-a or phyco values when compared to validation samples, likely due to the high turbidity of the lake. However, routine solid-state validations of fluorometric measurements proved useful for assessing consistency in optical sensors to check for sensor drift (e.g. to due biofouling), which was not significant. Overall this demonstration shows that the Nav2 can uniquely and reliably provide in situ HAB and environmental monitoring capabilities in a large, turbid, shallow lake. We envision that platform as an innovative technology for water resource managers by providing turn-key long-duration baseline environmental data (hands-off waypoint navigation), early warnings of HABs for protecting human health, and for HAB mitigation monitoring.
Publisher
Research Square Platform LLC
Reference61 articles.
1. (2008) {Real-time coastal observing systems for marine ecosystem dynamics and harmful algal blooms: theory, instrumentation and modelling}. xxi, 807 p., xlviii p. of plates, Babin, Marcel and Roesler, Collin S. and Cullen, John J, Oceanographic methodology series 2. Beaver, John R. and Casamatta, Dale A. and East, Therese L. and Havens, Karl E. and Rodusky, Andrew J. and James, R. Thomas and Tausz, Claudia E. and Buccier, Kristen M. (2013) {Extreme weather events influence the phytoplankton community structure in a large lowland subtropical lake (Lake Okeechobee, Florida, USA)}. Hydrobiologia 709(1): 213--226 https://doi.org/10.1007/s10750-013-1451-7, Kluwer Academic Publishers, jun, 15735117 3. Beckler, Jordon S. and Arutunian, Ethan and Moore, Tim and Currier, Bob and Milbrandt, Eric and Duncan, Scott (2019) {Coastal Harmful Algae Bloom Monitoring via a Sustainable, Sail-Powered Mobile Platform}. Frontiers in Marine Science 6: 587 https://doi.org/10.3389/fmars.2019.00587, Frontiers Media S.A. 4. Bernard, S. and Kudela, R. and Velo-Su{\'{a}}rez, L. (2014) {Developing global capabilities for the observation and prediction of harmful algal blooms}. Oceans and Society: Blue Planet 47(January)vela_paper 5. Betts, Anthony and Jones, Paul and Ollis, Stacey and Olson, Steffany and Pernett, Ximena and Sculley, Se{\'{a}}n and Welch, Zach and Zhang, Joyce and Avila, Contributors Christian and Iricanin, Nenad. {Appendix 8A-1 : Lake Okeechobee Watershed Protection Plan 2020 Update}. 2020, 2020 South Florida Environmental Report – Volume I, South Florida Water Management District, West Palm Beach, FL
|
|