Septic system-groundwater-surface water couplings in waterfront communities contribute to harmful algal blooms in Southwest Florida

Rachel A Brewton; Lisa B Kreiger; Kevin N Tyre; Diana Baladi; Lynn E Wilking; Laura W Herren; Brian E Lapointe

doi:10.1016/j.scitotenv.2022.155319

Septic system-groundwater-surface water couplings in waterfront communities contribute to harmful algal blooms in Southwest Florida

Sci Total Environ. 2022 Sep 1:837:155319. doi: 10.1016/j.scitotenv.2022.155319. Epub 2022 Apr 20.

Authors

Rachel A Brewton¹, Lisa B Kreiger², Kevin N Tyre³, Diana Baladi³, Lynn E Wilking³, Laura W Herren³, Brian E Lapointe³

Affiliations

¹ Harbor Branch Oceanographic Institute, Florida Atlantic University, 5600 US 1, Fort Pierce, FL 34946, USA. Electronic address: brewtonr@fau.edu.
² Lee County Division of Natural Resources, 1500 Monroe St, Fort Myers, FL 33901, USA.
³ Harbor Branch Oceanographic Institute, Florida Atlantic University, 5600 US 1, Fort Pierce, FL 34946, USA.

PMID: 35452738
DOI: 10.1016/j.scitotenv.2022.155319

Abstract

As human population growth has expanded in Southwest Florida, water quality has become degraded with an increased occurrence of harmful algal blooms (HABs). Red tide (Karenia brevis) originating offshore, intensifies in nearshore waters along Florida's Gulf Coast, and blue-green algae (Microcystis spp.) originating in Lake Okeechobee is discharged into the Caloosahatchee River. These HABs could be enhanced by anthropogenic nitrogen (N) and phosphorus (P) from adjacent watersheds. North Fort Myers is a heavily developed, low-lying city on the Caloosahatchee River Estuary serviced by septic systems with documented nutrient and bacterial pollution. To identify sources of pollution within North Fort Myers and determine connections with downstream HABs, this multiyear (2017-2020) study examined septic system- groundwater- surface water couplings through the analysis of water table depth, nutrients (N, P), fecal indicator bacteria (FIB), molecular markers (HF183, GFD, Gull2), chemical tracers (sucralose, pharmaceuticals, herbicides, pesticides), stable isotopes of groundwater (δ¹⁵N-NH₄, δ¹⁵N-NO₃) and particulate organic matter (POM; δ¹⁵N, δ¹³C), and POM elemental composition (C:N:P). POM samples were also collected during K. brevis and Microcystis spp. HAB events. Most (>80%) water table depth measurements were too shallow to support septic system functioning (<1.07 m). High concentrations of NH₄⁺ and NO_x, up to 1094 μM and 482 μM respectively, were found in groundwater and surface water. δ¹⁵N values of groundwater (+4.7‰) were similar to septic effluent (+4.9‰), POM (+4.7‰), and downstream HABs (+4.8 to 6.9‰), indicating a human waste N source. In surface water, FIB were elevated and HF183 was detected, while in groundwater and surface water sucralose, carbamazepine, primidone, and acetaminophen were detected. These data suggest that groundwater and surface water in North Fort Myers are coupled and contaminated by septic system effluent, which is negatively affecting water quality and contributing to the maintenance and intensification of downstream HABs.

Keywords: Eutrophication; Microbial source tracking; Microcystis; Red tide; Stormwater; Sucralose; Urbanization; Water quality.

MeSH terms

Environmental Monitoring
Florida
Groundwater*
Harmful Algal Bloom
Humans
Microcystis*
Particulate Matter / analysis
Water Pollutants, Chemical* / analysis
Water Quality

Substances

Particulate Matter
Water Pollutants, Chemical