# Variation in food web reliance on green and brown energy pathways across ecosystem gradients

**Authors:** James W. Sturges, W. Ryan James, Ryan J. Rezek, Rolando O. Santos, Mack White, Gina A. Badlowski, Shakira Trabelsi, Jordan Massie, Justin S. Lesser, Joel C. Trexler, James Nelson, Jennifer S. Rehage

PMC · DOI: 10.1371/journal.pone.0336521 · 2026-02-04

## TL;DR

This study examines how aquatic food webs in the Florida Everglades rely on green and brown energy pathways across different ecosystems and seasons.

## Contribution

The study uses tri-isotope Bayesian mixing models to quantify seasonal energy pathway contributions in nine interconnected aquatic food webs.

## Key findings

- Green energy channels dominated 12 of 18 seasonal food webs, while detrital channels were dominant in the remaining 6.
- Shark River Slough showed greener upstream and browner downstream food webs, while Taylor Slough showed the opposite pattern.
- Seasonal shifts from green to brown energy dominance occurred in 2 of 9 food webs between dry and wet seasons.

## Abstract

Aquatic food webs typically include highly coupled fast, ‘green’ energy pathways driven by algae or phytoplankton and slower, ‘brown’ energy channels driven by detritus and terrestrial plants. Quantifying how much energy biological communities obtain from each of these pathways is essential, particularly across multiple interconnected food webs over large areas, because energy dynamics are known to influence ecosystem structure and function. Despite their importance, few studies track variance in energy channel contributions to food webs across interconnected habitats during distinct hydrologic seasons. In this study, we used tri-isotope Bayesian mixing models to quantify seasonal contributions of energy pathways to consumers in nine aquatic food webs across two river drainages in the Florida coastal Everglades. Sites span an ecosystem gradient from freshwater marshes to estuarine riverine mangroves and marine seagrass habitats. We found that green energy channels were the dominant pathway for consumers in 12 of 18 seasonal food webs, with the remaining 6 being more reliant on detrital energy channels. There were contrasting spatiotemporal trends between river networks. Shark River Slough food webs showed a clearer pattern of greener marsh food webs upstream switching to browner food webs more heavily reliant on mangrove detritus downstream. In contrast, Taylor Slough food webs showed the opposite pattern of browner marsh food webs upstream switching to greener food webs downriver and in marine seagrass habitats. Seasonal switching of the dominant energy channel was less common than expected, with 2 of 9 food webs shifting from green to brown dominance between the dry and wet season. Seasonal shifts disrupted spatial gradients in energy channel use, but the seasonal dynamics quantified in this single year study require further contextualization. Our findings provide a short but dynamic view of energy pathways in aquatic communities across the Everglades, but continued research will allow us to better predict how species, food webs, and ecological networks may respond to environmental drivers under future global change.

## Full-text entities

- **Diseases:** SRS (MESH:D015827), TS (MESH:D000092222)
- **Chemicals:** fatty acid (MESH:D005227), N (MESH:D009584), hydrochloric acid (MESH:D006851), amino acids (MESH:D000596), DOM (MESH:D000090422), EMA (-), sulfates (MESH:D013431), S (MESH:D013455), P (MESH:D010758), C (MESH:D002244), tin (MESH:D014001), silver (MESH:D012834), carbonates (MESH:D002254), water (MESH:D014867)
- **Species:** Rhizophora mangle (American mangrove, species) [taxon 40031], Cladium jamaicense (species) [taxon 58222], Halodule wrightii (species) [taxon 13078], Myroconger compressus (red eel, species) [taxon 556240], Thalassia testudinum (species) [taxon 55497], crustaceans [taxon 6657], PX clade (clade) [taxon 569578], Gambusia holbrooki (eastern mosquitofish, species) [taxon 37273], Palaemon paludosus (species) [taxon 338208], Chlorophyta (green algae, phylum) [taxon 3041], Syringodium filiforme (species) [taxon 29648]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12871965/full.md

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Source: https://tomesphere.com/paper/PMC12871965