Abstract
As the global demand for seaweed-derived products drives the expansion of seaweed farming onto shallow coral ecosystems, the effects of farms on fish assemblages remain largely unexplored. Shallow coral reefs provide food and shelter for highly diverse fish assemblages but are increasingly modified by anthropogenic activities. We hypothesized that the introduction of seaweed farms into degraded shallow coral reefs had potential to generate ecological benefits for fish by adding structural complexity and a possible food source. We conducted 210 transects at 14 locations, with sampling stratified across seaweed farms and sites adjacent to and distant from farms. At a seascape scale, locations were classified by their level of exposure to human disturbance. We compared sites where (1) marine protected areas (MPAs) were established, (2) neither MPAs nor blast fishing was present (hence “unprotected”), and (3) blast fishing occurred. We observed 80,186 fish representing 148 species from 38 families. The negative effects of seaweed farms on fish assemblages appeared stronger in the absence of blast fishing and were strongest when MPAs were present, likely reflecting the positive influence of the MPAs on fish within them. Species differentiating fish assemblages with respect to seaweed farming and disturbance were typically small but also included two key target species. The propensity for seaweed farms to increase fish diversity, abundance, and biomass is limited and may reduce MPA benefits. We suggest that careful consideration be given to the placement of seaweed farms relative to MPAs.
Highlights
Seascapes are being transformed on a global scale [1] with human activities creating mosaics of modified habitat
There was a significant interaction between the effects of farming and location, indicating that the specific nature of how farming affected fish assemblages depended on location (Table 2)
Pairwise tests showed significant results only for biomass within levels of disturbance: there was no affect of farming present (FARM) on biomass in locations subject to blast fishing and biomass generally increased with distance in UP and MP locations (Fig 3)
Summary
Seascapes are being transformed on a global scale [1] with human activities creating mosaics of modified habitat. Recent research has documented the connection between the intensity of human activity and subsequent changes in ecosystems, including declines in diversity [8,9,10,11,12], occurrence of invasive species [13,14,15], or habitat homogenization [16,17,18,19]. This suggests that over time, novel ecosystems will become increasingly extensive over large areas of the world [7]
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