Exploring the effects of fishing pressure and upwelling intensity over subtidal kelp forest communities in Central Chile

Understanding the processes that drive kelp forest communities is critical for management and conservation of these productive ecosystems. As a way to advance in this direction, we explored the effects of fishing pressure and upwelling intensity over kelp forest communities along the central coast o...

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Veröffentlicht in:	Ecosphere (Washington, D.C) D.C), 2017-05, Vol.8 (5), p.n/a
Hauptverfasser:	Pérez‐Matus, Alejandro, Carrasco, Sergio A., Gelcich, Stefan, Fernandez, Miriam, Wieters, Evie A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Algae Biomass Coasts Commercial fishing Environmental conditions Fisheries Fishing Foliage Forest conservation Forest ecosystems Forest management gastropod herbivory Leaves Marine conservation overfishing reef fish Tegula tridentata Turf Upwelling
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creator	Pérez‐Matus, Alejandro Carrasco, Sergio A. Gelcich, Stefan Fernandez, Miriam Wieters, Evie A.
description	Understanding the processes that drive kelp forest communities is critical for management and conservation of these productive ecosystems. As a way to advance in this direction, we explored the effects of fishing pressure and upwelling intensity over kelp forest communities along the central coast of Chile. We sampled kelp communities in different upwelling conditions associated with contrasting management regimes, namely Territorial User Rights for Fisheries (TURFs) and open‐access (OA) areas. In TURF areas, we found a 2.6‐fold increase in reef fish biomass, higher diversity of all fish trophic groups, mainly dominated by benthic carnivore feeders, and a 1.8‐fold reduction in the number of kelp grazers. On the other hand, upwelling regimes evidence a 1.6‐fold increase in abundance and recruitment of the dominant kelp (Lessonia trabeculata), and also an increase in biomass of planktivorous reef fishes. We found that grazers were capable of reducing kelp condition (measured as canopy foliage index) in OA areas outside the influence of upwelling. Enclosure experiments in the field revealed the effect of grazers on kelps, reducing kelp growth (i.e., blade elongation) and increasing blade tissue loss. Results provide evidence that TURF areas could be important ancillary conservation instruments in kelp forest ecosystems, if key processes of the subtidal community assemblages (e.g., interactions between grazers and reef fish) are maintained. We conclude that human impact interplays with the influence of upwelling in structuring kelp communities.
doi_str_mv	10.1002/ecs2.1808
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Enclosure experiments in the field revealed the effect of grazers on kelps, reducing kelp growth (i.e., blade elongation) and increasing blade tissue loss. Results provide evidence that TURF areas could be important ancillary conservation instruments in kelp forest ecosystems, if key processes of the subtidal community assemblages (e.g., interactions between grazers and reef fish) are maintained. 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subjects	Algae Biomass Coasts Commercial fishing Environmental conditions Fisheries Fishing Foliage Forest conservation Forest ecosystems Forest management gastropod herbivory Leaves Marine conservation overfishing reef fish Tegula tridentata Turf Upwelling
title	Exploring the effects of fishing pressure and upwelling intensity over subtidal kelp forest communities in Central Chile
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