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Effect of canopy removal on a rocky shore community metabolism and structure

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Abstract

The effects of the permanent removal of the canopy-forming alga Fucus serratus was studied in terms of both functioning and diversity on a mid–low rocky shore ecosystem in the south-west English Channel (48°N 43.686′, 3°W 59.282′). Ecosystem functioning was examined as net or gross primary productivity (NPP or GPP) and respiration (Resp) measured through CO2 fluxes. Diversity was examined as number and composition of species. Measurements were performed in situ, during emersion times, without altering target assemblages. The experiment was designed with two treatments [control (C) or canopy removed (CR)] and five replicates, and was conducted over an 18-month period (from February 2006 to August 2007) to integrate the seasonal variability. The mean GPP and Resp were severely reduced in CR treatment compared to control throughout the survey. The mean NPP was not affected at first, due to the development of opportunistic green algae, but was drastically reduced after 9 months of experiment. The canopy removal affected neither the number of species nor their distribution among trophic groups, and the algal community was only slightly affected. The abundance and biomass of mobile invertebrates, however, were greatly reduced in the absence of canopy. This indicates an important effect of the dominant alga on the higher trophic levels of the community. At this tidal level, the canopy did not seem to affect the community by dampening the environmental stress but by providing food, habitat or both.

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Acknowledgments

This experiment was conducted in the framework of the MarBEF responsive mode project BIOFUSE, led by T. Crowe and L. Benedetti-Cecchi. Thanks are due to colleagues and students who helped carry out the field work and particularly to R. Michel (the most famous “siliconeur”) and C. Broudin.

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Correspondence to Aline Migné.

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Communicated by F. Bulleri.

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Migné, A., Golléty, C. & Davoult, D. Effect of canopy removal on a rocky shore community metabolism and structure. Mar Biol 162, 449–457 (2015). https://doi.org/10.1007/s00227-014-2592-6

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  • DOI: https://doi.org/10.1007/s00227-014-2592-6

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