Cormorants have negligible seascape-scale impacts on benthic vegetation communities

Great cormorant Phalacrocorax carbo sinensis populations in the Baltic Sea have rapidly expanded since the 1990s, raising concerns about their ecosystem impacts. Nutrient runoff from colonies, as well as cormorant predation on fish, can affect surrounding producer communities. Past studies have foun...

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Veröffentlicht in:	Marine ecology. Progress series (Halstenbek) 2020-11, Vol.654, p.195-207
Hauptverfasser:	Gagnon, Karine, Virtanen, Elina A., Rusanen, Pekka, Nurmi, Marco, Viitasalo, Markku, Jormalainen, Veijo
Format:	Artikel
Sprache:	eng
Schlagworte:	Abundance Algae Aquatic plants Benthos Colonies Community structure Data points Environment models Environmental factors Environmental impact Fish Interspecific relationships Mathematical models Mineral nutrients Nutrient enrichment Nutrients Predation Runoff Sea grasses Seabirds Seaweeds Species Statistical analysis Statistical models Underwater Vegetation
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container_title	Marine ecology. Progress series (Halstenbek)
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creator	Gagnon, Karine Virtanen, Elina A. Rusanen, Pekka Nurmi, Marco Viitasalo, Markku Jormalainen, Veijo
description	Great cormorant Phalacrocorax carbo sinensis populations in the Baltic Sea have rapidly expanded since the 1990s, raising concerns about their ecosystem impacts. Nutrient runoff from colonies, as well as cormorant predation on fish, can affect surrounding producer communities. Past studies have found cormorant impacts on producers in the immediate vicinity of colonies, but the importance of cormorants over a larger spatial scale is unknown, especially compared to other environmental variables. We used an extensive underwater vegetation inventory dataset (~18 000 data points along the Finnish coast) to determine the effects of cormorant colonies on macroalgae and plants. We compared community structure and species abundance/occurrence in near-colony (10 km from a colony) points, and determined the importance of cormorant influence (using an index incorporating colony size and distance from the colony) in near-colony sites. We found no significant differences in community structure between near-colony and control points in most habitats, and adding the cormorant index only infinitesimally improved statistical models after incorporating other environmental factors. However, the abundance of several species did differ; in particular, the foundation species bladderwrack Fucus vesiculosus and eelgrass Zostera marina were either less likely to occur in near-colony points or were negatively correlated with cormorant index, possibly due to the effects of nutrient enrichment from colonies. Our findings confirm that cormorants can have effects on some producer species, but highlight that these effects are negligible when taking into account the scale and magnitude of other bottom-up and top-down processes occurring in the Baltic Sea.
doi_str_mv	10.3354/meps13494
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subjects	Abundance Algae Aquatic plants Benthos Colonies Community structure Data points Environment models Environmental factors Environmental impact Fish Interspecific relationships Mathematical models Mineral nutrients Nutrient enrichment Nutrients Predation Runoff Sea grasses Seabirds Seaweeds Species Statistical analysis Statistical models Underwater Vegetation
title	Cormorants have negligible seascape-scale impacts on benthic vegetation communities
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