Coastal urbanization leads to remarkable seaweed species loss and community shifts along the SW Atlantic.

Fernando Scherner; Paulo Antunes Horta; Oliveira EC de; José Carlos Simonassi; Jason M. Hall-Spencer; Fungyi Chow; José Marcos C. Nunes; Sonia Maria Barreto Pereira

doi:10.1016/j.marpolbul.2013.09.019

Coastal urbanization leads to remarkable seaweed species loss and community shifts along the SW Atlantic.

Fernando Scherner^*, Paulo Antunes Horta, Oliveira EC de, José Carlos Simonassi, Jason M. Hall-Spencer, Fungyi Chow, José Marcos C. Nunes, Sonia Maria Barreto Pereira

^*Corresponding author for this work

School of Biological and Marine Sciences

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Abstract

Coastal urbanization is rapidly expanding worldwide while its impacts on seaweed communities remain poorly understood. We assessed the impact of urbanization along an extensive latitudinal gradient encompassing three phycogeographical regions in the SW Atlantic. Human population density, number of dwellings, and terrestrial vegetation cover were determined for each survey area and correlated with diversity indices calculated from seaweed percent cover data. Urban areas had significantly lower calcareous algal cover (-38%), and there was significantly less carbonate in the sediment off urban areas than off reference areas. Seaweed richness averaged 26% less in urban areas than in areas with higher vegetation cover. We observed a remarkable decline in Phaeophyceae and a substantial increase of Chlorophyta in urban areas across a wide latitudinal gradient. Our data show that coastal urbanization is causing substantial loss of seaweed biodiversity in the SW Atlantic, and is considerably changing seaweed assemblages.

Original language	English
Pages (from-to)	106-115
Number of pages	0
Journal	Mar Pollut Bull
Volume	76
Issue number	0
DOIs	https://doi.org/10.1016/j.marpolbul.2013.09.019
Publication status	Published - 15 Nov 2013

Keywords

Calcareous algae
Macroalgae
Marine biodiversity loss
Phycogeographycal regions
South-West Atlantic
Urbanization metrics
Atlantic Ocean
Biodiversity
Chlorophyta
Environmental Monitoring
Humans
Phaeophyceae
Seaweed
Urbanization

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.marpolbul.2013.09.019

Scherner et al

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title = "Coastal urbanization leads to remarkable seaweed species loss and community shifts along the SW Atlantic.",

abstract = "Coastal urbanization is rapidly expanding worldwide while its impacts on seaweed communities remain poorly understood. We assessed the impact of urbanization along an extensive latitudinal gradient encompassing three phycogeographical regions in the SW Atlantic. Human population density, number of dwellings, and terrestrial vegetation cover were determined for each survey area and correlated with diversity indices calculated from seaweed percent cover data. Urban areas had significantly lower calcareous algal cover (-38%), and there was significantly less carbonate in the sediment off urban areas than off reference areas. Seaweed richness averaged 26% less in urban areas than in areas with higher vegetation cover. We observed a remarkable decline in Phaeophyceae and a substantial increase of Chlorophyta in urban areas across a wide latitudinal gradient. Our data show that coastal urbanization is causing substantial loss of seaweed biodiversity in the SW Atlantic, and is considerably changing seaweed assemblages.",

keywords = "Calcareous algae, Macroalgae, Marine biodiversity loss, Phycogeographycal regions, South-West Atlantic, Urbanization metrics, Atlantic Ocean, Biodiversity, Chlorophyta, Environmental Monitoring, Humans, Phaeophyceae, Seaweed, Urbanization",

author = "Fernando Scherner and Horta, {Paulo Antunes} and de, {Oliveira EC} and Simonassi, {Jos{\'e} Carlos} and Hall-Spencer, {Jason M.} and Fungyi Chow and Nunes, {Jos{\'e} Marcos C.} and Pereira, {Sonia Maria Barreto}",

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doi = "10.1016/j.marpolbul.2013.09.019",

language = "English",

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T1 - Coastal urbanization leads to remarkable seaweed species loss and community shifts along the SW Atlantic.

AU - Scherner, Fernando

AU - Horta, Paulo Antunes

AU - de, Oliveira EC

AU - Simonassi, José Carlos

AU - Hall-Spencer, Jason M.

AU - Chow, Fungyi

AU - Nunes, José Marcos C.

AU - Pereira, Sonia Maria Barreto

PY - 2013/11/15

Y1 - 2013/11/15

N2 - Coastal urbanization is rapidly expanding worldwide while its impacts on seaweed communities remain poorly understood. We assessed the impact of urbanization along an extensive latitudinal gradient encompassing three phycogeographical regions in the SW Atlantic. Human population density, number of dwellings, and terrestrial vegetation cover were determined for each survey area and correlated with diversity indices calculated from seaweed percent cover data. Urban areas had significantly lower calcareous algal cover (-38%), and there was significantly less carbonate in the sediment off urban areas than off reference areas. Seaweed richness averaged 26% less in urban areas than in areas with higher vegetation cover. We observed a remarkable decline in Phaeophyceae and a substantial increase of Chlorophyta in urban areas across a wide latitudinal gradient. Our data show that coastal urbanization is causing substantial loss of seaweed biodiversity in the SW Atlantic, and is considerably changing seaweed assemblages.

AB - Coastal urbanization is rapidly expanding worldwide while its impacts on seaweed communities remain poorly understood. We assessed the impact of urbanization along an extensive latitudinal gradient encompassing three phycogeographical regions in the SW Atlantic. Human population density, number of dwellings, and terrestrial vegetation cover were determined for each survey area and correlated with diversity indices calculated from seaweed percent cover data. Urban areas had significantly lower calcareous algal cover (-38%), and there was significantly less carbonate in the sediment off urban areas than off reference areas. Seaweed richness averaged 26% less in urban areas than in areas with higher vegetation cover. We observed a remarkable decline in Phaeophyceae and a substantial increase of Chlorophyta in urban areas across a wide latitudinal gradient. Our data show that coastal urbanization is causing substantial loss of seaweed biodiversity in the SW Atlantic, and is considerably changing seaweed assemblages.

KW - Calcareous algae

KW - Macroalgae

KW - Marine biodiversity loss

KW - Phycogeographycal regions

KW - South-West Atlantic

KW - Urbanization metrics

KW - Atlantic Ocean

KW - Biodiversity

KW - Chlorophyta

KW - Environmental Monitoring

KW - Humans

KW - Phaeophyceae

KW - Seaweed

KW - Urbanization

UR - https://pearl.plymouth.ac.uk/context/bms-research/article/1451/viewcontent/Scherner_20et_20al._202013_20Mar_20Poll_20Bull.pdf

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DO - 10.1016/j.marpolbul.2013.09.019

M3 - Article

SN - 1879-3363

VL - 76

SP - 106

EP - 115

JO - Mar Pollut Bull

JF - Mar Pollut Bull

IS - 0

ER -

Coastal urbanization leads to remarkable seaweed species loss and community shifts along the SW Atlantic.

Abstract

Keywords

UN SDGs

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