Image_1_Environmental Filtering Influences Functional Community Assembly of Epibenthic Communities.pdf

Community assembly theory states that species assemble non-randomly as a result of dispersal limitation, biotic interactions, and environmental filtering. Strong environmental filtering likely leads to local assemblages that are similar in their functional trait composition (high trait convergence)...

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Main Authors:	Lauren Sutton (11671003), Franz J. Mueter (11671006), Bodil A. Bluhm (8801552), Katrin Iken (224624)
Format:	Still Image
Language:	unknown
Published:	2021
Subjects:	Oceanography Marine Biology Marine Geoscience Biological Oceanography Chemical Oceanography Physical Oceanography Marine Engineering community assembly environmental filtering functional traits trait convergence Arctic Chukchi Sea Beaufort Sea Chukchi
Online Access:	https://doi.org/10.3389/fmars.2021.736917.s002

id	ftsmithonian:oai:figshare.com:article/16968661
record_format	openpolar
spelling	ftsmithonian:oai:figshare.com:article/16968661 2023-05-15T15:03:47+02:00 Image_1_Environmental Filtering Influences Functional Community Assembly of Epibenthic Communities.pdf Lauren Sutton (11671003) Franz J. Mueter (11671006) Bodil A. Bluhm (8801552) Katrin Iken (224624) 2021-11-10T04:07:03Z https://doi.org/10.3389/fmars.2021.736917.s002 unknown https://figshare.com/articles/figure/Image_1_Environmental_Filtering_Influences_Functional_Community_Assembly_of_Epibenthic_Communities_pdf/16968661 doi:10.3389/fmars.2021.736917.s002 CC BY 4.0 CC-BY Oceanography Marine Biology Marine Geoscience Biological Oceanography Chemical Oceanography Physical Oceanography Marine Engineering community assembly environmental filtering functional traits trait convergence Arctic Image Figure 2021 ftsmithonian https://doi.org/10.3389/fmars.2021.736917.s002 2021-12-19T22:19:10Z Community assembly theory states that species assemble non-randomly as a result of dispersal limitation, biotic interactions, and environmental filtering. Strong environmental filtering likely leads to local assemblages that are similar in their functional trait composition (high trait convergence) while functional trait composition will be less similar (high trait divergence) under weaker environmental filters. We used two Arctic shelves as case studies to examine the relationship between functional community assembly and environmental filtering using the geographically close but functionally and environmentally dissimilar epibenthic communities on the Chukchi and Beaufort Sea shelves. Environmental drivers were compared to functional trait composition and to trait convergence within each shelf. Functional composition in the Chukchi Sea was more strongly correlated with environmental gradients compared to the Beaufort Sea, as shown by a combination of RLQ and fourth corner analyses and community-weighted mean redundancy analyses. In the Chukchi Sea, epibenthic functional composition, particularly body size, reproductive strategy, and several behavioral traits (i.e., feeding habit, living habit, movement), was most strongly related to gradients in percent mud and temperature while body size and larval development were most strongly related to a depth gradient in the Beaufort Sea. The stronger environmental filter in the Chukchi Sea also supported the hypothesized relationship with higher trait convergence, although this relationship was only evident at one end of the observed environmental gradient. Strong environmental filtering generally provides a challenge for biota and can be a barrier for invading species, a growing concern for the Chukchi Sea shelf communities under warming conditions. Weaker environmental filtering, such as on the Beaufort Sea shelf, generally leads to communities that are more structured by biotic interactions, and possibly representing partitioning of resources among species from intermediate disturbance levels. We provide evidence that environmental filtering can structure functional community composition, providing a baseline of how community function could be affected by stressors such as changes in environmental conditions or increased anthropogenic disturbance. Still Image Arctic Beaufort Sea Chukchi Chukchi Sea Unknown Arctic Chukchi Sea
institution	Open Polar
collection	Unknown
op_collection_id	ftsmithonian
language	unknown
topic	Oceanography Marine Biology Marine Geoscience Biological Oceanography Chemical Oceanography Physical Oceanography Marine Engineering community assembly environmental filtering functional traits trait convergence Arctic
spellingShingle	Oceanography Marine Biology Marine Geoscience Biological Oceanography Chemical Oceanography Physical Oceanography Marine Engineering community assembly environmental filtering functional traits trait convergence Arctic Lauren Sutton (11671003) Franz J. Mueter (11671006) Bodil A. Bluhm (8801552) Katrin Iken (224624) Image_1_Environmental Filtering Influences Functional Community Assembly of Epibenthic Communities.pdf
topic_facet	Oceanography Marine Biology Marine Geoscience Biological Oceanography Chemical Oceanography Physical Oceanography Marine Engineering community assembly environmental filtering functional traits trait convergence Arctic
description	Community assembly theory states that species assemble non-randomly as a result of dispersal limitation, biotic interactions, and environmental filtering. Strong environmental filtering likely leads to local assemblages that are similar in their functional trait composition (high trait convergence) while functional trait composition will be less similar (high trait divergence) under weaker environmental filters. We used two Arctic shelves as case studies to examine the relationship between functional community assembly and environmental filtering using the geographically close but functionally and environmentally dissimilar epibenthic communities on the Chukchi and Beaufort Sea shelves. Environmental drivers were compared to functional trait composition and to trait convergence within each shelf. Functional composition in the Chukchi Sea was more strongly correlated with environmental gradients compared to the Beaufort Sea, as shown by a combination of RLQ and fourth corner analyses and community-weighted mean redundancy analyses. In the Chukchi Sea, epibenthic functional composition, particularly body size, reproductive strategy, and several behavioral traits (i.e., feeding habit, living habit, movement), was most strongly related to gradients in percent mud and temperature while body size and larval development were most strongly related to a depth gradient in the Beaufort Sea. The stronger environmental filter in the Chukchi Sea also supported the hypothesized relationship with higher trait convergence, although this relationship was only evident at one end of the observed environmental gradient. Strong environmental filtering generally provides a challenge for biota and can be a barrier for invading species, a growing concern for the Chukchi Sea shelf communities under warming conditions. Weaker environmental filtering, such as on the Beaufort Sea shelf, generally leads to communities that are more structured by biotic interactions, and possibly representing partitioning of resources among species from intermediate disturbance levels. We provide evidence that environmental filtering can structure functional community composition, providing a baseline of how community function could be affected by stressors such as changes in environmental conditions or increased anthropogenic disturbance.
format	Still Image
author	Lauren Sutton (11671003) Franz J. Mueter (11671006) Bodil A. Bluhm (8801552) Katrin Iken (224624)
author_facet	Lauren Sutton (11671003) Franz J. Mueter (11671006) Bodil A. Bluhm (8801552) Katrin Iken (224624)
author_sort	Lauren Sutton (11671003)
title	Image_1_Environmental Filtering Influences Functional Community Assembly of Epibenthic Communities.pdf
title_short	Image_1_Environmental Filtering Influences Functional Community Assembly of Epibenthic Communities.pdf
title_full	Image_1_Environmental Filtering Influences Functional Community Assembly of Epibenthic Communities.pdf
title_fullStr	Image_1_Environmental Filtering Influences Functional Community Assembly of Epibenthic Communities.pdf
title_full_unstemmed	Image_1_Environmental Filtering Influences Functional Community Assembly of Epibenthic Communities.pdf
title_sort	image_1_environmental filtering influences functional community assembly of epibenthic communities.pdf
publishDate	2021
url	https://doi.org/10.3389/fmars.2021.736917.s002
geographic	Arctic Chukchi Sea
geographic_facet	Arctic Chukchi Sea
genre	Arctic Beaufort Sea Chukchi Chukchi Sea
genre_facet	Arctic Beaufort Sea Chukchi Chukchi Sea
op_relation	https://figshare.com/articles/figure/Image_1_Environmental_Filtering_Influences_Functional_Community_Assembly_of_Epibenthic_Communities_pdf/16968661 doi:10.3389/fmars.2021.736917.s002
op_rights	CC BY 4.0
op_rightsnorm	CC-BY
op_doi	https://doi.org/10.3389/fmars.2021.736917.s002
_version_	1766335636588986368

Image_1_Environmental Filtering Influences Functional Community Assembly of Epibenthic Communities.pdf

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