Algal turf structure and composition vary with particulate loads on coral reefs

Algal turfs trap and retain particulates, however, little is known about the relationship between particulate accumulation and taxonomic composition of algal turfs. We investigated how particulate mass related to algal turf structure (length and density) and community composition (taxonomic and func...

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Veröffentlicht in:	Marine pollution bulletin 2022-08, Vol.181, p.113903-113903, Article 113903
Hauptverfasser:	Arjunwadkar, Chaitanya V., Tebbett, Sterling B., Bellwood, David R., Bourne, David G., Smith, Hillary A.
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Sprache:	eng
Schlagworte:	Community composition Diversity Epilithic algal matrix Functional group Sediment Turf algae
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container_title	Marine pollution bulletin
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creator	Arjunwadkar, Chaitanya V. Tebbett, Sterling B. Bellwood, David R. Bourne, David G. Smith, Hillary A.
description	Algal turfs trap and retain particulates, however, little is known about the relationship between particulate accumulation and taxonomic composition of algal turfs. We investigated how particulate mass related to algal turf structure (length and density) and community composition (taxonomic and functional) on two disparate reefs. Particulate mass was positively related to algal turf length. By contrast, the relationship between particulate mass and turf density was more complex and followed a negative parabolic shape; density increased with particulate mass before stabilising and then declining. Community analyses showed taxonomic, but not functional group compositions differed significantly between reefs and with increasing particulate mass. Our results suggest high loads of particulates accumulated in algal turfs are related to a longer, lower density turf structure, typified by filamentous forms such as Cladophora. Changes in algal turf structure and composition could have a variety of bottom-up influences on coral reef ecosystems. [Display omitted] •Algal turfs are a key benthic group on reefs, but their composition is rarely studied.•We surveyed relationships between particulates and turf structure/composition.•Particulate mass versus turf density followed a negative parabolic relationship.•Turf taxonomic composition varied between islands and with increasing particulates.•High particulate mass on reefs is associated with long, sparse, filamentous turfs.
doi_str_mv	10.1016/j.marpolbul.2022.113903
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We investigated how particulate mass related to algal turf structure (length and density) and community composition (taxonomic and functional) on two disparate reefs. Particulate mass was positively related to algal turf length. By contrast, the relationship between particulate mass and turf density was more complex and followed a negative parabolic shape; density increased with particulate mass before stabilising and then declining. Community analyses showed taxonomic, but not functional group compositions differed significantly between reefs and with increasing particulate mass. Our results suggest high loads of particulates accumulated in algal turfs are related to a longer, lower density turf structure, typified by filamentous forms such as Cladophora. Changes in algal turf structure and composition could have a variety of bottom-up influences on coral reef ecosystems. 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We investigated how particulate mass related to algal turf structure (length and density) and community composition (taxonomic and functional) on two disparate reefs. Particulate mass was positively related to algal turf length. By contrast, the relationship between particulate mass and turf density was more complex and followed a negative parabolic shape; density increased with particulate mass before stabilising and then declining. Community analyses showed taxonomic, but not functional group compositions differed significantly between reefs and with increasing particulate mass. Our results suggest high loads of particulates accumulated in algal turfs are related to a longer, lower density turf structure, typified by filamentous forms such as Cladophora. Changes in algal turf structure and composition could have a variety of bottom-up influences on coral reef ecosystems. [Display omitted] •Algal turfs are a key benthic group on reefs, but their composition is rarely studied.•We surveyed relationships between particulates and turf structure/composition.•Particulate mass versus turf density followed a negative parabolic relationship.•Turf taxonomic composition varied between islands and with increasing particulates.•High particulate mass on reefs is associated with long, sparse, filamentous turfs.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.marpolbul.2022.113903</doi><tpages>1</tpages></addata></record>
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subjects	Community composition Diversity Epilithic algal matrix Functional group Sediment Turf algae
title	Algal turf structure and composition vary with particulate loads on coral reefs
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