Chapter 14: Octocoral populations and connectivity in continental Ecuador and Galápagos, Eastern Pacific
Octocorals are important zoobenthic organisms, contributing to structural heterogeneity and species diversity on hardgrounds. Their persistence amidst global coral reef degradation and ocean acidification, has prompted renewed interest in this taxon. Octocoral assemblages at 52 sites in continental...
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| Online Access: | https://nsuworks.nova.edu/occ_facbooks/106 https://doi.org/10.1016/bs.amb.2020.07.002 |
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ftnsoutheastern:oai:nsuworks.nova.edu:occ_facbooks-1107 2024-04-28T08:34:56+00:00 Chapter 14: Octocoral populations and connectivity in continental Ecuador and Galápagos, Eastern Pacific Steiner, Sascha C.C. MartÃnez, Priscilla Rivera, Fernando Johnston, Matthew Riegl, Bernhard M. 2020-01-01T08:00:00Z https://nsuworks.nova.edu/occ_facbooks/106 https://doi.org/10.1016/bs.amb.2020.07.002 unknown NSUWorks https://nsuworks.nova.edu/occ_facbooks/106 doi:10.1016/bs.amb.2020.07.002 Marine & Environmental Sciences Faculty Books and Book Chapters Assemblage pattern Connectivity Ecuador Galápagos Octocorals Population density Marine Biology book_chapter 2020 ftnsoutheastern https://doi.org/10.1016/bs.amb.2020.07.002 2024-04-10T23:43:58Z Octocorals are important zoobenthic organisms, contributing to structural heterogeneity and species diversity on hardgrounds. Their persistence amidst global coral reef degradation and ocean acidification, has prompted renewed interest in this taxon. Octocoral assemblages at 52 sites in continental Ecuador and Galápagos (23 species, 3742 colonies) were examined for composition, size distributions within and among populations, and connectivity patterns based on ocean current models. Species richness varied from 1 to 14 species per site, with the richest sites on the continent. Three assemblage clusters were recognised based on species richness and population size, one with a mix of sites from the mainland and Galápagos (defined by Muricea fruticosa and Leptogorgia alba, Muricea plantaginea and Pacifigorgia darwinii), the second from Santa Elena in southern Ecuador (defined by M. plantaginea and L. alba) and the third from the northernmost sites on the continent, in Esmeraldas (defined by Muricea fruticosa, Heterogorgia hickmani, Leptogorgia manabiensis). Based on biophysical larval flow models with 30, 60, 90-day Pelagic Larval Duration, good connectivity existed along the South American mainland, and from the continent to Galápagos. Connectivity between Galápagos, Cocos, Malpelo and the Colombian mainland may explain the wide distribution of L. alba. Muricea plantaginea had the densest populations with the largest colonies and therewith was an important habitat provider both in continental Ecuador and Galápagos. Continental Ecuador harbours the most speciose populations of octocorals so far recorded in the southern Eastern Tropical Pacific (ETP). Most species were uncommon and possibly vulnerable to local extirpation. The present study may serve as a base line to determine local and regional impacts of future disturbances on ETP octocorals. https://nsuworks.nova.edu/occ_facbooks/1107/thumbnail.jpg Book Part Ocean acidification Nova Southeastern University: NSU Works 411 441 |
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Open Polar |
| collection |
Nova Southeastern University: NSU Works |
| op_collection_id |
ftnsoutheastern |
| language |
unknown |
| topic |
Assemblage pattern Connectivity Ecuador Galápagos Octocorals Population density Marine Biology |
| spellingShingle |
Assemblage pattern Connectivity Ecuador Galápagos Octocorals Population density Marine Biology Steiner, Sascha C.C. MartÃnez, Priscilla Rivera, Fernando Johnston, Matthew Riegl, Bernhard M. Chapter 14: Octocoral populations and connectivity in continental Ecuador and Galápagos, Eastern Pacific |
| topic_facet |
Assemblage pattern Connectivity Ecuador Galápagos Octocorals Population density Marine Biology |
| description |
Octocorals are important zoobenthic organisms, contributing to structural heterogeneity and species diversity on hardgrounds. Their persistence amidst global coral reef degradation and ocean acidification, has prompted renewed interest in this taxon. Octocoral assemblages at 52 sites in continental Ecuador and Galápagos (23 species, 3742 colonies) were examined for composition, size distributions within and among populations, and connectivity patterns based on ocean current models. Species richness varied from 1 to 14 species per site, with the richest sites on the continent. Three assemblage clusters were recognised based on species richness and population size, one with a mix of sites from the mainland and Galápagos (defined by Muricea fruticosa and Leptogorgia alba, Muricea plantaginea and Pacifigorgia darwinii), the second from Santa Elena in southern Ecuador (defined by M. plantaginea and L. alba) and the third from the northernmost sites on the continent, in Esmeraldas (defined by Muricea fruticosa, Heterogorgia hickmani, Leptogorgia manabiensis). Based on biophysical larval flow models with 30, 60, 90-day Pelagic Larval Duration, good connectivity existed along the South American mainland, and from the continent to Galápagos. Connectivity between Galápagos, Cocos, Malpelo and the Colombian mainland may explain the wide distribution of L. alba. Muricea plantaginea had the densest populations with the largest colonies and therewith was an important habitat provider both in continental Ecuador and Galápagos. Continental Ecuador harbours the most speciose populations of octocorals so far recorded in the southern Eastern Tropical Pacific (ETP). Most species were uncommon and possibly vulnerable to local extirpation. The present study may serve as a base line to determine local and regional impacts of future disturbances on ETP octocorals. https://nsuworks.nova.edu/occ_facbooks/1107/thumbnail.jpg |
| format |
Book Part |
| author |
Steiner, Sascha C.C. MartÃnez, Priscilla Rivera, Fernando Johnston, Matthew Riegl, Bernhard M. |
| author_facet |
Steiner, Sascha C.C. MartÃnez, Priscilla Rivera, Fernando Johnston, Matthew Riegl, Bernhard M. |
| author_sort |
Steiner, Sascha C.C. |
| title |
Chapter 14: Octocoral populations and connectivity in continental Ecuador and Galápagos, Eastern Pacific |
| title_short |
Chapter 14: Octocoral populations and connectivity in continental Ecuador and Galápagos, Eastern Pacific |
| title_full |
Chapter 14: Octocoral populations and connectivity in continental Ecuador and Galápagos, Eastern Pacific |
| title_fullStr |
Chapter 14: Octocoral populations and connectivity in continental Ecuador and Galápagos, Eastern Pacific |
| title_full_unstemmed |
Chapter 14: Octocoral populations and connectivity in continental Ecuador and Galápagos, Eastern Pacific |
| title_sort |
chapter 14: octocoral populations and connectivity in continental ecuador and galã¡pagos, eastern pacific |
| publisher |
NSUWorks |
| publishDate |
2020 |
| url |
https://nsuworks.nova.edu/occ_facbooks/106 https://doi.org/10.1016/bs.amb.2020.07.002 |
| genre |
Ocean acidification |
| genre_facet |
Ocean acidification |
| op_source |
Marine & Environmental Sciences Faculty Books and Book Chapters |
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https://nsuworks.nova.edu/occ_facbooks/106 doi:10.1016/bs.amb.2020.07.002 |
| op_doi |
https://doi.org/10.1016/bs.amb.2020.07.002 |
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411 |
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441 |
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