Relative influence of environmental factors on the timing and occurrence of multi-species coral reef fish aggregations

Relative influence of environmental factors on the timing and occurrence of multi-species coral reef fish aggregations

Reef configuration and hydrodynamics were identified as the principle physical drivers behind coral reef fish aggregations on a mid-shelf patch reef in the northern section of the Great Barrier Reef (-16.845°, 146.23°). The study was carried out over a six-year period at a large reef pass on the oce...

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Veröffentlicht in:PloS one 2018-12, Vol.13 (12), p.e0209234-e0209234
Hauptverfasser: Fisher, Eric E, Choat, John H, McCormick, Mark I, Cappo, Mike
Format: Artikel
Sprache:eng
Schlagworte:
Abundance
Animals
Biodiversity
Biology
Biology and Life Sciences
Chemical analysis
Climate change
Coral Reefs
Earth Sciences
Ebb tides
Ecology and Environmental Sciences
Ecosystem
Ecosystem biology
Ecosystems
Eggs
Engineering and Technology
Environment
Environmental aspects
Environmental factors
Female
Fish
Fisheries management
Fishes - classification
Fishes - physiology
Fishing
Floods
Fluid dynamics
Fluid flow
Foraging behavior
Hydrodynamics
Lunar phases
Lunar surface
Male
Multivariate analysis
Oceans and Seas
Periodic variations
Periodicity
Physical Sciences
Population Density
Queensland
Reef fish
Regression analysis
Reproduction
Research and Analysis Methods
Seasonal variations
Seasons
Seawater
Species richness
Species Specificity
Studies
Temperature
Tidal Waves
Tides
Time
Trees
Trends
Underwater
Water analysis
Water temperature
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Choat, John H
McCormick, Mark I
Cappo, Mike
description Reef configuration and hydrodynamics were identified as the principle physical drivers behind coral reef fish aggregations on a mid-shelf patch reef in the northern section of the Great Barrier Reef (-16.845°, 146.23°). The study was carried out over a six-year period at a large reef pass on the oceanic margin of the northern Great Barrier Reef. Over this period (February 2006 -December 2012) tidal state, moon phase and surface seawater temperature were monitored. The timing of sampling was organised to assess variation in physical environment at daily, monthly, seasonal and annual time scales. Over these time scales, temporal patterns of occurrence of 10 species of coral reef fish from 5 families representing 5 defined trophic groups were monitored. The study incorporated 1,357 underwater visual census counts involving 402,370 fish and these estimates were collated with data on tidal state, water temperature, lunar and seasonal periodicity. Aggregated boosted regression trees analysed the univariate responses of fish abundance and species richness to the variation in the physical environment of the reef pass. Flood tides or when water flows from open water through the pass and into the Moore Reef lagoon had 2.3 times as many fish and 1.75 times as many species compared to counts made on ebb tides. Fish abundance was highest in late winter and spring months (Austral calendar), but notably when water temperatures were below the long-term mean of 27°C. Multivariate regression trees and Dufrêne-Legendre indicator predicted 4 out of 10 times the occurrence of all 10 species at any temporal scale ranging from hours to years. Flood tides were the principle driver underlying the occurrence of all 10 species regardless of their trophic classification and produced distinct seasonal assemblages, indicative of fishes aggregating to forage and reproduce.
doi_str_mv 10.1371/journal.pone.0209234
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hydrodynamics were identified as the principle physical drivers behind coral reef fish aggregations on a mid-shelf patch reef in the northern section of the Great Barrier Reef (-16.845°, 146.23°). The study was carried out over a six-year period at a large reef pass on the oceanic margin of the northern Great Barrier Reef. Over this period (February 2006 -December 2012) tidal state, moon phase and surface seawater temperature were monitored. The timing of sampling was organised to assess variation in physical environment at daily, monthly, seasonal and annual time scales. Over these time scales, temporal patterns of occurrence of 10 species of coral reef fish from 5 families representing 5 defined trophic groups were monitored. The study incorporated 1,357 underwater visual census counts involving 402,370 fish and these estimates were collated with data on tidal state, water temperature, lunar and seasonal periodicity. Aggregated boosted regression trees analysed the univariate responses of fish abundance and species richness to the variation in the physical environment of the reef pass. Flood tides or when water flows from open water through the pass and into the Moore Reef lagoon had 2.3 times as many fish and 1.75 times as many species compared to counts made on ebb tides. Fish abundance was highest in late winter and spring months (Austral calendar), but notably when water temperatures were below the long-term mean of 27°C. Multivariate regression trees and Dufrêne-Legendre indicator predicted 4 out of 10 times the occurrence of all 10 species at any temporal scale ranging from hours to years. Flood tides were the principle driver underlying the occurrence of all 10 species regardless of their trophic classification and produced distinct seasonal assemblages, indicative of fishes aggregating to forage and reproduce.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>30576357</pmid><doi>10.1371/journal.pone.0209234</doi><tpages>e0209234</tpages><orcidid>https://orcid.org/0000-0001-7588-2114</orcidid><oa>free_for_read</oa></addata></record>
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subjects Abundance
Animals
Biodiversity
Biology
Biology and Life Sciences
Chemical analysis
Climate change
Coral Reefs
Earth Sciences
Ebb tides
Ecology and Environmental Sciences
Ecosystem
Ecosystem biology
Ecosystems
Eggs
Engineering and Technology
Environment
Environmental aspects
Environmental factors
Female
Fish
Fisheries management
Fishes - classification
Fishes - physiology
Fishing
Floods
Fluid dynamics
Fluid flow
Foraging behavior
Hydrodynamics
Lunar phases
Lunar surface
Male
Multivariate analysis
Oceans and Seas
Periodic variations
Periodicity
Physical Sciences
Population Density
Queensland
Reef fish
Regression analysis
Reproduction
Research and Analysis Methods
Seasonal variations
Seasons
Seawater
Species richness
Species Specificity
Studies
Temperature
Tidal Waves
Tides
Time
Trees
Trends
Underwater
Water analysis
Water temperature
title Relative influence of environmental factors on the timing and occurrence of multi-species coral reef fish aggregations
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