scholarly journals Effects of Macroalgal Habitats on the Community and Population Structure of Temperate Reef Fishes

2021 ◽  
Author(s):  
◽  
Alejandro Perez Matus
Keyword(s):  
New Zealand ◽  
Spatial Variation ◽  
Fish Species ◽  
Fish Assemblages ◽  
Fish Habitat ◽  
Reef Fishes ◽  
Habitat Associations ◽  
Small Scale ◽  
Brown Macroalgae ◽  
Reef Fish Species

<p>Two families of brown macroalgae that occur in sympatry dominate temperate subtidal rocky coasts: the Laminareales, and the Fucales. Both of these families are habitat-forming species for a wide variety of invertebrates and fishes. Variation in the presence, density, and composition of brown macroalgae can have large influences on the evolution and ecology of associated organisms. Here, using a series of observational and experimental studies, I evaluated the effects of heterogeneity in the composition of brown macroalgal stands at the population and community levels for reef fishes. A central ecological challenge is the description of patterns that occur at local scales, and how these are manifested at larger ones. I conducted further sampling across a set of sites nested within locations over three regions, Juan Fernandez Islands (Chile), Northern New Zealand, and Tasmania (Australia), to evaluate patterns of variation in the diversity and composition of fish assemblages. Specifically, I explored spatial variation in fish assemblages as a function of rocky reef habitats (dominated by brown-macroalgae) and other sources of variation (abiotic and biotic factors) that potentially mediate the relationship between fishes and reef habitats. Analyses suggest that spatial variation in diversity (e.g., species and trophic) may be explained by spatial variation in depth, temperature, and composition of macroalgal habitats. At each location, only 2-3 families dominated the composition of fish assemblages, but species identities varied among locations. In a subsequent study, I assessed the fish-habitat associations from sites within the Juan Fernandez Islands, an isolated eastern Pacific Island that lack large brown macroalgae. I found that, despite the close proximity of these Islands to the South American continent, fish assemblages were mostly composed of endemic representatives from families that dominate the fish assemblages in New Zealand and Australia. Spatial variation in depth and temperature did not contribute to the observed variation in fish abundance. Instead, I found that benthic habitat-forming species (particularly foliose brown macroalgae) appeared to limit the abundance of some reef fishes. These results suggest that a mixture of large-scale (e.g., stochastic recruitment) and small-scale processes (i.e., relating to habitat heterogeneity) influence the diversity, composition and abundance of fish assemblages. Subsequently, I evaluated relationships between reef fishes and macroalgae composition across multiple sites, surveyed repeatedly over four seasons. I found that fishes were associated with different components of heterogeneity in macroalgal habitats, potentially indicating interspecific partitioning of resources that may arise from differential feeding habits and sizesusceptibility to predation. Seasonal variation in the fish-habitat associations was detected, and site differences in macroalgal composition explained significant variation in the local diversity of fishes. Using a series of small-scale lab and field-based manipulative experiments, I determined the demographic and behavioural responses of reefassociated fishes to heterogeneity in the composition of brown macroalgal habitats. I found that (i) different fish species distinguished between monospecific macroalgae stands (macroalgal identity affected the abundance of 7 of 15 reef fish species); (ii) there is within-species variation in the response of fishes to macroalgal composition (suggesting ontogenetic habitat shifts); and (iii) the abundance of 5 of 7 reef fish species, and the overall structure of the local fish assemblage, varied with the composition of mixed-species macroalgal stands. Lastly, I evaluated the potential for fishes to provision demographic feedbacks to macroalgae. Specifically, I conducted a mesocosm experiment to evaluate the effects of fishes on grazing amphipods, and therefore, the potential indirect-effects of fishes on large-brown macroalgae. I found that only one of the two fish species studied reduced grazer abundance. Although the second fish species did not consume grazing amphipods, its presence altered amphipod behaviour to significantly reduce grazing efficiency on the macroalgal-host. This study illustrates how density and trait-mediated indirect interactions can have similar effects on primary producers. Overall, my observational and experimental components of this thesis emphasize the influence of heterogeneity in macroalgal structures on the breadth of habitat use for reef fishes at multiple locations. I found strong behaviourally mediated linkages between the abundance of reef fishes and composition of macroalgal stand. I also provide some evidence that mutualistic relationships may exist between kelp and associated fishes.</p>

scholarly journals Effects of Macroalgal Habitats on the Community and Population Structure of Temperate Reef Fishes

2021 ◽  
Author(s):  
◽  
Alejandro Perez Matus
Keyword(s):  
New Zealand ◽  
Spatial Variation ◽  
Fish Species ◽  
Fish Assemblages ◽  
Fish Habitat ◽  
Reef Fishes ◽  
Habitat Associations ◽  
Small Scale ◽  
Brown Macroalgae ◽  
Reef Fish Species

<p>Two families of brown macroalgae that occur in sympatry dominate temperate subtidal rocky coasts: the Laminareales, and the Fucales. Both of these families are habitat-forming species for a wide variety of invertebrates and fishes. Variation in the presence, density, and composition of brown macroalgae can have large influences on the evolution and ecology of associated organisms. Here, using a series of observational and experimental studies, I evaluated the effects of heterogeneity in the composition of brown macroalgal stands at the population and community levels for reef fishes. A central ecological challenge is the description of patterns that occur at local scales, and how these are manifested at larger ones. I conducted further sampling across a set of sites nested within locations over three regions, Juan Fernandez Islands (Chile), Northern New Zealand, and Tasmania (Australia), to evaluate patterns of variation in the diversity and composition of fish assemblages. Specifically, I explored spatial variation in fish assemblages as a function of rocky reef habitats (dominated by brown-macroalgae) and other sources of variation (abiotic and biotic factors) that potentially mediate the relationship between fishes and reef habitats. Analyses suggest that spatial variation in diversity (e.g., species and trophic) may be explained by spatial variation in depth, temperature, and composition of macroalgal habitats. At each location, only 2-3 families dominated the composition of fish assemblages, but species identities varied among locations. In a subsequent study, I assessed the fish-habitat associations from sites within the Juan Fernandez Islands, an isolated eastern Pacific Island that lack large brown macroalgae. I found that, despite the close proximity of these Islands to the South American continent, fish assemblages were mostly composed of endemic representatives from families that dominate the fish assemblages in New Zealand and Australia. Spatial variation in depth and temperature did not contribute to the observed variation in fish abundance. Instead, I found that benthic habitat-forming species (particularly foliose brown macroalgae) appeared to limit the abundance of some reef fishes. These results suggest that a mixture of large-scale (e.g., stochastic recruitment) and small-scale processes (i.e., relating to habitat heterogeneity) influence the diversity, composition and abundance of fish assemblages. Subsequently, I evaluated relationships between reef fishes and macroalgae composition across multiple sites, surveyed repeatedly over four seasons. I found that fishes were associated with different components of heterogeneity in macroalgal habitats, potentially indicating interspecific partitioning of resources that may arise from differential feeding habits and sizesusceptibility to predation. Seasonal variation in the fish-habitat associations was detected, and site differences in macroalgal composition explained significant variation in the local diversity of fishes. Using a series of small-scale lab and field-based manipulative experiments, I determined the demographic and behavioural responses of reefassociated fishes to heterogeneity in the composition of brown macroalgal habitats. I found that (i) different fish species distinguished between monospecific macroalgae stands (macroalgal identity affected the abundance of 7 of 15 reef fish species); (ii) there is within-species variation in the response of fishes to macroalgal composition (suggesting ontogenetic habitat shifts); and (iii) the abundance of 5 of 7 reef fish species, and the overall structure of the local fish assemblage, varied with the composition of mixed-species macroalgal stands. Lastly, I evaluated the potential for fishes to provision demographic feedbacks to macroalgae. Specifically, I conducted a mesocosm experiment to evaluate the effects of fishes on grazing amphipods, and therefore, the potential indirect-effects of fishes on large-brown macroalgae. I found that only one of the two fish species studied reduced grazer abundance. Although the second fish species did not consume grazing amphipods, its presence altered amphipod behaviour to significantly reduce grazing efficiency on the macroalgal-host. This study illustrates how density and trait-mediated indirect interactions can have similar effects on primary producers. Overall, my observational and experimental components of this thesis emphasize the influence of heterogeneity in macroalgal structures on the breadth of habitat use for reef fishes at multiple locations. I found strong behaviourally mediated linkages between the abundance of reef fishes and composition of macroalgal stand. I also provide some evidence that mutualistic relationships may exist between kelp and associated fishes.</p>

scholarly journals Global tropical reef fish richness could decline by around half if corals are lost

2021 ◽  
Vol 288 (1953) ◽  
pp. 20210274
Author(s):  
Giovanni Strona ◽  
Kevin D. Lafferty ◽  
Simone Fattorini ◽  
Pieter S. A. Beck ◽  
François Guilhaumon ◽  
...  
Keyword(s):  
Species Richness ◽  
Reef Fish ◽  
Fish Species ◽  
Reef Fishes ◽  
Small Scale ◽  
Marine Biodiversity ◽  
Fish Diversity ◽  
Reef Fish Species ◽  
Tropical Reef ◽  
Mass Mortalities

Reef fishes are a treasured part of marine biodiversity, and also provide needed protein for many millions of people. Although most reef fishes might survive projected increases in ocean temperatures, corals are less tolerant. A few fish species strictly depend on corals for food and shelter, suggesting that coral extinctions could lead to some secondary fish extinctions. However, secondary extinctions could extend far beyond those few coral-dependent species. Furthermore, it is yet unknown how such fish declines might vary around the world. Current coral mass mortalities led us to ask how fish communities would respond to coral loss within and across oceans. We mapped 6964 coral-reef-fish species and 119 coral genera, and then regressed reef-fish species richness against coral generic richness at the 1° scale (after controlling for biogeographic factors that drive species diversification). Consistent with small-scale studies, statistical extrapolations suggested that local fish richness across the globe would be around half its current value in a hypothetical world without coral, leading to more areas with low or intermediate fish species richness and fewer fish diversity hotspots.

scholarly journals DNA-based identification of predators of the corallivorous Crown-of-Thorns Starfish (Acanthaster cf. solaris) from fish faeces and gut contents

2020 ◽  
Vol 10 (1) ◽  
Author(s):  
Frederieke J. Kroon ◽  
Carine D. Lefèvre ◽  
Jason R. Doyle ◽  
Frances Patel ◽  
Grant Milton ◽  
...  
Keyword(s):  
Coral Reef ◽  
Reef Fish ◽  
Fish Species ◽  
Coral Reef Fish ◽  
Coral Cover ◽  
Fish Predation ◽  
Reef Fishes ◽  
Positive Control ◽  
Gut Contents ◽  
Reef Fish Species

Abstract The corallivorous Crown-of-Thorns Starfish (CoTS, Acanthaster spp.) has been linked with the widespread loss of scleractinian coral cover on Indo-Pacific reefs during periodic population outbreaks. Here, we re-examine CoTS consumption by coral reef fish species by using new DNA technologies to detect Pacific Crown-of-Thorns Starfish (Acanthaster cf. solaris) in fish faecal and gut content samples. CoTS DNA was detected in samples from 18 different coral reef fish species collected on reefs at various stages of CoTS outbreaks in the Great Barrier Reef Marine Park, nine of which had not been previously reported to feed on CoTS. A comprehensive set of negative and positive control samples confirmed that our collection, processing and analysis procedures were robust, although food web transfer of CoTS DNA cannot be ruled out for some fish species. Our results, combined with the (i) presence of CoTS spines in some samples, (ii) reported predation on CoTS gametes, larvae and settled individuals, and (iii) known diet information for fish species examined, strongly indicate that direct fish predation on CoTS may well be more common than is currently appreciated. We provide recommendations for specific management approaches to enhance predation on CoTS by coral reef fishes, and to support the mitigation of CoTS outbreaks and reverse declines in hard coral cover.

Geographic, anthropogenic, and habitat influences on Great Lakes coastal wetland fish assemblages

2009 ◽  
Vol 66 (8) ◽  
pp. 1328-1342 ◽  
Author(s):  
Anett S. Trebitz ◽  
John C. Brazner ◽  
Nicholas P. Danz ◽  
Mark S. Pearson ◽  
Gregory S. Peterson ◽  
...  
Keyword(s):  
Great Lakes ◽  
Aquatic Vegetation ◽  
Coastal Wetland ◽  
Fish Assemblages ◽  
Fish Habitat ◽  
Water Clarity ◽  
Habitat Associations ◽  
Submerged Vegetation ◽  
Great Lakes Coastal Wetland ◽  
Natural Watersheds

We analyzed data from coastal wetlands across the Laurentian Great Lakes to identify fish assemblage patterns and relationships to habitat, watershed condition, and regional setting. Nonmetric multidimensional scaling (NMDS) ordination of electrofishing catch-per-effort data revealed an overriding geographic and anthropogenic stressor gradient that appeared to structure fish composition via impacts on water clarity and vegetation structure. Wetlands in Lakes Erie and Michigan with agricultural watersheds, turbid water, little submerged vegetation, and a preponderance of generalist, tolerant fishes occupied one end of this gradient, while wetlands in Lake Superior with largely natural watersheds, clear water, abundant submerged vegetation, and diverse fishes occupied the other. Fish composition was also related to wetland morphology, hydrology, exposure, and substrate, but this was only evident within low-disturbance wetlands. Anthropogenic stress appears to homogenize fish composition among wetlands and mask other fish–habitat associations. Because land use is strongly spatially patterned across the Great Lakes and aquatic vegetation is a key habitat element that responds to both biogeography and disturbance, it is difficult to disentangle natural from anthropogenic drivers of coastal wetland fish composition.

scholarly journals Turtle cleaners: reef fishes foraging on epibionts of sea turtles in the tropical Southwestern Atlantic, with a summary of this association type

2010 ◽  
Vol 8 (1) ◽  
pp. 187-192 ◽  
Author(s):  
Cristina Sazima ◽  
Alice Grossman ◽  
Ivan Sazima
Keyword(s):  
Reef Fish ◽  
Fish Species ◽  
Sea Turtles ◽  
Reef Fishes ◽  
Oceanic Islands ◽  
Southwestern Atlantic ◽  
Cleaning Symbiosis ◽  
Turtle Species ◽  
Fernando De Noronha ◽  
Reef Fish Species

In the present study we record several instances of reef fish species foraging on epibionts of sea turtles (cleaning symbiosis) at the oceanic islands of Fernando de Noronha Archipelago and near a shipwreck, both off the coast of Pernambuco State, northeast Brazil. Nine reef fish species and three turtle species involved in cleaning are herein recorded. Besides our records, a summary of the literature on this association type is presented. Postures adopted by turtles during the interaction are related to the habits of associated fishes. Feeding associations between fishes and turtles seem a localized, albeit common, phenomenon.

scholarly journals REEF FISHES BIODIVERSITY IN MARINE SANCTUARY AT MINAHASA UTARA DISTRICT, NORTH SULAWESI

2016 ◽  
Vol 8 (1) ◽  
Author(s):  
Fakhrizal Setiawan ◽  
Sonny Tasidjawa ◽  
Efra Wantah ◽  
Hendri Johanis
Keyword(s):  
Reef Fish ◽  
Fish Species ◽  
Fish Community ◽  
Coral Cover ◽  
Good Condition ◽  
Reef Fishes ◽  
Fish Community Structure ◽  
North Sulawesi ◽  
Reef Fish Community ◽  
Reef Fish Species

<p align="center"><strong><em>ABSTRACT</em></strong></p><p><em>There are </em><em>some marine sanctuaries (DPL) which are managed together by its societies in North Minahasa regency. From 19 villages with DPL, we conducted surveys using point intercept transect in 14 villages both inside and outside DPL in the subdistrict West Likupang and East Likupang, North Minahasa. Result showed that l</em><em>ive coral cover was in general in moderate to excellent conditions both inside and outside DPL. Reef fish recorded in the study areas consisted of 267 reef fish species which categorized into 40 families. Bahoi village had the highest abundance and biomass within the DPL due to a very good condition of coral reef ecosystemn (&gt;75% coral cover) both inside and outside DPL. Biomass of reef fish outside DPL of Bahoi was small but its abundance was the highest. This conditions indicated that the size of reef fish outside of Bahoi DPL was small and this gave a positive perspective to supply fishes into the outside region of Bahoi DPL. Overall, marine sanctuary in North Minahasa contained reef fish community structure in good condition, moderate diversity, relatively labile of evenness index, and low dominance. </em><em>Grouping</em><em> by similarity, reef fish species were generally similar in all locations. The separation of DPL locations produced some different fishes group due to its different location, oceanographic conditions, and characters.</em><em></em></p><p> </p><p><strong><em>Keywords</em></strong><em>: Marine sanctuary, reef fish community, North Minahasa.</em></p>

scholarly journals Effects of hypoxia and ocean acidification on the upper thermal niche boundaries of coral reef fishes

2017 ◽  
Vol 13 (7) ◽  
pp. 20170135 ◽  
Author(s):  
Rasmus Ern ◽  
Jacob L. Johansen ◽  
Jodie L. Rummer ◽  
Andrew J. Esbaugh
Keyword(s):  
Coral Reef ◽  
Ocean Acidification ◽  
Fish Species ◽  
Reef Fishes ◽  
Thermal Range ◽  
Thermal Limits ◽  
Reef Fish Species ◽  
Progressive Hypoxia ◽  
Poleward Shift ◽  
Supply Capacity

Rising ocean temperatures are predicted to cause a poleward shift in the distribution of marine fishes occupying the extent of latitudes tolerable within their thermal range boundaries. A prevailing theory suggests that the upper thermal limits of fishes are constrained by hypoxia and ocean acidification. However, some eurythermal fish species do not conform to this theory, and maintain their upper thermal limits in hypoxia. Here we determine if the same is true for stenothermal species. In three coral reef fish species we tested the effect of hypoxia on upper thermal limits, measured as critical thermal maximum (CT max ). In one of these species we also quantified the effect of hypoxia on oxygen supply capacity, measured as aerobic scope (AS). In this species we also tested the effect of elevated CO 2 (simulated ocean acidification) on the hypoxia sensitivity of CT max . We found that CT max was unaffected by progressive hypoxia down to approximately 35 mmHg, despite a substantial hypoxia-induced reduction in AS. Below approximately 35 mmHg, CT max declined sharply with water oxygen tension ( P w O 2 ). Furthermore, the hypoxia sensitivity of CT max was unaffected by elevated CO 2 . Our findings show that moderate hypoxia and ocean acidification do not constrain the upper thermal limits of these tropical, stenothermal fishes.

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