Academic literature on the topic 'Endemic reef fish'

The Trindade and Martin Vaz island group (TMVIG) is located at about 1,120 km off the Brazilian coast. Despite its importance, highlighted by the presence of several endemic fish species, the TMVIG lacks detailed information on the structure of fish and benthic assemblages. Presented here is the first quantitative assessment of reef fish and benthic assemblages of the TMVIG in a depth gradient ranging from 5 to 45 m. Additional qualitative information on reef assemblages between 45 and 100 m was obtained using advanced gas diving techniques (TRIMIX) and a remotely operated vehicle (ROV). Similarly to other Brazilian oceanic islands, the TMVIG possesses depauperated fish and benthic assemblages, possibly due to its isolation and small size in comparison to the mainland. Depth was the most important factor affecting the structure of fish assemblages, with the density of most fish species declining with depth. Deep reefs (> 45 m) were characterized by the presence of extensive rhodolith beds and rocky reefs sparsely covered with crustose coralline algae, black coral (Cirripathes sp.) and a few massive or plate-like reef corals. Part-time or obligatory planktivorous fishes (e.g. Cephalopholis furcifer and Clepticus brasiliensis) also dominated deep reefs. Similar characteristics were recorded in mesophotic reef ecosystems across the Western Atlantic. Evidence of overfishing (obtained here and in other recent studies), the presence of four endemic and restricted range fish species, as well as the increase in number of new (and still undescribed) endemic taxa, indicates that the adoption of precautionary conservation measures are urgently needed in order to maintain the fragile and unique ecosystems of the TMVIG.

Endemic species are frequently assumed to have lower genetic diversity than species with large distributions, even if closely related. This assumption is based on research from the terrestrial environment and theoretical evolutionary modelling. We test this assumption in the marine environment by analysing the mitochondrial genetic diversity of 33 coral reef fish species from five families sampled from Pacific Ocean archipelagos. Surprisingly, haplotype and nucleotide diversity did not differ significantly between endemic and widespread species. The probable explanation is that the effective population size of some widespread fishes locally is similar to that of many of the endemics. Connectivity across parts of the distribution of the widespread species is probably low, so widespread species can operate like endemics at the extreme or isolated parts of their range. Mitochondrial genetic diversity of many endemic reef fish species may not either limit range size or be a source of vulnerability.

Endemic marine species at remote oceanic islands provide opportunities to investigate the proposed correlation between range size and dispersal ability. Because these species have restricted geographic ranges, it is assumed that they have limited dispersal ability, which consequently would be reflected in high population genetic structure. To assess this relationship at a small scale and to determine if it may be related to specific reef fish families, here we employ a phylogeographic survey of three endemic Hawaiian damselfishes:Abudefduf abdominalis,Chromis ovalis, andChromis verater. Data from mitochondrial markers cytochromeband control region revealed low but significant genetic structure in all three species. Combining these results with data from a previous study onDascyllus albisellaandStegastes marginatus, all five endemic damselfish species surveyed to date show evidence of genetic structure, in contrast with other widespread reef fish species that lack structure within the Hawaiian Archipelago. Though individual patterns of connectivity varied, these five species showed a trend of limited connectivity between the atolls and low-lying Northwestern Hawaiian Islands versus the montane Main Hawaiian Islands, indicating that, at least for damselfishes, the protected reefs of the uninhabited northwest will not replenish depleted reefs in the populated Main Hawaiian Islands.

This paper presents the first quantitative assessment of the rocky reef ecology of St Helena, a remote island in the central tropical Atlantic. Monitoring data were used to characterise different habitat types found around St Helena. These findings were compared with 9 other locations in the tropical Atlantic, in different biogeographic, oceanic and reef settings, along with the environmental variables known to limit coral reef formation. St Helena’s rocky and boulder reefs had ~50% cover dominated by turf and other filamentous algae, with lower levels of sessile invertebrates (15%) and macroalgae (4%). Both coral and rocky reef comparison locations also showed a dominance of turf and filamentous algae, with higher levels of macroalgae and sessile invertebrates in areas with higher nutrient concentrations (e.g. south-east continental Brazil). Coral growth in St Helena appeared to be limited by cool average sea temperatures of 22°C, which is near, but not below, accepted lower thresholds for reef formation. The main trophic groups of fish found on rocky reefs in St Helena were comparable to other Atlantic rocky and coral reefs, with a dominance of planktivores, mobile invertivores and roving herbivores, with the major difference in trophic structure being driven by more planktivores in oceanic vs. continental versus locations. St Helena’s narrow rocky coastal strip varied little in terms of reef geomorphology, resulting in high homogeneity around the island. However, endemic fish were numerous, demonstrating that isolation has produced a unique tropical Atlantic marine assemblage.

Abstract The accepted geographic range of a species is related to both opportunity and effort in sampling that range. In deepwater ecosystems where human access is limited, the geographic ranges of many marine species are likely to be underestimated. A chance recording from baited cameras deployed on deep uncharted reef revealed an eastern blue devil fish (Paraplesiops bleekeri) at a depth of 51 m and more than 2 km further down the continental shelf slope than previously observed. This is the first verifiable observation of eastern blue devil fish, a protected and endemic southeastern Australian temperate reef species, at depths greater than the typically accepted depth range of 30 m. Knowledge on the ecology of this and many other reef species is indeed often limited to shallow coastal reefs, which are easily accessible by divers and researchers. Suitable habitat for many reef species appears to exist on deeper offshore reefs but is likely being overlooked due to the logistics of conducting research on these often uncharted habitats. On the basis of our observation at a depth of 51 m and observations by recreational fishers catching eastern blue devil fishes on deep offshore reefs, we suggest that the current depth range of eastern blue devil fish is being underestimated at 30 m. We also observed several common reef species well outside of their accepted depth range. Notably, immaculate damsel (Mecaenichthys immaculatus), red morwong (Cheilodactylus fuscus), mado (Atypichthys strigatus), white-ear (Parma microlepis) and silver sweep (Scorpis lineolata) were abundant and recorded in a number of locations at up to a depth of at least 55 m. This underestimation of depth potentially represents a large area of deep offshore reefs and micro-habitats out on the continental shelf that could contribute to the resilience of eastern blue devil fish to extinction risk and contribute to the resilience of many reef species to climate change

The Mardi Gras wrasse, Halichoeres burekae, is a planktivorous fish considered to be endemic to the Gulf of Mexico and recently described. It was previously known only from the Flower Gardens Banks National Marine Sanctuary (USA) and Veracruz, (Mexico). We recorded Halichoeres burekae (initial female [50–70 mm TL] and terminal male [60–90 mm TL] phases) in the Alacranes Reef, a reef platform located off northern Yucatan Peninsula, southern Gulf of Mexico. This fish is relatively common in shallow (2 m) and deep (25 m) waters in the Alacranes Reef, where it forms small (15 individuals) to large (200 individuals) aggregations. This record represents a range extension for H. burekae and indicates a general lack of knowledge about the southern Gulf of Mexico reef fish fauna.

patterns of distribution and abundance of giant sea anemones and anemonefish were compared among coral reefs along the coastline of sinai in the northern red sea. the sea anemones varied widely in abundance between reef areas containing different habitat types. they were rare on steep reef slopes with abundant coral cover (=low-density anemone sites, 0.09–0.68 anemones per 1000 m2 of reef area), but were common at a site containing patch reefs interspersed with sand (=high-density anemone site, 6.00–8.11 anemones per 1000 m2). distributions of the endemic two-band anemonefish (amphiprion bicinctus) varied significantly between the two main host anemone species. at the high-density site, individuals of the sea anemone heteractis crispa either did not contain anemonefish, or were occupied by single juvenile fish as shown in previous studies. at low-density sites h. crispa usually hosted clusters of juvenile anemonefish. in contrast, individuals of the sea anemone entacmaea quadricolor hosted either single adult fish (high-density site) or pairs of breeding adults (low-density sites), frequently in addition to some juvenile fish. mechanisms that prevent anemonefish from reaching adult size and forming breeding pairs in h. crispa may include high fish mortality above a size threshold because this host cannot adequately protect them from predation when they become large, active emigration of fish to e. quadricolor as described in previous reports, and/or environmentally-controlled cessation of fish growth. we conclude that in the northern red sea, individuals of h. crispa potentially serve as nurseries for anemonefish.

Ciguatera is a common but underreported tropical disease caused by the consumption of coral reef fish contaminated by ciguatoxins. Gastrointestinal and neurological symptoms predominate, but may be accompanied by cardiovascular features such as hypotension and sinus bradycardia. Here, we report an unusual case of junctional bradycardia caused by ciguatera in the Caribbean; to our knowledge, the first such report from the region. An increase in global sea temperatures is predicted to lead to the spread of ciguatera beyond traditional endemic areas, and the globalisation of trade in coral reef fish has resulted in sporadic cases occurring in developed countries far away from endemic areas. This case serves as a reminder to consider environmental intoxications such as ciguatera within the differential diagnosis of bradycardias.

Carpenter, Argyrozona argyrozona (Valenciennes, 1830), is an endemic South African sparid fish. They form an important component of the commercial linefishery on the South African east coast, where they are the third most important species landed. Recent investigations revealed that the catch per unit effort (cpue) of this species has declined markedly since the early 1900’s. Despite these declines and the importance of this resource, remarkably little biological information on this species exists for providing management advice. This thesis investigates the life history of carpenter, particularly those aspects that are used for management. This includes an investigation into the stock distribution and identification of nursery areas, and an assessment of age, growth, reproduction and movement patterns. Age and growth was assessed using methods based on both otoliths and mark-recapture. Transverse sagittal sections from the Tsitsikamma National Park showed clear opaque and translucent growth increments. Marginal growth zone analysis and mark-recapture of chemically tagged fish (Oxytetracycline) revealed that these were deposited on an annual basis: opaque in summer and translucent in winter. A. argyrozona were found to be long lived (up to 27 years) and slow growing. Within reader (between counts) and between readers average percent error (APE) was 5.3 and 1.8, respectively, showing that readability of carpenter otoliths is high. Comparison between whole and sectioned otoliths showed that the former significantly under-estimated the age of fish older than 10 years (p<0.01). A large proportion (68%) of the individual growth rates derived from mark-recapture data were below those predicted by the otolith based von Bertalanffy growth model (p<0.01). This was attributed to the negative influence of external tags, as hydroids, frequently occurring on the tags of recaptured fish, were observed to cause severe lesions and in some cases, extensive fin damage. This brings into question the use of mark-recapture studies to calculate growth of some species. The effects of sampling design and sample size on age and growth estimation were assessed. The minimum sample size required to accurately estimate growth and mortality, and the effects of using either random or stratified sampling procedures were tested. Decimal and integer ageing both produced similar estimates of von Bertalanffy growth parameters, growth curves, spawner biomass-per-recruit (SB/R) and fishing mortality (F) estimates. Sampling monthly throughout the year and collecting data in a single large sample provided similar growth curves, von Bertalanffy, F and SB/R estimates. The data showed that estimates based on less than 300 random samples were unreliable. However, accurate growth parameter estimates were achievable with less than 200 samples if the sample was stratified with 10 or more samples per 2 cm size class. An investigation into the reproductive biology of A. argyrozona within the Tsitsikamma National Park revealed that they were serial spawning late gonochorists. The size at 50% maturity (L₅₀) was estimated at 292 and 297 mm FL for females and males, respectively. Both monthly gonadosomatic indices and macroscopically determined ovarian stages strongly suggest that A. argyrozona within the Tsitsikamma National Park spawn in the austral summer between November and April. The presence of post-ovulatory follicles (POF's) confirmed the six month spawning season, while monthly proportions of early (0-6 hour old) POF's showed that spawning frequency was highest (once every 1-2 days) from December to March. Although spawning season was more highly correlated to photoperiod (r = 0.859) than temperature (r = -0.161), the daily proportion of spawning fish was strongly correlated (r = 0.93) to ambient temperature over the range 9-22⁰C. Both spawning frequency and season increased with fish length. As a result of the allometric relationship between annual fecundity and fish mass a 3 kg fish was calculated to produce 5 fold more eggs per kilogram of body weight than a fish of 1 kg. In addition to producing more eggs per unit weight each year, larger fish also produce significantly larger eggs. Adult emigration and larval dispersal of A. argyrozona from the Tsitsikamma National Park (TNP), South Africa, were investigated using mark-recapture data and Acoustic Doppler Current Profiler measurements of currents. Tagging data showed that adult carpenter were mainly resident, with a small proportion (7%) leaving the TNP in both easterly and westerly directions. No relationship was found between fish movement patterns and fish size or time-at-liberty. Current patterns suggest that eggs and larvae spawned within the TNP are mainly transported eastwards towards established nursery grounds; the median estimated distance moved was 299 km (range 42-561 km) in 30 days (time to flexion). Given this pattern of ichthyoplankton dispersal together with the fact that adult carpenter within the TNP display a high degree of residency and that they are much more abundant than in adjacent fishing grounds (cpue = 23 times greater), it appears that the TNP protects a viable carpenter spawner population capable of seeding adjacent fishing grounds. Fishery independent biomass surveys and commercial linefish catch returns were used to elucidate the spatial patterns of A. argyrozona distributed along the South African continental shelf. Two distinct areas of abundance were determined, one on the central and the other on the eastern Agulhas Bank. Tagging studies revealed little exchange between them. Two distinct nursery areas were identified. These data suggest that in each area juvenile A. argyrozona settle and move inshore, and then move offshore as they grow. Otolith readability and growth rates varied between regions, with fish from the Eastern Cape having the lowest average percentage error and the slowest growth rates, readability decreased westward. L₅₀ varied between the central and eastern Agulhas Bank as did mass at length. Based on the distribution of carpenter, variability in otolith readability, mass at length, variation in growth and size at maturity, it is concluded that carpenter exist as two separate stocks, one on the central Agulhas Bank and the other on the eastern Agulhas Bank. SB/R, fecundity-per-recruit (Egg/R) and yield-per-recruit (Y/R) models were used to model both South African carpenter stocks. Owing to the allometric relationship between annual fecundity and individual size, Egg/R ratios were between 40 and 74% of SB/R at equivalent F. Egg/R ratios account for allometric increases in fecundity with size/age, and are therefore regarded as more accurate estimates of reproductive potential, and biological reference points for per-recruit analysis should wherever possible be based on this quantum. It is shown that the current length at first capture (lc) (250 mm TL) and F (at M = 0.1) will reduce Egg/R to 6.41% of the pristine value in the Eastern Cape and between 6.06 and 14.15% on the central Agulhas Bank, indicating that both stocks are heavily over exploited. An increase in lc from 250 to 350 mm TL and a 70% reduction in commercial fishing effort is recommended to attain a target reference point of 40% Egg/RF=0. Bag frequency analysis indicates that a reduction in daily bag limit from 10 to 4 fish.person¹.day⁻¹ would effect an equivalent reduction in recreational F. The trawl bycatch of carpenter is only 3% of the reported line catch, consequently restrictions to this fishery are not recommended.

This thesis focuses on the investigation of reef communities of the Saint Peter and Saint Paul´s Archipelago (SPSPA) across an euphotic/mesophotic depth gradient. Sampling was performed on shallow and mesophotic areas (0 to 90 m depth) using SCUBA and a Remotely Operated Vehicle (ROV). The present work is composed of four chapters: Chapter 1 deals with the quantitative assessment of reef fish communities, which were divided in three distinct communities associated with different depth strata. Clear shifts in habitat use and in size-frequency distributions were recorded for some species. Abundance of black-corals and depth were the most important factors affecting the structure of fish communities, with a clear association of fish with branching black-corals in the mesophotic zone. Chapter 2 presents the first detailed qualitative assessment of benthic communities of the SPSPA. The influence of biotic and abiotic variables shaping the structure of the benthic communities was evaluated. A total of 77 benthic taxa belonging to six major functional groups were recorded. Macroalgae was the richest group (41 infrageneric taxa), with 17 new records for the SPSPA. Turf algae were the most abundant group on both shallow and mesophotic reefs. Two distinct communities were detected: a shallow one composed primarily by the zoanthid Palythoa caribaeorum (Duchassaing and Michelotti, 1861), the fleshy alga Caulerpa racemosa (Forsskål) J. Agardh, crustose coralline algae (CCA) and Bryopsis spp., and another deeper community dominated by CCA, bryozoans and scleractinian corals. Abiotic variables were the most important predictors of benthic community structure. Chapter 3 brings information on abundance, distribution size and associated fauna (epibionts) of black-corals. Although two species of black-corals, Tanacetipathes hirta (Gray, 1857) and T. thamnea (Warner, 1981), are known to occur in the SPSPA, they are undistinguishable underwater. Epibiosis, mainly by zoanthids and entanglement by fishing monofilament were important factors negatively affecting the health of black-coral colonies. Black-corals were intensively used as refuge by reef fish, especially by the endemic oblique butterflyfish Prognathodes obliquus (Chaetodontidae). A single black-coral colony repeatedly visited and monitored for ten years showed a decrease in vitality since the first observation, mainly related to fouling by algal detritus and entanglement by fishing monofilaments. Chapter 4 discusses the ecology (abundance, distribution and habitat preferences) of the fireworm Hermodice carunculata, a major predator on mesophotic zone of SPSPA. A total of 278 individuals of bearded fireworm were observed, with significant difference in abundance between euphotic and mesophotic zones. A direct association of H. carunculata with black-corals (Tanacetipathes spp.), the scleractinian Madracis decactis and depth was found. A final session with concluding remarks wraps up information on the ecology of Mesophotic Reef Ecosystems highlighting their possible importance for the stability and persistence of reef fish and benthic communities of the SPSPA, which are under threat of overfishing and climate change, thus requiring urgent protective measures.
O tema central desta tese é estudar a ecologia de comunidades recifais ao longo do gradiente de profundidade no Arquipélago São Pedro e São Paulo (ASPSP), com ênfase nos Ecossistemas Recifais Mesofóticos (ERMs). As amostragens foram realizadas da superfície até a zona mesofótica (0 a 90 m de profundidade), utilizando SCUBA e Veículos Submersíveis de Operação Remota (VSORs). Esta tese é composta por quatro capítulos. No Capítulo 1 foi realizado uma avaliação quantitativa das comunidades de peixes, as quais formaram três comunidades distintas associadas aos diferentes estratos de profundidade e ao uso de diferentes hábitats de acordo com mudanças ontogenéticas (tamanho do corpo). Corais-negros e profundidade foram os fatores mais importantes na estruturação das comunidades de peixes, com uso intenso dos corais-negros por peixes na zona mesofótica. O Capítulo 2 apresenta a primeira avaliação qualitativa das comunidades bentônicas do ASPSP, além de uma avaliação da influência de variáveis bióticas e abióticas na estruturação das comunidades. Foram registrados 77 táxons bentônicos pertencentes a seis grupos. Macroalgas foi o grupo mais rico (41 táxons), com 17 novos registros para o ASPSP. Algas formadoras de tufos (turf) constituíram o grupo mais abundante em ambos os ambientes, eufótico e mesofótico. Foram observadas duas comunidades distintas: uma superficial composta principalmente pelo zoantídeo Palythoa caribaeorum, a pela alga Caulerpa racemosa carnuda, algas calcárias incrustantes (CCA) e Bryopsis spp, e outra mais profunda dominada por CCA, briozoários e corais escleractíneos. As variáveis abióticas, particularmente profundidade e luz, foram mais importantes na estrutura da comunidade bentônica. O Capítulo 3 traz informações sobre a abundância, distribuição, tamanho e vitalidade de corais-negros. Duas espécies de corais-negros, Tanacetipathes hirta (Gray, 1857) e T. thamnea (Warner, 1981), foram identificadas. Epibiose por zoantídeos e estrangulamento por monofilamentos afetaram negativamente as colônias de coral negro, uma delas monitorada durante dez anos. Esta última apresentou uma diminuição da vitalidade devido principalmente à presença de algas e estrangulamento por monofilamento. Corais-negros formam um grupo-chave na zona mesofótica do ASPSP, sendo intensamente utilizados como hábitat por diversos peixes recifais, principalmente espécies endêmicas (e.g., o peixe-borboleta Prognathodes obliquus). O Capítulo 4 aborda a ecologia do principal predador de invertebrados bentônicos na zona mesofótica do ASPSP, o verme-de-fogo Hermodice carunculata, descrevendo sua abundância e distribuição batimétrica e discutindo seu potencial em impactar as comunidades bentônicas, especialmente os corais escleractínios e os corais-negros na zona mesofótica do ASPSP. Observou-se um total de 278 indivíduos, com diferença significativa na abundância entre as zonas eufótica e mesofótica. Foi encontrada uma associação direta entre H. carunculata e 1) corais-negros (Tanacetipathes spp), 2) o coral escleractíneo Madracis decactis e 3) profundidade. Sugere-se aqui que os ecossistemas mesofóticos são essenciais para a estabilidade para as comunidades recifais eufóticas do ASPSP, tornando urgente a necessidade de novos estudos, principalmente com foco no potencial impacto da pesca e mudanças climáticas.