Your search keyword '"Tetraodontiformes physiology"' showing total 42 results

1. Water column structure influences long-distance latitudinal migration patterns and habitat use of bumphead sunfish Mola alexandrini in the Pacific Ocean.

Author

Chang CT, Chiang WC, Musyl MK, Popp BN, Lam CH, Lin SJ, Watanabe YY, Ho YH, and Chen JR

Subjects

Animals, Oxygen analysis, Pacific Ocean, Animal Migration, Ecosystem, Tetraodontiformes physiology

Abstract

Satellite-tracking of adult bumphead sunfish, Mola alexandrini, revealed long-distance latitudinal migration patterns covering thousands of kilometers. Horizontal and vertical movements of four bumphead sunfish off Taiwan were recorded with pop-up satellite archival tags in 2019-2020. Two individuals moved northward and traveled to Okinawa Island and Kyushu, Japan and two moved southwards; crossing the equator, to Papua New Guinea and New Caledonia. During daytime, bumphead sunfish descended below the thermocline and ascended to mixed layer depths (MLD) during nighttime. The N-S migrants, however, demonstrated different habitat utilization patterns. Instead of using prevailing currents, the northward movements of sunfish cohorts exhibited extensive use of mesoscale eddies. Fish in anticyclonic eddies usually occupied deeper habitats whereas those in cyclonic eddies used near-surface habitats. On northward excursions, fish spent most of their time in regions with high dissolved oxygen concentrations. Southward movement patterns were associated with major currents and thermal stratification of the water column. In highly stratified regions, fish stayed below the thermocline and frequently ascended to MLD during daytime either to warm muscles or repay oxygen debts. These results for bumphead sunfish present important insights into different habitat use patterns and the ability to undergo long-distance migrations over varying spatial-temporal scales and features., (© 2021. The Author(s).)

Published

2021

2. Sound production, hearing sensitivity, and in-depth study of the sound-producing muscles in the cowfish (Lactoria cornuta).

Author

Parmentier E, Marucco Fuentes E, Millot M, Raick X, and Thiry M

Subjects

Animals, Hearing, Muscles ultrastructure, Tetraodontiformes anatomy & histology, Muscles physiology, Tetraodontiformes physiology, Vocalization, Animal

Abstract

The ability to produce sounds has been reported in various Ostraciidae but not deeply studied. In some Ostracion species, two different sound-producing muscles allow these boxfishes to produce two different kinds of sounds in a sequence. This study investigates sound production in another Indo-Pacific species, the longhorn cowfish Lactoria cornuta that also possesses two pairs of sonic muscles associated with the swim bladder: extrinsic sonic muscles (ESMs) and intrinsic sonic muscles (ISMs). The cowfish produces two kinds of sounds called hums and clicks. Hums are made of trains of low amplitude pulses that last for long periods of time, suggesting that they are produced by fatigue-resistant muscles, whereas clicks correspond to shorter sounds with greater amplitude than the hums, suggesting that they result from more powerful contractions. Ultra-structural differences are found between extrinsic and intrinsic sonic muscles. According to features such as long sarcomeres, long I-bands, a high number of mitochondria, and a proliferation of sarcoplasmic reticulum (SR), ESMs would be able to produce fast, strong, and short contractions corresponding to clicks (the shortest sounds with the greatest amplitude). ISMs have the thinnest cells, the smallest number of myofilaments that have long I-bands, the highest volume of mitochondria, and well-developed SR supporting these muscles; these features should generate fast and prolonged contractions that could correspond to the hums that can be produced over long periods of time. A concluding figure shows clear comparisons of the different fibers that were studied in L. cornuta. This study also compared the call features of each sound with the cowfish's hearing ability and supports L. cornuta was more sensitive to frequencies ranging between at least 100 and 400 Hz with thresholds of 128-143 dB re 1 µPa over this range, meaning that they are sensitive to the frequencies produced by conspecifics., (© 2020 Anatomical Society.)

Published

2021

3. Does conspicuousness scale linearly with colour distance? A test using reef fish.

Author

Santiago C, Green NF, Hamilton N, Endler JA, Osorio DC, Marshall NJ, and Cheney KL

Subjects

Animals, Color Perception, Coral Reefs, Pigmentation, Tetraodontiformes physiology, Animal Scales physiology, Fishes physiology

Abstract

To be effective, animal colour signals must attract attention-and therefore need to be conspicuous. To understand the signal function, it is useful to evaluate their conspicuousness to relevant viewers under various environmental conditions, including when visual scenes are cluttered by objects of varying colour. A widely used metric of colour difference (Δ S ) is based on the receptor noise limited (RNL) model, which was originally proposed to determine when two similar colours appear different from one another, termed the discrimination threshold (or just noticeable difference). Estimates of the perceptual distances between colours that exceed this threshold-termed 'suprathreshold' colour differences-often assume that a colour's conspicuousness scales linearly with colour distance, and that this scale is independent of the direction in colour space. Currently, there is little behavioural evidence to support these assumptions. This study evaluated the relationship between Δ S and conspicuousness in suprathreshold colours using an Ishihara-style test with a coral reef fish, Rhinecanthus aculeatus . As our measure of conspicuousness, we tested whether fish, when presented with two colourful targets, preferred to peck at the one with a greater Δ S - from the average distractor colour. We found the relationship between Δ S and conspicuousness followed-- a sigmoidal function, with high Δ S colours perceived as equally conspicuous. We found that the relationship between Δ S and conspicuousness varied across colour space (i.e. for different hues). The sigmoidal detectability curve was little affected by colour variation in the background or when colour distance was calculated using a model that does not incorporate receptor noise. These results suggest that the RNL model may provide accurate estimates for perceptual distance for small suprathreshold distance colours, even in complex viewing environments, but must be used with caution with perceptual distances exceeding- -10 Δ S .

Published

2020

4. New tetrodotoxin analogs in Brazilian pufferfishes tissues and microbiome.

Author

Tonon LAC, de Azevedo GPR, Monteiro AF, Bernardi DI, Gubiani JR, Ióca LP, Mattsson HK, Moreira APB, Gomes AF, Pires Junior OR, da S G Pedrosa C, Souza LRQ, Rehen SK, Thompson CC, Thompson FL, and Berlinck RGS

Subjects

Animals, Brazil, Chromatography, Liquid, Humans, Tandem Mass Spectrometry, Tetraodontiformes microbiology, Vibrio, Microbiota, Tetraodontiformes physiology, Tetrodotoxin metabolism

Abstract

While tetrodotoxin (TTX) is commonly found in pufferfish tissues, it is unclear if bacterial symbionts isolated from pufferfish tissues can produce TTX. In this investigation, UPLC qTOF-MS/MS analysis of tissue extracts obtained from Sphoeroides spengleri and Canthigaster figuereidoi identified TTX in their composition, indicating their consumption is unsafe. UPLC qTOF-MS/MS analysis coupled with Molecular Networking indicated new TTX analogs (methyl-TTX, TTX-acetate, hydroxypropyl-TTX and glycerol-TTX). Bacterial extracts from sixteen strains revealed a compound with a [M+H] + ion at m/z 320.1088, identical to TTX. However, TTX itself was not detected in these cultures by UPLC-MS/MS. Neurotoxicity of Vibrio A665 purified fraction 2 (with precursor [M+H] + ion at m/z 320.1088) was significant in human neural stem cells (hNSCs), but the Na v blockage activity was not confirmed by the veratridine/ouabain essays, indicating a possible difference in the mechanism of action between the bacterium A665 purified fraction 2 and TTX. Vibrios symbionts of pufferfish point out involving in the production of TTX precursors., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

5. Muscle extract of Arothron immaculatus regulates the blood glucose level and the antioxidant system in high-fat diet and streptozotocin induced diabetic rats.

Author

Kaleshkumar K, Rajaram R, Gayathri N, Sivasudha T, Arun G, Archunan G, Gulyás B, and Padmanabhan P

Subjects

Animals, Diabetes Mellitus, Experimental etiology, Diabetes Mellitus, Experimental pathology, Insulin blood, Male, Rats, Rats, Wistar, Antioxidants pharmacology, Blood Glucose metabolism, Diabetes Mellitus, Experimental drug therapy, Diet, High-Fat adverse effects, Hypoglycemic Agents pharmacology, Muscle, Skeletal chemistry, Tetraodontiformes physiology

Abstract

In the present study pufferfish, Arothron immaculatus muscle methanol extract (AIME) was used to evaluate the antidiabetic activity against the high-fat diet (HFD) in streptozotocin (STZ) induced diabetic rat models. Initially, the In vitro antioxidant activity of the different muscle extract was evaluated which showed that AIME has higher efficiency to scavenge the free radicals. The animal study results revealed that the AIME could decrease the blood glucose level after 14 days of oral treatment and recover the animal from the severe progression of the disease. The LC-ESI/MS analysis of AIME extract revealed the presence of compounds such as docosahexaenoic acid, adrenic acid, docosanol, codeine and metoprolol. Among these compounds, docosahexaenoic acid, adrenic acid and docosanol are reported for its antidiabetic studies. Hence, the muscle is recommended to consume by humans as natural food in order to overcome the development of diabetes. This is the first study on the muscle extract of marine pufferfish which is used as antidiabetic agent to treat the diabetes-induced in the animal model., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

6. Functional morphology of endurance swimming performance and gait transition strategies in balistoid fishes.

Author

George AB and Westneat MW

Subjects

Animals, Biomechanical Phenomena, Phylogeny, Physical Endurance, Species Specificity, Animal Fins anatomy & histology, Gait, Swimming, Tetraodontiformes anatomy & histology, Tetraodontiformes physiology

Abstract

Triggerfishes and filefishes (Balistoidea) use balistiform locomotion to power steady swimming with their dorsal and anal fins, and transition to a gait dominated by body and caudal fin (BCF) kinematics at high speeds. Fin and body shapes are predicted to be strong determinants of swimming performance and gait transitions. The goal of this study was to combine morphometrics and critical swimming tests to explore the relationships between fin and body shapes and swimming performance in a phylogenetic context in order to understand the evolution of balistiform swimming. Among 13 species of balistoid fishes, those with high aspect ratio fins tended to achieve higher critical swimming speeds than fishes with low aspect ratio fins. Species with long, large median fins and wide caudal peduncles used the balistiform gait alone for a larger percentage of their total critical swimming speed than fishes with short, small median fins and narrow caudal peduncles. Although analyses revealed overall positive relationships between median fin aspect ratios and gait transition speeds, fishes on both ends of the aspect ratio spectrum achieved higher swimming speeds using the balistiform gait alone than fishes with median fins of intermediate aspect ratios. Each species is specialized for taking advantage of one gait, with balistiform specialists possessing long, large median fins capable of the large power requirements of high-speed swimming using the median fins alone, while BCF specialists possess short, small median fins, ill-suited for powering high-speed balistiform locomotion, but narrow caudal peduncles capable of efficient caudal fin oscillations to power high-speed locomotion., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2019. Published by The Company of Biologists Ltd.)

Published

2019

7. Energetics and behavior of coral reef fishes during oscillatory swimming in a simulated wave surge.

Author

Marcoux TM and Korsmeyer KE

Subjects

Animals, Coral Reefs, Species Specificity, Energy Metabolism, Oxygen Consumption, Perciformes physiology, Swimming, Tetraodontiformes physiology

Abstract

Oxygen consumption rates were measured for coral reef fishes during swimming in a bidirectional, oscillatory pattern to simulate station-holding in wave-induced, shallow-water flows. For all species examined, increases in wave intensity, as simulated by increases in frequency and amplitude of oscillation, yielded increased metabolic rates and net costs of swimming (NCOS; swimming metabolic rate minus standard metabolic rate). Comparing species with different swimming modes, the caudal fin swimming Kuhlia spp. (Kuhliidae) and simultaneous pectoral-caudal fin swimming Amphiprion ocellaris (Pomacentridae) turned around to face the direction of swimming most of the time, whereas the median-paired fin (MPF) swimmers, the pectoral fin swimming Ctenochaetus strigosus (Acanthuridae) and dorsal-anal fin swimming Sufflamen bursa (Balistidae), more frequently swam in reverse for one half of the oscillation to avoid turning. Contrary to expectations, the body-caudal fin (BCF) swimming Kuhlia spp. had the lowest overall NCOS in the oscillatory swimming regime compared with the MPF swimmers. However, when examining the effect of increasing frequency of oscillation at similar average velocities, Ku hlia spp. showed a 24% increase in NCOS with a 50% increase in direction changes and accelerations. The two strict MPF swimmers had lower increases on average, suggestive of reduced added costs with increasing frequency of direction changes with this swimming mode. Further studies are needed on the costs of unsteady swimming to determine whether these differences can explain the observed prevalence of fishes using the MPF pectoral fin swimming mode in reef habitats exposed to high, wave-surge-induced water flows., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2019. Published by The Company of Biologists Ltd.)

Published

2019

8. An Ishihara-style test of animal colour vision.

Author

Cheney KL, Green NF, Vibert AP, Vorobyev M, Marshall NJ, Osorio DC, and Endler JA

Subjects

Animals, Models, Biological, Retinal Cone Photoreceptor Cells, Color Perception physiology, Color Vision physiology, Sensory Thresholds physiology, Tetraodontiformes physiology

Abstract

Colour vision mediates ecologically relevant tasks for many animals, such as mate choice, foraging and predator avoidance. However, our understanding of animal colour perception is largely derived from human psychophysics, and behavioural tests of non-human animals are required to understand how colour signals are perceived. Here, we introduce a novel test of colour vision in animals inspired by the Ishihara colour charts, which are widely used to identify human colour deficiencies. In our method, distractor dots have a fixed chromaticity (hue and saturation) but vary in luminance. Animals can be trained to find single target dots that differ from distractor dots in chromaticity. We provide MATLAB code for creating these stimuli, which can be modified for use with different animals. We demonstrate the success of this method with triggerfish, Rhinecanthus aculeatus , which quickly learnt to select target dots that differed from distractor dots, and highlight behavioural parameters that can be measured, including success of finding the target dot, time to detection and error rate. We calculated discrimination thresholds by testing whether target colours that were of increasing colour distances (Δ S ) from distractor dots could be detected, and calculated discrimination thresholds in different directions of colour space. At least for some colours, thresholds indicated better discrimination than expected from the receptor noise limited (RNL) model assuming 5% Weber fraction for the long-wavelength cone. This methodology could be used with other animals to address questions such as luminance thresholds, sensory bias, effects of sensory noise, colour categorization and saliency., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2019. Published by The Company of Biologists Ltd.)

Published

2019

9. Including planocerid flatworms in the diet effectively toxifies the pufferfish, Takifugu niphobles.

Author

Itoi S, Ueda H, Yamada R, Takei M, Sato T, Oshikiri S, Wajima Y, Ogata R, Oyama H, Shitto T, Okuhara K, Tsunashima T, Sawayama E, and Sugita H

Subjects

Animals, Polymerase Chain Reaction, RNA, Ribosomal, 28S genetics, Tetrodotoxin toxicity, Platyhelminths chemistry, Takifugu physiology, Tetraodontiformes physiology

Abstract

Beginning with the larval stages, marine pufferfish such as Takifugu niphobles contain tetrodotoxin (TTX), an extremely potent neurotoxin. Although highly concentrated TTX has been detected in adults and juveniles of these fish, the source of the toxin has remained unclear. Here we show that TTX in the flatworm Planocera multitentaculata contributes to the toxification of the pufferfish throughout the life cycle of the flatworm. A species-specific PCR method was developed for the flatworm, and the specific DNA fragment was detected in the digesta of wild pufferfish adults. Predation experiments showed that flatworm larvae were eaten by the pufferfish juveniles, and that the two-day postprandial TTX content in these pufferfish was 20-50 μg/g. Predation experiments additionally showed flatworm adults were also eaten by pufferfish young, and after two days of feeding, TTX accumulated in the skin, liver and intestine of the pufferfish.

Published

2018

10. Simple rules for construction of a geometric nest structure by pufferfish.

Author

Mizuuchi R, Kawase H, Shin H, Iwai D, and Kondo S

Subjects

Animals, Female, Male, Reproduction physiology, Sexual Behavior physiology, Tetraodontiformes physiology

Abstract

A small (~10 cm) male pufferfish (Torquigener albomaculosus) builds a large (~2 m) sandy nest structure, resembling a mysterious crop circle, to attract females. The circle consists of radially arranged deep ditches in the outer ring region, and maze-like shallow ditches in the central region. The configuration is geometrical. Here, we examined the process of the outer ring construction, and extracted the 'rules' followed by the pufferfish. During construction, the pufferfish repeatedly excavates ditches from the outside in. Generally, excavation starts at lower positions, and occurs in straight lines. The entry position, the length, and the direction of each ditch were recorded. A simulation program based on these data successfully reproduced the circle pattern, suggesting that the complex circle structure can be created by the repetition of simple actions by the pufferfish.

Published

2018

11. Toxicity and taste: unequal chemical defences in a mimicry ring.

Author

Winters AE, Wilson NG, van den Berg CP, How MJ, Endler JA, Marshall NJ, White AM, Garson MJ, and Cheney KL

Subjects

Animals, Australia, Color, Phylogeny, Taste, Biological Evolution, Biological Mimicry, Food Chain, Gastropoda physiology, Palaemonidae physiology, Tetraodontiformes physiology

Abstract

Mimicry of warning signals is common, and can be mutualistic when mimetic species harbour equal levels of defence (Müllerian), or parasitic when mimics are undefended but still gain protection from their resemblance to the model (Batesian). However, whether chemically defended mimics should be similar in terms of toxicity (i.e. causing damage to the consumer) and/or unpalatability (i.e. distasteful to consumer) is unclear and in many studies remains undifferentiated. In this study, we investigated the evolution of visual signals and chemical defences in a putative mimicry ring of nudibranch molluscs. First, we demonstrated that the appearance of a group of red spotted nudibranchs molluscs was similar from the perspective of potential fish predators using visual modelling and pattern analysis. Second, using phylogenetic reconstruction, we demonstrated that this colour pattern has evolved multiple times in distantly related individuals. Third, we showed that these nudibranchs contained different chemical profiles used for defensive purposes. Finally, we demonstrated that although levels of distastefulness towards Palaemon shrimp remained relatively constant between species, toxicity levels towards brine shrimp varied significantly. We highlight the need to disentangle toxicity and taste when considering chemical defences in aposematic and mimetic species, and discuss the implications for aposematic and mimicry signal evolution., (© 2018 The Author(s).)

Published

2018

12. Sound production mechanism in triggerfish (Balistidae): a synapomorphy.

Author

Raick X, Lecchini D, Kéver L, Colleye O, Bertucci F, and Parmentier É

Subjects

Animals, Biological Evolution, Species Specificity, Tetraodontiformes anatomy & histology, Animal Communication, Sound, Tetraodontiformes physiology

Abstract

The ability to produce sounds for acoustic communication is known in different Balistidae species but the eventual synapomorphic aspect of the mechanism remains to be shown. In Rhinecanthus aculeatus , sounds result from alternate sweeping movements of the right and left pectoral fins, which push a system of three scutes against the swim bladder wall. In this study, we made a comparison between the sounds produced by this species and two additional ones ( Balistapus undulatus and Rhinecanthus rectangulus ) using hand-held specimens to provide a description of the sound mechanism. The results highlighted that the sound production mechanism is similar in the three species. According to recent phylogenetic data and shared morphological features, this mechanism could be common to the majority of Balistidae family members and all species could be capable of sound production using pectoral fins., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2018. Published by The Company of Biologists Ltd.)

Published

2018

13. Ocean sunfish as indicators for the 'rise of slime'.

Author

Grémillet D, White CR, Authier M, Dorémus G, Ridoux V, and Pettex E

Subjects

Animals, Energy Metabolism, Models, Biological, Population Density, Fisheries, Food Chain, Scyphozoa physiology, Sentinel Species physiology, Tetraodontiformes physiology

Abstract

Overfishing and ocean warming are drastically altering the community composition and size structure of marine ecosystems, eliminating large bodied species [1]. Against a backdrop of such environmental change, the heaviest of all bony fish, the ocean sunfish (Mola mola), seems an improbable survivor. Indeed this indolent giant is killed globally as bycatch, and is listed as 'Vulnerable'[2]. We undertook the most extensive aerial surveys of sunfish ever conducted and found surprisingly high abundances off the Atlantic and Mediterranean coasts of Western Europe. With up to 475 individuals per 100 km 2 , these figures are one order of magnitude higher than abundance estimates for other areas [3-5]. Using bioenergetic modelling, we estimate that each sunfish requires 71 kg day -1 of jellyfish, a biomass intake more than an order of magnitude greater than predicted for a similarly sized teleost. Scaled up to the population level, this equates to a remarkable 20,774 tonnes day -1 of predated jellyfish across our study area in summer. Sunfish abundance may be facilitated by overfishing and ocean warming, which together cause reduced predation of sunfish by sharks and elevated jellyfish biomass. Our combined survey and bioenergetic data provide the first-ever estimate of spatialized ocean sunfish daily food requirements, and stress the importance of this species as a global indicator for the 'rise of slime'. This hypothesis posits that, in an overfished world ocean exposed to global warming, gelatinous zooplankton should flourish, to the detriment of other mesotrophic species such as small pelagic fish, causing irreversible trophic cascades as well as a series of other environmental and economic issues., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

14. Spatially restricted dental regeneration drives pufferfish beak development.

Author

Thiery AP, Shono T, Kurokawa D, Britz R, Johanson Z, and Fraser GJ

Subjects

Animals, Biological Evolution, Fish Proteins metabolism, Models, Animal, Odontogenesis, Receptors, Notch metabolism, Regeneration, Stem Cell Niche, Tetraodontiformes anatomy & histology, Tetraodontiformes physiology, Tooth anatomy & histology, Tooth physiology, Wnt Signaling Pathway, Beak growth & development, Tetraodontiformes growth & development

Abstract

Vertebrate dentitions are extraordinarily diverse in both morphology and regenerative capacity. The teleost order Tetraodontiformes exhibits an exceptional array of novel dental morphologies, epitomized by constrained beak-like dentitions in several families, i.e., porcupinefishes, three-toothed pufferfishes, ocean sunfishes, and pufferfishes. Modification of tooth replacement within these groups leads to the progressive accumulation of tooth generations, underlying the structure of their beaks. We focus on the dentition of the pufferfish (Tetraodontidae) because of its distinct dental morphology. This complex dentition develops as a result of ( i ) a reduction in the number of tooth positions from seven to one per quadrant during the transition from first to second tooth generations and ( ii ) a dramatic shift in tooth morphogenesis following the development of the first-generation teeth, leading to the elongation of dental units along the jaw. Gene expression and 1,1'-Dioctadecyl-3,3,3',3'-tetramethylindocarbocyanine perchlorate (DiI) lineage tracing reveal a putative dental epithelial progenitor niche, suggesting a highly conserved mechanism for tooth regeneration despite the development of a unique dentition. MicroCT analysis reveals restricted labial openings in the beak, through which the dental epithelium (lamina) invades the cavity of the highly mineralized beak. Reduction in the number of replacement tooth positions coincides with the development of only four labial openings in the pufferfish beak, restricting connection of the oral epithelium to the dental cavity. Our data suggest the spatial restriction of dental regeneration, coupled with the unique extension of the replacement dental units throughout the jaw, are primary contributors to the evolution and development of this unique beak-like dentition., Competing Interests: The authors declare no conflict of interest.

Published

2017

15. Unusual sound production mechanism in the triggerfish Rhinecanthus aculeatus (Balistidae).

Author

Parmentier E, Raick X, Lecchini D, Boyle K, Van Wassenbergh S, Bertucci F, and Kéver L

Subjects

Air Sacs physiology, Animal Fins physiology, Animals, Movement, Polynesia, Sound, Sound Spectrography veterinary, Video Recording, Animal Communication, Tetraodontiformes physiology

Abstract

The ability to produce sound has been known for decades in Balistidae. Sounds of many species have been recorded and a variety of sound-producing mechanisms have been proposed, including teeth stridulation, collision of the buccal teeth and movements of the fins. The best-supported hypothesis involves movements of the pectoral fin against the lateral part of the swimbladder, called a drumming membrane. In this study, we describe for the first time the sounds made by the blackbar triggerfish Rhinecanthus aculeatus, which are like short drum rolls with an average duration of 85 ms, 193 Hz dominant frequency and 136 dB SPL level at 3 cm distance. The sounds are a series of pulses that result from alternate sweeping movements of the right and left pectoral fins, which push a system of three scutes that are forced against the swimbladder wall. Pulses from each fin occur in consecutive pairs. High-speed videos indicate that each pulse consists of two cycles. The first part of each cycle corresponds to the inward buckling of the scutes, whereas the second part of the cycle corresponds to an apparent passive recoil of the scutes and swimbladder wall. This novel sound production mechanism is probably found in many members of Balistidae because these peculiar scutes occur in other species in the family. Comparison of sound characteristics from fishes of different sizes shows that dominant frequency decreases with size in juveniles but not in adults., (© 2017. Published by The Company of Biologists Ltd.)

Published

2017

16. DNA barcoding identifies a cosmopolitan diet in the ocean sunfish.

Author

Sousa LL, Xavier R, Costa V, Humphries NE, Trueman C, Rosa R, Sims DW, and Queiroz N

Subjects

Animals, Atlantic Ocean, Cnidaria genetics, Cnidaria physiology, Crustacea genetics, Crustacea physiology, DNA genetics, Fishes genetics, Fishes physiology, Food Chain, Oceans and Seas, Plankton genetics, Plankton physiology, DNA Barcoding, Taxonomic methods, Diet, Feeding Behavior physiology, Predatory Behavior physiology, Tetraodontiformes physiology

Abstract

The ocean sunfish (Mola mola) is the world's heaviest bony fish reaching a body mass of up to 2.3 tonnes. However, the prey M. mola consumes to fuel this prodigious growth remains poorly known. Sunfish were thought to be obligate gelatinous plankton feeders, but recent studies suggest a more generalist diet. In this study, through molecular barcoding and for the first time, the diet of sunfish in the north-east Atlantic Ocean was characterised. Overall, DNA from the diet content of 57 individuals was successfully amplified, identifying 41 different prey items. Sunfish fed mainly on crustaceans and teleosts, with cnidarians comprising only 16% of the consumed prey. Although no adult fishes were sampled, we found evidence for an ontogenetic shift in the diet, with smaller individuals feeding mainly on small crustaceans and teleost fish, whereas the diet of larger fish included more cnidarian species. Our results confirm that smaller sunfish feed predominantly on benthic and on coastal pelagic species, whereas larger fish depend on pelagic prey. Therefore, sunfish is a generalist predator with a greater diversity of links in coastal food webs than previously realised. Its removal as fisheries' bycatch may have wider reaching ecological consequences, potentially disrupting coastal trophic interactions.

Published

2016

17. Endocrine disruption in Sphoeroides testudineus tissues and sediments highlights contamination in a northeastern Brazilian estuary.

Author

Pimentel MF, Damasceno ÉP, Jimenez PC, Araújo PF, Bezerra MF, de Morais PC, Cavalcante RM, Loureiro S, and Lotufo LV

Subjects

Animals, Brazil, Endocrine Disruptors metabolism, Endocrine Disruptors toxicity, Estradiol metabolism, Estrone metabolism, Estuaries, Ethinyl Estradiol metabolism, Female, Gonads metabolism, Male, Rivers chemistry, Sewage chemistry, South America, Vitellogenins metabolism, Water Pollutants, Chemical metabolism, Water Pollutants, Chemical toxicity, Endocrine Disruptors analysis, Environmental Monitoring, Tetraodontiformes physiology, Water Pollutants, Chemical analysis

Abstract

In recent decades, considerable attention has been devoted to endocrine disruptor chemicals (EDC) and studies on fish feminization have increased throughout the years as a key signal for aquatic environmental contamination. The input of domestic sewage into water reservoirs is common in South American countries, especially in cities that experienced rapid population growths and unplanned urbanization. This study aimed at characterizing morphofunctional parameters of the tropical fish Sphoeroides testudineus and investigating the potential occurrence and effects of endocrine disruptors in the Pacoti River (Ceará, Brazil), often considered a reference site. After collection from the field, fish were measure/weighted and desiccated for gender identification (males, females, and undifferentiated), gonadal histology, and vitellogenin expression. From the biometric analysis, undifferentiated fish showed lower weight and length than female and male fish, although no differences in the condition index were observed. The gonadal weight of undifferentiated fish was significantly lower than those of females and males. Although this pattern was observed, gonadosomatic index (GSI) showed a different pattern, with differences being observed just between males and the other two groups (females and undifferentiated). Vitellogenin (VTG) expression was detected in many mature male and undifferentiated fish, indicating endocrine disruption. In addition, several EDCs (estrone, 17α-estradiol, 17β-estradiol, 17α-ethinylestradiol, diethylstilbestrol, and estriol) were identified and quantified in sediments from the sampling site. These results were unexpected and indicative that the Pacoti River is impaired by estrogenic contamination.

Published

2016

18. The armored carapace of the boxfish.

Author

Yang W, Naleway SE, Porter MM, Meyers MA, and McKittrick J

Subjects

Animal Shells diagnostic imaging, Animals, Elastic Modulus physiology, Hardness physiology, Radiography, Stress, Mechanical, Tensile Strength physiology, Animal Shells physiology, Animal Shells ultrastructure, Compressive Strength physiology, Tetraodontiformes anatomy & histology, Tetraodontiformes physiology, Weight-Bearing physiology

Abstract

The boxfish (Lactoria cornuta) has a carapace consisting of dermal scutes with a highly mineralized surface plate and a compliant collagen base. This carapace must provide effective protection against predators as it comes at the high cost of reduced mobility and speed. The mineralized hydroxyapatite plates, predominantly hexagonal in shape, are reinforced with raised struts that extend from the center toward the edges of each scute. Below the mineralized plates are non-mineralized collagen fibers arranged in through-the-thickness layers of ladder-like formations. At the interfaces between scutes, the mineralized plates form suture-like teeth structures below which the collagen fibers bridge the gap between neighboring scutes. These sutures are unlike most others as they have no bridging Sharpey's fibers and appear to add little mechanical strength to the overall carapace. It is proposed that the sutured interface either allows for accommodation of the changing pressures of the boxfish's ocean habitat or growth, which occurs without molting or shedding. In both tension and punch testing the mineralized sutures remain relatively intact while most failures occur within the collagen fibers, allowing for the individual scutes to maintain their integrity. This complex structure allows for elevated strength of the carapace through an increase in the stressed area when attacked by predators in both penetrating and crushing modes., (Copyright © 2015 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.)

Published

2015

19. Boxfish swimming paradox resolved: forces by the flow of water around the body promote manoeuvrability.

Author

Van Wassenbergh S, van Manen K, Marcroft TA, Alfaro ME, and Stamhuis EJ

Subjects

Animals, Water, Hydrodynamics, Models, Biological, Swimming physiology, Tetraodontiformes physiology

Abstract

The shape of the carapace protecting the body of boxfishes has been attributed an important hydrodynamic role in drag reduction and in providing automatic, flow-direction realignment and is therefore used in bioinspired design of cars. However, tight swimming-course stabilization is paradoxical given the frequent, high-performance manoeuvring that boxfishes display in their spatially complex, coral reef territories. Here, by performing flow-tank measurements of hydrodynamic drag and yaw moments together with computational fluid dynamics simulations, we reverse several assumptions about the hydrodynamic role of the boxfish carapace. Firstly, despite serving as a model system in aerodynamic design, drag-reduction performance was relatively low compared with more generalized fish morphologies. Secondly, the current theory of course stabilization owing to flow over the boxfish carapace was rejected, as destabilizing moments were found consistently. This solves the boxfish swimming paradox: destabilizing moments enhance manoeuvrability, which is in accordance with the ecological demands for efficient turning and tilting., (© 2014 The Author(s) Published by the Royal Society. All rights reserved.)

Published

2015

20. Biomechanics: Boxed up and ready to go.

Author

Farina SC and Summers AP

Subjects

Animals, Hydrodynamics, Models, Biological, Swimming physiology, Tetraodontiformes physiology

Published

2015

21. All puffed out: do pufferfish hold their breath while inflated?

Author

McGee GE and Clark TD

Subjects

Animals, Respiration, Tetraodontiformes physiology

Abstract

The inflation response of pufferfishes is one of the most iconic predator defence strategies in nature. Current dogma suggests that pufferfish inflation represents a breath-holding response, whereby gill oxygen uptake ceases for the duration of inflation and cutaneous respiration increases to compensate. Here, we show that the black-saddled pufferfish (Canthigaster valentini) has an excellent capacity for oxygen uptake while inflated, with uptake rates increasing to five-times that of resting levels. Moreover, we show that this species has negligible capacity for cutaneous respiration, concluding that the gills are the primary site of oxygen uptake while inflated. Despite this, post-deflation recovery of aerobic metabolism took an average of 5.6 h, suggesting a contribution of anaerobic metabolism during pre-inflation activity and during the act of ingesting water to achieve inflation., (© 2014 The Author(s) Published by the Royal Society. All rights reserved.)

Published

2014

22. Claudin-6, -10d and -10e contribute to seawater acclimation in the euryhaline puffer fish Tetraodon nigroviridis.

Author

Bui P and Kelly SP

Subjects

Acclimatization, Animals, Claudins analysis, Fish Proteins analysis, Salinity, Seawater analysis, Skin Physiological Phenomena, Claudins metabolism, Fish Proteins metabolism, Gills physiology, Osmoregulation, Tetraodontiformes physiology

Abstract

Expression profiles of claudin-6, -10d and -10e in the euryhaline teleost fish Tetraodon nigroviridis revealed claudin-6 in brain, eye, gill and skin tissue, while claudin-10d and -10e were found in brain, gill and skin only. In fishes, the gill and skin are important tissue barriers that interface directly with surrounding water, but these organs generally function differently in osmoregulation. Therefore, roles for gill and skin claudin-6, -10d and -10e in the osmoregulatory strategies of T. nigroviridis were investigated. In the gill epithelium, claudin-6, -10d and -10e co-localized with Na(+)-K(+)-ATPase immunoreactive (NKA-ir) ionocytes, and differences in sub-cellular localization could be observed in hypoosmotic (freshwater, FW) versus hyperosmotic (seawater, SW) environments. Claudin-10d and -10e abundance increased in the gills of fish acclimated to SW versus FW, while claudin-6 abundance decreased in the gills of fish acclimated to SW. Taken together with our knowledge of claudin-6 and -10 function in other vertebrates, data support the idea that in SW-acclimated T. nigroviridis, these claudins are abundant in gill ionocytes, where they contribute to the formation of a Na(+) shunt and 'leaky' epithelium, both of which are characteristic of salt-secreting SW fish gills. Skin claudin-10d and -10e abundance also increased in fish acclimated to SW versus those in FW, but so did claudin-6. In skin, claudin-6 was found to co-localize with NKA-ir cells, but claudin-10d and -10e did not. This study provides direct evidence that the gill epithelium contains salinity-responsive tight junction proteins that are abundant primarily in ionocytes. These same proteins also appear to play a role in the osmoregulatory physiology of the epidermis., (© 2014. Published by The Company of Biologists Ltd.)

Published

2014

23. Removal of toxin (tetrodotoxin) from puffer ovary by traditional fermentation.

Author

Anraku K, Nonaka K, Yamaga T, Yamamoto T, Shin MC, Wakita M, Hamamoto A, and Akaike N

Subjects

Animals, Cells, Cultured, Female, Neurons drug effects, Neurons physiology, Ovary chemistry, Patch-Clamp Techniques, Rats, Rats, Wistar, Sodium Channel Blockers toxicity, Sodium Channels drug effects, Tetrodotoxin analysis, Tetrodotoxin toxicity, Tissue Extracts chemistry, Tissue Extracts metabolism, Tissue Extracts toxicity, Fermentation, Food Contamination prevention & control, Inactivation, Metabolic, Ovary metabolism, Tetraodontiformes physiology, Tetrodotoxin metabolism

Abstract

The amounts of puffer toxin (tetrodotoxin, TTX) extracted from the fresh and the traditional Japanese salted and fermented "Nukazuke" and "Kasuzuke" ovaries of Takifugu stictonotus (T. stictonotus) were quantitatively analyzed in the voltage-dependent sodium current (I(Na)) recorded from mechanically dissociated single rat hippocampal CA1 neurons. The amount of TTX contained in "Nukazuke" and "Kasuzuke" ovaries decreased to 1/50-1/90 times of that of fresh ovary during a salted and successive fermented period over a few years. The final toxin concentration after fermentation was almost close to the TTX level extracted from T. Rubripes" fresh muscle that is normally eaten. It was concluded that the fermented "Nukazuke" and "Kasuzuke" ovaries of puffer fish T. Stictonotus are safe and harmless as food.

Published

2013

24. Role of huge geometric circular structures in the reproduction of a marine pufferfish.

Author

Kawase H, Okata Y, and Ito K

Subjects

Animals, Female, Male, Reproduction, Marine Biology, Sexual Behavior, Animal, Tetraodontiformes physiology

Abstract

We report that male pufferfishes (Torquigener sp., Tetraodontidae) constructed large geometric circular structures on the seabed that played an important role in female mate choice. Males dug valleys at various angles in a radial direction, constructing nests surrounded by radially aligned peaks and valleys. Furthermore, they created irregular patterns in the nest comprising fine sand particles. The circular structure not only influences female mate choice but also functions to gather fine sand particles in nests, which are important in female mate choice. Strangely enough, the males never reuse the nest, always constructing a new circular structure at the huge cost of construction. This is because the valleys may not contain sufficient fine sand particles for multiple reproductive cycles.

Published

2013

25. Genomic organization of selected genes in the small monogonont rotifer, Brachionus koreanus.

Author

Rhee JS, Kim RO, Kim BM, Dahms HU, and Lee JS

Subjects

Amino Acid Motifs, Animals, Humans, Tetraodontiformes physiology, Evolution, Molecular, Genes, Helminth physiology, Helminth Proteins genetics, Helminth Proteins metabolism, Rotifera physiology

Abstract

Information of genome structure with its size variation may provide important clues for evolutionary processes at lower taxon level in eukaryotes. Here, we analyzed the compact genome structure of the monogonont rotifer, Brachionus koreanus in the light of transphyletic genome comparison and economic genome usage. To confirm the genome compactness of B. koreanus, we compared the genomic structure of several selected genes with those of human and pufferfish. For example, one of the large genes, DNA-dependent protein kinase (DNA-PK) with dimeric protein Ku70 and Ku80, showed high similarity, even though genomic DNA lengths were quite different. The replication protein As (RPAs) as a heterotrimeric protein also showed a compact genomic structure including all the essential domains and motifs in B. koreanus. Regarding transmembrane protein-containing genes, the B. koreanus P-glycoprotein (P-gp) showed exactly the same topology of the TM domain compared to those of human and pufferfish, even though it had a compact genome structure. In addition, the gene structure of an inducible repair enzyme O(6)-methylguanine DNA methyltransferase (O(6)-MGMT) of B. koreanus showed the highest compactness among the genes tested. The objective of this report is to evaluate the potential for whole genome sequencing and functional genomic research using the monogonont rotifer B. koreanus as a non-model organism that plays important roles in aquatic food-webs. Subsequently, we discussed possible reasons for compact genome structures as well as small and fewer introns from several perspectives. We conclude that the small size genome of B. koreanus would make this species potentially useful for comparative genome structure analysis of non-model species through whole genome sequencing and genetic mapping., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

26. Species discrimination among three kinds of puffer fish using an electronic nose combined with olfactory sensory evaluation.

Author

Zhang M, Wang X, Liu Y, Xu X, and Zhou G

Subjects

Animals, Biological Evolution, Discriminant Analysis, Odorants, Principal Component Analysis methods, Takifugu classification, Takifugu physiology, Electronic Nose, Smell physiology, Tetraodontiformes classification, Tetraodontiformes physiology

Abstract

Species discrimination among three kinds of puffer fish, Takifugu obscurus, Takifugu flavidus and Takifugu rubripes, was conducted using an electronic nose combined with olfactory sensory evaluation. All data were treated by multivariate data processing based on principal component analysis (PCA) and discriminant factor analysis (DFA). The results showed the discriminant model by PCA method and DFA method. Using PCA and DFA, it was shown that the electronic nose was able to reasonably distinguish between each of the eleven puffer fish groups, with a discrimination index of 85. The olfactory sensory evaluation was undertaken in accordance to Sensory analysis-Methodology-Initiation and training of assessors in the detection and recognition of odors (BS ISO 5496-2006), and the results showed that the evaluation was able to identify puffer fish samples according to their species, geographical origin and age. Results from this analysis demonstrate that the E-nose can be used to complement the discrimination of odors by sensory evaluation from the three species of puffer fish studied here.

Published

2012

27. The influence of an innovative locomotor strategy on the phenotypic diversification of triggerfish (family: Balistidae).

Author

Dornburg A, Sidlauskas B, Santini F, Sorenson L, Near TJ, and Alfaro ME

Subjects

Animal Fins physiology, Animals, Behavior, Animal, Body Size, Locomotion, Models, Genetic, Phylogeny, Tetraodontiformes genetics, Animal Fins anatomy & histology, Biological Evolution, Tetraodontiformes anatomy & histology, Tetraodontiformes physiology

Abstract

Innovations in locomotor morphology have been invoked as important drivers of vertebrate diversification, although the influence of novel locomotion strategies on marine fish diversification remains largely unexplored. Using triggerfish as a case study, we determine whether the evolution of the distinctive synchronization of enlarged dorsal and anal fins that triggerfish use to swim may have catalyzed the ecological diversification of the group. By adopting a comparative phylogenetic approach to quantify median fin and body shape integration and to assess the tempo of functional and morphological evolution in locomotor traits, we find that: (1) functional and morphological components of the locomotive system exhibit a strong signal of correlated evolution; (2) triggerfish partitioned locomotor morphological and functional spaces early in their history; and (3) there is no strong evidence that a pulse of lineage diversification accompanied the major episode of phenotypic diversification. Together these findings suggest that the acquisition of a distinctive mode of locomotion drove an early radiation of shape and function in triggerfish, but not an early radiation of species., (© 2011 The Author(s). Evolution© 2011 The Society for the Study of Evolution.)

Published

2011

28. [Reproduction of the spiny puffer, Diodon holocanthus (Pisces: Diodontidae) in the continental shelf of Mexican Central Pacific].

Author

Lucano-Ramírez G, Peña-Pérez E, Ruiz-Ramírez S, Rojo-Vázquez J, and González-Sansón G

Subjects

Animals, Female, Male, Mexico, Seasons, Sex Ratio, Tetraodontiformes growth & development, Gonads growth & development, Reproduction physiology, Tetraodontiformes physiology

Abstract

Diodon holocanthus is an important economic and ecological species of the demersal fish community, caught as bycatch from local shrimp fishery. The reproductive biology of this long-spine porcupinefish has not yet been described, and reproductive season, the sex ratio, length distribution, length at first gonad maturity, and the gonad macro and microscopic features are described. A total of 400 organisms, ranging from 5.0 to 40.3 cm (average 18.4 cm) total length, were caught from the continental shelf of the Central Mexican Pacific, from December 1995 and December 1998. Sex ratio was 1:0.86 females to males (n = 253). The length at which 50% of the individuals showed maturing gonads was 19.7 cm for females and 20.1 cm for males. Length of the smallest organism with ripe gonads was 12.2 cm for females and 13 cm for males. Four gonadal maturation stages were found in both sexes, and five oocyte development phases were identified. The oocyte development pattern is of asynchronous type, which means the species can reproduce several times a year. Testicle development is lobular type, as in most teleost fishes. Monthly mean values of the gonad-somatic index suggest the reproduction activity peaks in June, and September-December.

Published

2011

29. Multiple invasions into freshwater by pufferfishes (teleostei: tetraodontidae): a mitogenomic perspective.

Author

Yamanoue Y, Miya M, Doi H, Mabuchi K, Sakai H, and Nishida M

Subjects

Africa, Central, Animals, Asia, Southeastern, Ecosystem, Genetic Speciation, Models, Biological, Phylogeny, South America, Tetraodontiformes classification, Tetraodontiformes metabolism, Time Factors, Fresh Water parasitology, Genome, Mitochondrial physiology, Genomics methods, Introduced Species, Tetraodontiformes genetics, Tetraodontiformes physiology

Abstract

Pufferfishes of the Family Tetraodontidae are the most speciose group in the Order Tetraodontiformes and mainly inhabit coastal waters along continents. Although no members of other tetraodontiform families have fully discarded their marine lives, approximately 30 tetraodontid species spend their entire lives in freshwaters in disjunct tropical regions of South America, Central Africa, and Southeast Asia. To investigate the interrelationships of tetraodontid pufferfishes and thereby elucidate the evolutionary origins of their freshwater habitats, we performed phylogenetic analysis based on whole mitochondrial genome sequences from 50 tetraodontid species and closely related species (including 31 newly determined sequences). The resulting phylogenies reveal that the family is composed of four major lineages and that freshwater species from the different continents are independently nested in two of the four lineages. A monophyletic origin of the use of freshwater habitats was statistically rejected, and ancestral habitat reconstruction on the resulting tree demonstrates that tetraodontids independently entered freshwater habitats in different continents at least three times. Relaxed molecular-clock Bayesian divergence time estimation suggests that the timing of these invasions differs between continents, occurring at 0-10 million years ago (MA) in South America, 17-38 MA in Central Africa, and 48-78 MA in Southeast Asia. These timings are congruent with geological events that could facilitate adaptation to freshwater habitats in each continent.

Published

2011

30. [Feeding changes for three Sphoeroides species (Tetraodontiformes: Tetraodontidae) after Isidore hurricane impact in Carbonera Inlet, Southeastern Gulf of Mexico].

Author

Palacios-Sánchez SE and Vega-Cendejas ME

Subjects

Animals, Environment, Mexico, Cyclonic Storms, Feeding Behavior physiology, Food Chain, Predatory Behavior physiology, Tetraodontiformes physiology

Abstract

The coexistence of ecologically similar species may occur because of resources distribution, such as prey and habitat type and segregation time, that minimizes the interspecific competition. The changes brought about by Hurricane Isidore in the distribution of food resources by three coexisting fish species of the family Tetraodontidae (Sphoeroides nephelus, S. spengleri and S testudineus), were analyzed at the Carbonera Inlet. Sphoeroides spp. based their food on benthic organisms; principally, they consume mussels (Brachidontes sp.), barnacles (Balanus sp.) and gastropods (Crepidula sp). Before hurricane impact, the three species share the available food resources in different proportions (bivalves, gastropods, barnacles and decapods), according to different strategies that enabled them to coexist and reduce interspecific competition. After the impact, the abundance of available prey decreased and the interespecific competition for food increased, leading to S. testudines and S. nephelus change their trophic spectrum (xiphosurans, amphipods, isopods and detritus) and displacing S. splengleri of the inlet. The distribution of food resources was conditioned by the abundance and diversity of prey, as well as the adaptive response of each species.

Published

2010

31. Double cones are used for colour discrimination in the reef fish, Rhinecanthus aculeatus.

Author

Pignatelli V, Champ C, Marshall J, and Vorobyev M

Subjects

Animals, Discrimination Learning physiology, Models, Biological, Tetraodontiformes anatomy & histology, Color Vision physiology, Retinal Cone Photoreceptor Cells cytology, Retinal Cone Photoreceptor Cells physiology, Tetraodontiformes physiology

Abstract

Double cones (DCs) are the most common cone types in fish, reptiles and birds. It has been suggested that DCs are used for achromatic tasks such as luminance, motion and polarization vision. Here we show that a reef fish Rhinecanthus aculeatus can discriminate colours on the basis of the difference between the signals of individual members of DCs. This is the first direct evidence that individual members of DCs are used in colour vision as independent spectral channels.

Published

2010

32. Coordinated and cohesive movement of two small conspecific fish induced by eliciting a simultaneous optomotor response.

Author

Imada H, Hoki M, Suehiro Y, Okuyama T, Kurabayashi D, Shimada A, Naruse K, Takeda H, Kubo T, and Takeuchi H

Subjects

Animals, Female, Larva physiology, Male, Oryzias growth & development, Tetraodontiformes growth & development, Oryzias physiology, Swimming, Tetraodontiformes physiology

Abstract

Background: In animal groups such as herds, schools, and flocks, a certain distance is maintained between adjacent individuals, allowing them to move as a cohesive unit. Proximate causations of the cohesive and coordinated movement under dynamic conditions, however, have been poorly understood., Methodology/principal Findings: We established a novel and simple behavioral assay using pairs of small fish (medaka and dwarf pufferfish) by eliciting a simultaneous optomotor response (OMR). We demonstrated that two homospecific fish began to move cohesively and maintained a distance of 2 to 4 cm between them when an OMR was elicited simultaneously in the fish. The coordinated and cohesive movement was not exhibited under a static condition. During the cohesive movement, the relative position of the two fish was not stable. Furthermore, adult medaka exhibited the cohesive movement but larvae did not, despite the fact that an OMR could be elicited in larvae, indicating that this ability to coordinate movement develops during maturation. The cohesive movement was detected in homospecific pairs irrespective of body-color, sex, or albino mutation, but was not detected between heterospecific pairs, suggesting that coordinated movement is based on a conspecific interaction., Conclusions/significance: Our findings demonstrate that coordinated behavior between a pair of animals was elicited by a simultaneous OMR in two small fish. This is the first report to demonstrate induction of a schooling-like movement in a pair of fish by an OMR and to investigate the effect of age, sex, body color, and species on coordination between animals under a dynamic condition.

Published

2010

33. Distinct startle responses are associated with neuroanatomical differences in pufferfishes.

Author

Greenwood AK, Peichel CL, and Zottoli SJ

Subjects

Animals, Escape Reaction, Neuroanatomy, Reflex, Startle, Tetraodontiformes anatomy & histology, Tetraodontiformes physiology

Abstract

Despite the key function of the Mauthner cells (M-cells) in initiating escape responses and thereby promoting survival, there are multiple examples of M-cell loss across the teleost phylogeny. Only a few studies have directly considered the behavioral consequences of naturally occurring M-cell variation across species. We chose to examine this issue in pufferfishes, as previous research suggested that there might be variability in M-cell anatomy in this group of fish. We characterized the M-cell anatomy and fast-start responses of two pufferfish species, Tetraodon nigroviridis and Diodon holocanthus. T. nigroviridis showed robust fast-starts to both tactile and acoustic startling stimuli. These fast-starts occurred with a latency typical of M-cell initiation in other fish, and retrograde labeling of spinal-projection neurons revealed that T. nigroviridis does have M-cells. By contrast, D. holocanthus only rarely exhibited fast-start-like behavior, and these responses were at a substantially longer latency and were much less extensive than those of T. nigroviridis. Using three complementary anatomical techniques we were unable to identify obvious M-cell candidates in D. holocanthus. These results provide a clear correlation between M-cell presence or absence and dramatic differences in fast-start behavior. The rich diversity within the pufferfish clade should allow future studies investigating the factors that contribute to this correlated anatomical and behavioral variation.

Published

2010

34. [Trophic ecology of the fish Arothron meleagris (Tetraodontiformes: Tetraodontidae) from Los Frailes reef, southern Baja California, Mexico].

Author

Moreno XG, Abitia LA, Favila A, Gutiérrez FJ, and Palacios DS

Subjects

Animals, Female, Male, Mexico, Tetraodontiformes anatomy & histology, Tetraodontiformes classification, Ecosystem, Feeding Behavior physiology, Gastrointestinal Contents, Tetraodontiformes physiology

Abstract

Monthly samples were taken from November 2004 to October 2005 in the Los Frailes reef, BCS, Mexico. The objective was to determine the feeding habits of the pufferfish, Arothron meleagris, as well as possible variations in feeding patterns due to size and/or sex. We captured 101 specimens, with all stomachs contained food. The index of relative importance (IRI) was used to determine the main items; which were non-identified organic matter (NIOM) (30.44%), Echinometra vanbrunti (26.25 %), Porifera (12.63 %), Pocillopora spp. (11.84%), Bryozoa (5.37 %) and Porites spp. (4.83 %). Levin's index indicated a low trophic niche breadth (Bi=0.12) and allowed us to determine that A. meleagris is a specialist predator with strong preferences towards certain food types. The Morisita-Horn index showed a high trophic overlap between sexes (Clambda=0.78), seasons (hot and cold Clambda=0.95) and among sizes (small and medium Clambda=0.94; small and large Clambda=0.74; medium and large Clambda=0.83).

Published

2009

35. Toxicity assessment of the puffer fish Lagocephalus lagocephalus from the Tunisian coast.

Author

Saoudi M, Abdelmouleh A, Kammoun W, Ellouze F, Jamoussi K, and El Feki A

Subjects

Alanine Transaminase blood, Animals, Aspartate Aminotransferases blood, Blood Cells drug effects, Blood Cells enzymology, Catalase metabolism, Erythrocytes drug effects, Erythrocytes enzymology, Glutathione Peroxidase metabolism, Kidney drug effects, Kidney enzymology, Lipid Peroxidation drug effects, Liver drug effects, Liver enzymology, Male, Oxidative Stress drug effects, Rats, Rats, Wistar, Superoxide Dismutase metabolism, Thiobarbituric Acid Reactive Substances metabolism, Tunisia, Marine Toxins toxicity, Tetraodontiformes physiology

Abstract

This study was undertaken to assess the risk of poisoning due to consumption of the puffer fish Lagocephalus lagocephalus collected along the Tunisian coast. Wistar rats were daily intraperitoneally injected, for 10 days, with acidic extracts of liver or flesh (muscles + skin) of L. lagocephalus. Control rats received injections of NaCl (0.9%). No mortality and no evident signs of neurotoxicity were recorded in treated rats. Conversely, treatment led to: (1) diarrhoea and body and organ (liver, kidney) weights loss; (2) oxidative stress evidenced by an increase in lipid peroxidation (TBARS) and conversely a decrease in antioxidant enzyme activities (SOD, catalase, GSH-Px) in tissues (blood cells, liver, kidneys); (3) a decrease in alanine aminotransferase (ALT) and alkaline phosphatase (ALP) activities in blood plasma.

Published

2008

36. Toxin-resistant sodium channels: parallel adaptive evolution across a complete gene family.

Author

Jost MC, Hillis DM, Lu Y, Kyle JW, Fozzard HA, and Zakon HH

Subjects

Amino Acid Sequence, Amino Acid Substitution, Animals, Molecular Sequence Data, Phylogeny, Porosity, Protein Structure, Tertiary, Sodium Channels classification, Sodium Channels drug effects, Tetraodontiformes classification, Tetraodontiformes physiology, Adaptation, Biological genetics, Evolution, Molecular, Multigene Family, Saxitoxin toxicity, Sodium Channels genetics, Tetraodontiformes genetics, Tetrodotoxin toxicity

Abstract

Approximately 75% of vertebrate proteins belong to protein families encoded by multiple evolutionarily related genes, a pattern that emerged as a result of gene and genome duplications over the course of vertebrate evolution. In families of genes with similar or related functions, adaptation to a strong selective agent should involve multiple adaptive changes across the entire gene family. However, we know of no evolutionary studies that have explicitly addressed this point. Here, we show how 4 taxonomically diverse species of pufferfishes (Tetraodontidae) each evolved resistance to the guanidinium toxins tetrodotoxin (TTX) and saxitoxin (STX) via parallel amino acid replacements across all 8 sodium channels present in teleost fish genomes. This resulted in diverse suites of coexisting sodium channel types that all confer varying degrees of toxin resistance, yet show remarkable convergence among genes and phylogenetically diverse species. Using site-directed mutagenesis and expression of a vertebrate sodium channel, we also demonstrate that resistance to TTX/STX is enhanced up to 15-fold by single, frequently observed replacements at 2 sites that have not previously been implicated in toxin binding but show similar or identical replacements in pufferfishes and in distantly related vertebrate and nonvertebrate animals. This study presents an example of natural selection acting upon a complete gene family, repeatedly arriving at a diverse but limited number of adaptive changes within the same genome. To be maximally informative, we suggest that future studies of molecular adaptation should consider all functionally similar paralogs of the affected gene family.

Published

2008

37. Claudin-3 tight junction proteins in Tetraodon nigroviridis: cloning, tissue-specific expression, and a role in hydromineral balance.

Author

Bagherie-Lachidan M, Wright SI, and Kelly SP

Subjects

Actins biosynthesis, Actins genetics, Animals, Claudin-3, Cloning, Molecular, Electrophoresis, Agar Gel, Gene Expression Profiling, Osmolar Concentration, Phylogeny, Reverse Transcriptase Polymerase Chain Reaction, Seawater, Sodium blood, Sodium-Potassium-Exchanging ATPase metabolism, Terminology as Topic, Tetraodontiformes classification, Tissue Distribution, Water metabolism, Membrane Proteins metabolism, Tetraodontiformes physiology, Water-Electrolyte Balance physiology

Abstract

Claudins are a large family of integral transmembrane tight junction (TJ) proteins involved in regulating the permeability of the paracellular pathway. In these studies, we clone and describe the tissue distribution of four claudin-3 genes (designated Tncldn3a, Tncldn3b, Tncldn3c, and Tncldn3d) from the euryhaline spotted green puffer fish Tetraodon nigroviridis and examine the response of Tetraodon and Tncldn3 mRNAs to salinity variation (freshwater, FW; seawater, SW; and hypersaline seawater, HSW). In Tetraodon, genes encoding for claudin-3 TJ proteins are widely expressed, suggesting that claudin-3 proteins participate in regulating paracellular permeability across various epithelia within fishes. Of particular note is the widespread distribution of Tncldn3 genes in tissues that regulate hydromineral balance (gills, skin, kidney, and intestine). Renal and intestinal tissues express all four Tncldn3 genes, while the gills and skin specifically express Tncldn3a and Tncldn3c. In response to salinity variation, Tetraodon exhibits characteristics typical of a euryhaline fish species: moderate changes in blood osmolality and muscle moisture content; alterations in gill, kidney, and intestinal Na(+)-K(+)-ATPase activity; and unaltered Na(+)-K(+)-ATPase activity in the integument. In conjunction with these changes, Tncldn3 mRNA expression exhibits marked and significant salinity-dependent alterations that are both tissue and gene specific. Overall, our data suggest that a decreased abundance of claudin-3 in Tetraodon occurs in "leakier" epithelia and that claudin-3 TJ proteins will likely play an important role in the maintenance of hydromineral balance across osmoregulatory epithelia of euryhaline fishes.

Published

2008

38. Contribution to the feeding ecology of the banded puffer fish Colomesus psittacus (Tetraodontidae) in north Brazilian mangrove creeks.

Author

Krumme U, Keuthen H, Saint-Paul U, and Villwock W

Subjects

Animals, Brazil, Ecosystem, Predatory Behavior, Seasons, Feeding Behavior physiology, Gastrointestinal Contents, Tetraodontiformes physiology

Abstract

Stomach contents were examined from 102 banded puffer, Colomesus psittacus (Tetraodontidae), caught from intertidal mangrove creeks at diurnal neap tides between June and September, 1997 (early dry season) near Bragança (north Brazil). The study found that C. psittacus were specialized predators of Cirripedia (Balanus spp.) and Brachyuran crabs (Uca spp., Pachygrapsus gracilis) (mean: 58 and 38% by dry weight, respectively), emphasizing a short food chain in the mangrove system. Cirripedia and Brachyura dominated the diet in all size classes, however, the prey spectrum narrowed with fish size. The mean daily consumption of Cirripedia and Brachyura was 6.2% body weight of C. psittacus. On average C. psittacus consumed 100.3 g x ha(-1) x d(-1) of Cirripedia and 178.7 g x ha(-1) x d(-1) of Brachyura (wet weight). The predation on Brachyuran crabs--a significant driver of fluxes of organic matter and energy in the system--provides C. psittacus with an important ecological function in the mangrove food web. A plant-animal interaction is proposed where C. psittacus exerts a mutually beneficial cleaning function on the Aufwuchs (Cirripedia and associated epibiota) of Rhizophora mangle stilt roots. Our results and those of other studies suggest that C. psittacus encounter optimum foraging conditions in the mangrove at high inundations at daylight (spring tide-day) whereas darkness and low inundations are linked to poor foraging conditions (neap tide-night). The C. psittacus resource could be used as an alternative income in the region in terms of i) sustainable catch and filet processing for exports to East Asia, ii) developing certified aquaculture methods for breeding puffers for the aquarium trade.

Published

2007

39. Body-induced vortical flows: a common mechanism for self-corrective trimming control in boxfishes.

Author

Bartol IK, Gharib M, Webb PW, Weihs D, and Gordon MS

Subjects

Animals, Biomechanical Phenomena, Postural Balance, Pressure, Rheology, Species Specificity, Models, Anatomic, Swimming physiology, Tetraodontiformes anatomy & histology, Tetraodontiformes physiology

Abstract

Boxfishes (Teleostei: Ostraciidae) are marine fishes having rigid carapaces that vary significantly among taxa in their shapes and structural ornamentation. We showed previously that the keels of the carapace of one species of tropical boxfish, the smooth trunkfish, produce leading edge vortices (LEVs) capable of generating self-correcting trimming forces during swimming. In this paper we show that other tropical boxfishes with different carapace shapes have similar capabilities. We conducted a quantitative study of flows around the carapaces of three morphologically distinct boxfishes (spotted boxfish, scrawled cowfish and buffalo trunkfish) using stereolithographic models and three separate but interrelated analytical approaches: digital particle image velocimetry (DPIV), pressure distribution measurements, and force balance measurements. The ventral keels of all three forms produced LEVs that grew in circulation along the bodies, resembling the LEVs produced around delta-winged aircraft. These spiral vortices formed above the keels and increased in circulation as pitch angle became more positive, and formed below the keels and increased in circulation as pitch angle became more negative. Vortices also formed along the eye ridges of all boxfishes. In the spotted boxfish, which is largely trapezoidal in cross section, consistent dorsal vortex growth posterior to the eye ridge was also present. When all three boxfishes were positioned at various yaw angles, regions of strongest concentrated vorticity formed in far-field locations of the carapace compared with near-field areas, and vortex circulation was greatest posterior to the center of mass. In general, regions of localized low pressure correlated well with regions of attached, concentrated vorticity, especially around the ventral keels. Although other features of the carapace also affect flow patterns and pressure distributions in different ways, the integrated effects of the flows were consistent for all forms: they produce trimming self-correcting forces, which we measured directly using the force balance. These data together with previous work on smooth trunkfish indicate that body-induced vortical flows are a common mechanism that is probably significant for trim control in all species of tropical boxfishes.

Published

2005

40. Occlusable corneas in toadfishes: light transmission, movement and ultrastruture of pigment during light- and dark-adaptation.

Author

Siebeck UE, Collin SP, Ghoddusi M, and Marshall NJ

Subjects

Animals, Chromatophores, Microscopy, Electron, Photic Stimulation, Adaptation, Ocular physiology, Cornea physiology, Cornea ultrastructure, Dark Adaptation physiology, Pigments, Biological physiology, Tetraodontiformes physiology

Abstract

The toadfishes Tetractenos hamiltoni and Torquigener pleurogramma (Tetraodontidae) possess occlusable yellow corneas. We examine the light transmission and location of the yellow/orange pigment throughout the cornea, the temporal properties of pigment migration and the ultrastructure of the pigmented processes during light- and dark-adaptation. Each species was dark-adapted during the day and light-adapted during the night and then exposed to either sun illumination or darkness for different lengths of time (0-70 min). Movement of corneal pigment could be induced in both species regardless of time of day or night. The pigment was able to migrate in a dorsal or ventral direction and changed from minimal to maximal pigmentation within 60 min. Three types of transmission curves were found with varying degrees of transmission in the 400-500 nm waveband, indicating that the pigment distribution is not uniform across the cornea; some areas of the cornea transmit near UV light, while others absorb blue light. The gradual change of the transmission characteristics in different areas of the cornea indicates the presence of different concentrations of a single type of pigment. Ultrastructural examination of the corneas showed that the layer containing the pigment is situated within the scleral cornea either surrounding (T. pleurogramma) or abutting (T. hamiltoni) an iridescent layer. Long sheet-like processes or chromatophores extending centrally from dorsal and ventral reservoirs are filled with pigment during the light-adapted state but empty in the dark-adapted state.

Published

2003

41. Predators favour mimicry in a tropical reef fish.

Author

Caley MJ and Schluter D

Subjects

Animals, Anthozoa, Biological Evolution, Phenotype, Selection, Genetic, Tetraodontiformes physiology, Tropical Climate, Fishes physiology, Predatory Behavior

Abstract

Batesian mimicry evolves when the 'umbrella' of protection provided by resemblance to a conspicuous unpalatable model species is sufficient to overcome increased predation risk associated with greater conspicuousness. However, the shape and extent of this umbrella, that is, how the level of protection provided by mimicry changes with degree of resemblance between model and mimic, is poorly known. We investigated the response of wild predatory fishes to plastic replicas of a model-mimic species pair of tropical reef fishes, Canthigaster valentini (a toxic pufferfish, the model) and Paraluteres prionurus (the putative mimic), and additional replicas with progressively lower degrees of resemblance to the mimic species. Our results reveal a relatively broad region of protection, indicated by a reduced approach rate by piscivorous fishes, surrounding the colour pattern of the model species. Protection increased with increasing resemblance. By contrast, the response of non-piscivorous fishes was unrelated to degree of resemblance of replicas to the model. Our results suggest that piscivorous fishes on the reef are educated regarding the toxicity of C. valentini, and that avoidance of fish having the pufferfish colour pattern has generated selection favouring mimetic resemblance by the palatable P. prionurus. The relatively broad protective umbrella has probably facilitated the initial evolution of resemblance in the palatable prey species despite the potential hazards of greater conspicuousness.

Published

2003

42. Energetics of median and paired fin swimming, body and caudal fin swimming, and gait transition in parrotfish (Scarus schlegeli) and triggerfish (Rhinecanthus aculeatus).

Author

Korsmeyer KE, Steffensen JF, and Herskin J

Subjects

Animals, Energy Metabolism, Gait physiology, Models, Biological, Oxygen Consumption, Perciformes physiology, Swimming physiology, Tetraodontiformes physiology

Abstract

To determine the energetic costs of rigid-body, median or paired-fin (MPF) swimming versus undulatory, body-caudal fin (BCF) swimming, we measured oxygen consumption as a function of swimming speed in two MPF swimming specialists, Schlegel's parrotfish and Picasso triggerfish. The parrotfish swam exclusively with the pectoral fins at prolonged swimming speeds up to 3.2 total lengths per second (L s(-1); 30 min critical swimming speed, U(crit)). At higher speeds, gait transferred to a burst-and-coast BCF swimming mode that resulted in rapid fatigue. The triggerfish swam using undulations of the soft dorsal and anal fins up to 1.5 L s(-1), beyond which BCF undulations were recruited intermittently. BCF swimming was used continuously above 3.5 L s(-1), and was accompanied by synchronous undulations of the dorsal and anal fins. The triggerfish were capable of high, prolonged swimming speeds of up to 4.1 L s(-1) (30 min U(crit)). In both species, the rates of increase in oxygen consumption with swimming speed were higher during BCF swimming than during rigid-body MPF swimming. Our results indicate that, for these species, undulatory swimming is energetically more costly than rigid-body swimming, and therefore support the hypothesis that MPF swimming is more efficient. In addition, use of the BCF gait at higher swimming speed increased the cost of transport in both species beyond that predicted for MPF swimming at the same speeds. This suggests that, unlike for terrestrial locomotion, gait transition in fishes does not occur to reduce energetic costs, but to increase recruitable muscle mass and propulsive surfaces. The appropriate use of the power and exponential functions to model swimming energetics is also discussed.

Published

2002