Body Fineness Ratio as a Predictor of Maximum Prolonged-Swimming Speed in Coral Reef Fishes

Walker, Jeffrey A.; Alfaro, Michael E.; Noble, Mae M.; Fulton, Christopher J.

doi:10.1371/journal.pone.0075422

Cited by 47 publications

(57 citation statements)

References 91 publications

(106 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Groups or species with small sample sizes ( n < 15) were not included in the correlation tests but were included in the predictive models and the general presentation of results (Table and Figure ). Many studies have tested morphological traits as predictors of dispersal and swimming capacities (Cui et al, ; Fisher et al, ; Fisher & Hogan, ; Leis et al, ; Raventós, ; Teichert et al, ; Walker et al, ; Wilson & Meekan, ). Our observations, aligned with previous results, suggest that fish larval morphologies are better predictors of swimming capacity than their taxonomic identity (Fisher et al, ; Fisher & Bellwood, ; Fisher & Hogan, ).…”

Section: Discussionmentioning

confidence: 99%

Relationship between swimming capacities and morphological traits of fish larvae at settlement stage: a study of several coastal Mediterranean species

Rossi

Levaray

Paillon

et al. 2019

Journal of Fish Biology

View full text Add to dashboard Cite

Experimental measurements were made in the laboratory to determine the swimming capacities of settlement‐stage fish larvae of several Mediterranean coastal species collected from the nearshore waters of Corsica, France. Critical swimming speed (Ucrit, cm s−1) was measured to provide a realistic laboratory estimate of in situ swimming speed. Morphometric traits were measured to assess potential predictors of a species’ swimming ability and, when possible, daily otolith increments were used to estimate age. Observed swimming speeds were consistent with other temperate species and demonstrated that the tested species are competent swimmers and not passive components of their environment. Morphological traits varied in their correlation with Ucrit across groups and species. Direct measurements of morphological traits were better predictors than calculated ratios. Pelagic larval duration had little relationship with swimming speed among species for which daily otolith increments were counted. In addition to expanding the database on swimming capacities of settlement‐stage fish larvae in the Mediterranean Sea, this study also developed methods that simplify the assessment of larval fish swimming ability. Swimming speed data are essential for improving larval dispersal models and for predicting recruitment rates in coastal fish populations.

show abstract

Section: Discussionmentioning

confidence: 99%

Relationship between swimming capacities and morphological traits of fish larvae at settlement stage: a study of several coastal Mediterranean species

Rossi

Levaray

Paillon

et al. 2019

Journal of Fish Biology

View full text Add to dashboard Cite

show abstract

“…Two morphometric ratios were then obtained from these measurements: fineness ratio (ratio between standard body length and maximum body depth) and caudal peduncle depth factor (ratio between least depth of caudal peduncle and maximum body depth). Both morphological ratios have been previously used as predictors of swimming ability and efficiency (Fisher & Hogan, ; Ohlberger et al, ; Scarnecchia, ; Walker et al, ; Webb, ).…”

Section: Methodsmentioning

confidence: 99%

Differences in swimming performance and energetic costs between an endangered native toothcarp (Aphanius iberus) and an invasive mosquitofish (Gambusia holbrooki)

Rubio‐Gracia

García‐Berthou

Latorre

et al. 2019

Ecology of Freshwater Fish

View full text Add to dashboard Cite

Swimming performance is a key feature that mediates fitness and survival in many fish species. Using a swim tunnel respirometer, we compared prolonged swimming performance and energy use for two competing species: an endangered, endemic toothcarp (Aphanius iberus) and a worldwide invasive mosquitofish (Gambusia holbrooki). Critical (Ucrit) and optimal swimming speeds, standard and maximal metabolic rates, absolute aerobic scope, as well as the minimum cost of transport were estimated and compared between species and sexes. Body streamlining and caudal peduncle depth were also measured to explain the differences in swimming performance and efficiency. Both sexes of A. iberus presented similar swimming capacity and metabolic traits, whereas males of G. holbrooki showed higher critical swimming speeds, maximal metabolic rate and absolute aerobic scope than females. We also found marked differences between species in most of the response variables examined. Aphanius iberus showed lower swimming capacity (Ucrit mean <10 cm s−1), higher maximal metabolic rate and absolute aerobic scope than the invasive species. By contrast, G holbrooki swam faster and had lower cost of transport at a given fish mass and speed, thereby leading to a higher swimming efficiency. The observed differences in swimming efficiency were closely related to differences in morphological characteristics and therefore to drag pressures and propulsion. Our results add a mechanistic basis to the ecological understanding of these two species and suggest that although both are poor swimmers compared to many other similarly sized species, the native species likely has more restricted water flow tolerance and dispersal capacities.

show abstract

“…Elsewhere, Leris et al (2013) quantified body shape variations between the sexes of D. rerio and reported that females had deeper body depth and width compared with males. Walker et al (2013) demonstrated that shallower body depth is thought to reduce drag during sustained swimming and thus is favoured in open water (pelagic) habitat and, in contrast, deeper body depth is also thought to increase manouverability and boost swimming speed, and thus is favoured in habitat with many hiding places. Therefore, sexual dimorphism of the observed species recorded in body depth in H. fasciatus from the Great Kwa River may probably have resulted as an adaptation for strong river current and defending of territory.…”

Section: Discussionmentioning

confidence: 99%

“…As such, the dimorphic patterns of body depth and standard length between sexes are expected to contribute to differing locomotor potential between female and male individuals of this species. Some authors have reported that body shape traits contribute to performance variations (Langerhans and Reznick, 2010;Walker et al, 2013), prolonged swimming speed and associated morphological performance (Arnold, 1983(Arnold, , 2003Walker, 2007). Overall, the positive relationship between the right pectoral fin and increased gonad weight in S. melanotheron suggests that larger pectoral fins in females were more likely to be primarily affiliated with reproductive activity, while larger body depth of female H. fasciatus and its highlighted role in sexual dimorphism of this species is more suggestive of being primarily for locomotor function.…”

Section: Discussionmentioning

confidence: 99%

Sexual dimorphism in black jaw tiliapia (Sarotherodon melanotheron) and banded jewelfish (Hemichromis fasciatus) from the Great Kwa River, Calabar, Nigeria

Ibor

Eni

Bassey

et al. 2017

Croatian Journal of Fisheries

View full text Add to dashboard Cite

In this study, the pattern and magnitude of sexual dimorphic differences have been investigated in black jaw tilapia (Sarotherodon melanotheron) (n = 160; 74 males and 86 females) and banded jewelfish (Hemichromis fasciatus) (n = 120; 42 males and 78 females) from the Great Kwa River, Calabar, Nigeria. Fish samples were collected between July and December 2015. Fourteen morphometric variables, including body weight, total length, standard length, body depth, cheek depth, pre-orbital length, postorbital length, pectoral fin length (right and left), pelvic fin length (right and left), head length, gonad weight, eye diameter and four meristic variables, including number of pectoral fins (right and left) and number of pelvic fins (right and left), were taken using standard methods. Size-adjusted morphometric measurements subjected to step-wise discriminant function analysis were used to determine predictor variables to morphologically differentiate sexes for both species; magnitude of dimorphism between sexes was estimated using percentage classification accuracy of the discriminant function analysis. From the discriminant function analysis, the pectoral fin length and gonad weight positively contributed significantly to morphometric dimorphism (magnitude=69.2%) in male and female S. melanotheron suggesting adaptation for reproductive function; while for H. fasciatus the body depth and standard length were important contributors to sexual dimorphism (magnitude=84.2%) suggesting size dimorphism for aggressiveness, territorial behavior and improving swimming performance. Overall, our results indicate that the different magnitude of sexual dimorphism between the two species could be attributable to the type and functional role of sexual dimorphic traits.

show abstract

Body Fineness Ratio as a Predictor of Maximum Prolonged-Swimming Speed in Coral Reef Fishes

Cited by 47 publications

References 91 publications

Relationship between swimming capacities and morphological traits of fish larvae at settlement stage: a study of several coastal Mediterranean species

Relationship between swimming capacities and morphological traits of fish larvae at settlement stage: a study of several coastal Mediterranean species

Differences in swimming performance and energetic costs between an endangered native toothcarp (Aphanius iberus) and an invasive mosquitofish (Gambusia holbrooki)

Sexual dimorphism in black jaw tiliapia (Sarotherodon melanotheron) and banded jewelfish (Hemichromis fasciatus) from the Great Kwa River, Calabar, Nigeria

Contact Info

Product

Resources

About