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1.
J Fish Biol ; 92(1): 73-84, 2018 Jan.
Article in English | MEDLINE | ID: mdl-29105768

ABSTRACT

Stomach contents were collected from 117 yellow rays Urobatis jamaicensis from three locations in south Eleuthera, The Bahamas and compared with ambient infauna via sediment surveys. Diets were relatively limited with a total of 535 prey items recovered, representing five taxonomic groups and dominated by polychaetes and decapod crustaceans (87% of total diet), while environmental sampling reported 5249 individual taxa represented by 62 taxonomic groups. Regardless of gravidity, sex or density of prey items among sites, no significant differences were detected. Foraging strategy plots suggested preferential prey is rare within the environment and the Manly-Chesson index validates polychaetes were consumed with high selectivity. This is the most comprehensive and updated assessment of comparative feeding in this species, particularly for The Bahamas, allowing insight into invertebrate community richness and diversity in ecologically sensitive coastal and nearshore habitats.


Subject(s)
Feeding Behavior , Gastrointestinal Contents , Skates, Fish/physiology , Animals , Bahamas , Diet , Ecology , Ecosystem
2.
J Fish Biol ; 91(6): 1582-1602, 2017 Dec.
Article in English | MEDLINE | ID: mdl-29034467

ABSTRACT

Potential roles of the rostrum of sawsharks (Pristiophoridae), including predation and self-defence, were assessed through a variety of inferential methods. Comparison of microwear on the surface of the rostral teeth of sawsharks and sawfishes (Pristidae) show that microwear patterns are alike and suggest that the elongate rostra in these two elasmobranch families are used for a similar purpose (predation). Raman spectroscopy indicates that the rostral teeth of both sawsharks and sawfishes are composed of hydroxyapatite, but differ in their collagen content. Sawfishes possess collagen throughout their rostral teeth whereas collagen is present only in the centre of the rostral teeth of sawsharks, which may relate to differences in ecological use. The ratio of rostrum length to total length in the common sawshark Pristiophorus cirratus was found to be similar to the largetooth sawfish Pristis pristis but not the knifetooth sawfish Anoxypristis cuspidata. Analysis of the stomach contents of P. cirratus indicates that the diet consists of demersal fishes and crustaceans, with shrimp from the family Pandalidae being the most important dietary component. No prey item showed evidence of wounds inflicted by the rostral teeth. In light of the similarities in microwear patterns, rostral tooth chemistry and diet with sawfishes, it is hypothesised that sawsharks use their rostrum in a similar manner for predation (sensing and capturing prey) and possibly for self-defence.


Subject(s)
Elasmobranchii/physiology , Tooth/anatomy & histology , Animals , Diet , Elasmobranchii/anatomy & histology , Predatory Behavior , Skates, Fish , Spectrum Analysis, Raman , Tooth/chemistry , Tooth/physiology
3.
J Fish Biol ; 90(5): 1906-1925, 2017 May.
Article in English | MEDLINE | ID: mdl-28303565

ABSTRACT

The internal anatomy of the barbels of the common sawshark Pristiophorus cirratus was examined with light microscopy to clarify their sensory role. No sensory structures such as taste buds (chemoreception), ampullae of Lorenzini (electroreception) or free neuromasts (lateral line mechanoreception) could be located in the barbels. The presence of bundles of nerve fibres, however, indicates a tactile function for the barbels. Conveyance of information regarding potentially damaging stimuli (nociception) and temperature (thermoception) cannot be excluded at this stage. It is hypothesized that the barbels are used by P. cirratus to locate prey in both the water column and on the substratum via wake detection and sensing changes in surface texture. The barbels may also be involved in the detection of water currents for rheotaxis. Regression analyses on P. cirratus morphometric data showed that the width of the rostrum at two sections (the barbels and the rostrum tip) does not significantly correlate with total length. The regression analyses also suggested that the barbels of P. cirratus may be lateralised.


Subject(s)
Animal Structures/ultrastructure , Elasmobranchii/anatomy & histology , Animals , Elasmobranchii/physiology , Nerve Fibers/ultrastructure , Regression Analysis , Sensory Receptor Cells/physiology , Sensory Receptor Cells/ultrastructure , Touch Perception/physiology
4.
J Fish Biol ; 90(4): 1584-1596, 2017 Apr.
Article in English | MEDLINE | ID: mdl-28239851

ABSTRACT

Detailed computational fluid dynamics simulations for the rostrum of three species of sawfish (Pristidae) revealed that negligible turbulent flow is generated from all rostra during lateral swipe prey manipulation and swimming. These results suggest that sawfishes are effective stealth hunters that may not be detected by their teleost prey's lateral line sensory system during pursuits. Moreover, during lateral swipes, the rostra were found to induce little velocity into the surrounding fluid. Consistent with previous data of sawfish feeding behaviour, these data indicate that the rostrum is therefore unlikely to be used to stir up the bottom to uncover benthic prey. Whilst swimming with the rostrum inclined at a small angle to the horizontal, the coefficient of drag of the rostrum is relatively low and the coefficient of lift is zero.


Subject(s)
Feeding Behavior , Hydrodynamics , Skates, Fish/physiology , Swimming/physiology , Animals , Lateral Line System
5.
Brain Behav Evol ; 78(2): 139-49, 2011.
Article in English | MEDLINE | ID: mdl-21829004

ABSTRACT

The distribution and density of the ampullary electroreceptors in the skin of elasmobranchs are influenced by the phylogeny and ecology of a species. Sensory maps were created for 4 species of pristid sawfish. Their ampullary pores were separated into pore fields based on their innervation and cluster formation. Ventrally, ampullary pores are located in 6 areas (5 in Pristis microdon), covering the rostrum and head to the gills. Dorsally, pores are located in 4 areas (3 in P. microdon), which cover the rostrum, head and may extend slightly onto the pectoral fins. In all species, the highest number of pores is found on the dorsal and ventral sides of the rostrum. The high densities of pores along the rostrum combined with the low densities around the mouth could indicate that sawfish use their rostrum to stun their prey before ingesting it, but this hypothesis remains to be tested. The directions of ampullary canals on the ventral side of the rostrum are species specific. P. microdon possesses the highest number of ampullary pores, which indicates that amongst the study species this species is an electroreception specialist. As such, juvenile P. microdon inhabit low-visibility freshwater habitats.


Subject(s)
Elasmobranchii/anatomy & histology , Head/innervation , Sense Organs/anatomy & histology , Sensory Receptor Cells/cytology , Skin/innervation , Adaptation, Physiological/physiology , Animals , Biological Evolution , Elasmobranchii/physiology , Electromagnetic Phenomena , Female , Head/physiology , Male , Predatory Behavior/physiology , Sense Organs/physiology , Sensory Receptor Cells/physiology , Species Specificity
6.
Brain Behav Evol ; 78(2): 150-61, 2011.
Article in English | MEDLINE | ID: mdl-21829005

ABSTRACT

The lateral line system allows elasmobranchs to detect hydrodynamic movements in their close surroundings. We examined the distribution of pit organs and lateral line canals in 4 species of sawfish (Anoxypristis cuspidata, Pristis microdon, P. clavata and P. zijsron). Pit organs could only be located in A. cuspidata, which possesses elongated pits that are lined by dermal denticles. In all 4 pristid species, the lateral line canals are well developed and were separated into regions of pored and non-pored canals. In all species the tubules that extend from pored canals form extensive networks. In A. cuspidata, P. microdon and P. clavata, the lateral line canals on both the dorsal and ventral surfaces of the rostrum possess extensively branched and pored tubules. Based on this morphological observation, we hypothesized that these 3 species do not use their rostrum to search in the substrate for prey as previously assumed. Other batoids that possess lateral line canals adapted to perceive stimuli produced by infaunal prey possess non-pored lateral line canals, which also prevent the intrusion of substrate particles. However, this hypothesis remains to be tested behaviourally in pristids. Lateral line canals located between the mouth and the nostrils are non-pored in all 4 species of sawfish. Thus this region is hypothesized to perceive stimuli caused by direct contact with prey before ingestion. Lateral line canals that contain neuromasts are longest in P. microdon, but canals containing neuromasts along the rostrum are longest in A. cuspidata.


Subject(s)
Elasmobranchii/anatomy & histology , Lateral Line System/anatomy & histology , Mechanoreceptors/cytology , Sense Organs/anatomy & histology , Sensory Receptor Cells/cytology , Adaptation, Physiological/physiology , Animals , Elasmobranchii/physiology , Female , Head/innervation , Head/physiology , Lateral Line System/physiology , Male , Mechanoreceptors/physiology , Predatory Behavior/physiology , Pressure , Sense Organs/physiology , Sensory Receptor Cells/physiology , Species Specificity
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