Ecomorphological variation in shell shape of the freshwater turtle Pseudemys concinna inhabiting different aquatic flow regimes

Rivera, Gabriel

doi:10.1093/icb/icn088

Cited by 78 publications

(88 citation statements)

References 49 publications

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“…DISCUSSION When only shape (and not size) is taken into account, the shells of female G. insculpta and C. picta exhibit lower average stresses for a given load, and therefore may be said to be stronger than those of their male counterparts. Such a pattern is not unexpectedfemale turtles are known to develop taller, more rounded shells than males for many species (e.g., Tucker et al, 1998), and such shapes are conventionally considered to be better at resisting failure during loading from predators (e.g., Rivera, 2008;Stayton, 2009). The greater stresses exhibited by G. insculpta models with concave plastra are also expected-a concave structure tends to exhibit larger amounts of tension, compared with a flat structure, when stressed (Currey, 2006;Wainwright et al, 1982).…”

Section: Resultsmentioning

confidence: 97%

“…For example, the increased height of their shells may increase females' ability to resist loads (Tucker et al, 1998). However, although the taller shell is beneficial for protection and reproduction, it may negatively affect the hydrodynamic properties of female turtle shells by increasing drag (Rivera, 2008). The narrower, flatter shell of male turtles probably produces a lower drag coefficient (Rivera, 2008) and increases swimming performance, but this flatter shell may make the shell weaker during loading.…”

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confidence: 99%

“…However, although the taller shell is beneficial for protection and reproduction, it may negatively affect the hydrodynamic properties of female turtle shells by increasing drag (Rivera, 2008). The narrower, flatter shell of male turtles probably produces a lower drag coefficient (Rivera, 2008) and increases swimming performance, but this flatter shell may make the shell weaker during loading. These potential functional differences can in turn affect other aspects of turtle natural history.…”

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confidence: 99%

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Sexual Dimorphism in the Greek Tortoise: A Test of the Body Shape Hypothesis

Kaddour¹,

Mouden²,

Slimani³

et al. 2008

Chelonian Conservation and Biology

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In most animal species, it is expected that females should exhibit a greater abdominal volume than males to hold the progeny, when compared with females, males should exhibit more developed attributes that enhance mobility. We tested this hypothesis in the Greek tortoise. In chelonians, a reduction of the openings in the shell improves protection against predation but also constrains the abdominal volume and limits the space available to move the limbs. As expected, our data show that the shell provides a larger abdominal volume relative to tortoise size in females than in males. In males, deep notches in the shell and a reduction of several plastron plates offer more freedom to the limbs and to the tail; these characteristics presumably enhance mating success. Further studies are necessary to assess the applicability of these results in other chelonians, notably freshwater and marine turtles

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Section: Resultsmentioning

confidence: 97%

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confidence: 99%

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confidence: 99%

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Sexual Dimorphism in the Greek Tortoise: A Test of the Body Shape Hypothesis

Kaddour¹,

Mouden²,

Slimani³

et al. 2008

Chelonian Conservation and Biology

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“…Morphological differences have been documented between lotic and lentic populations based on specific ecological parameters such as water velocity. Water velocity was found to have altered the height to length ratio of the carapace of the turtle, Pseudemys concinna (Rivera 2008) and also changed growth rates and body condition of freshwater drum Aplodinotus grunniens (Rypel et al 2006). Morphological differences were found in blacktail shiner Cyprinella venusta as lentic individuals had deeper bodies and a shorter dorsal fin base that was located more anterior than lotic individuals (Haas et al 2010).…”

Section: Discussionmentioning

confidence: 99%

Swimming and jumping ability of 10 Great Plains fish species

Prenosil

Koupal

Grauf

et al. 2015

Journal of Freshwater Ecology

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Stream fragmentation can be detrimental to lotic fish species by preventing important life history movements. The maximum swimming speed and jumping ability of 10 stream fish species were evaluated to describe potential water velocity and height barriers to fish movement. A 10-L swim tunnel was used to test maximum swimming performance and an artificial waterfall with an adjustable weir was used to test jumping performance. All tested fish were between 30 and 100 mm total length. Mean maximum swimming velocity ranged from 37.5 § 1.2 cm/s for mosquitofish to 65.0 § 1.7 cm/s for largemouth bass and jumping ability ranged from 0 cm for bluegill to 13 cm for green sunfish. Differences in swimming and jumping ability demonstrate how limits to dispersal can be taxa specific and therefore, impact the conservation of rare species and management of exotic species. The values determined in this study can be useful in creating models to predict barriers to fish passage.

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“…Although a number of studies have examined aspects of swimming in aquatic turtles, including kinematics (Davenport et al, 1984;Pace et al, 2001;Renous et al, 2008;Zug, 1971), motor control (Blob et al, 2008;Gillis and Blob, 2001; Rivera and Blob, 2010), maneuverability (Heithaus et al, 2002;Rivera et al, 2006) and hydrodynamic implications of shell morphology (Aresco and Dobie, 2000;Claude et al, 2003;Lubcke and Wilson, 2007;Rivera, 2008;Rivera and Claude, 2008), relatively little is known about hydrodynamic stability in this lineage. Dougherty et al examined stability in post-hatchlings of two species of marine turtles [Caretta caretta (Linnaeus 1758) and Chelonia mydas (Linnaeus 1758)], providing a quantitative description of recoil motions throughout the limb cycle during rectilinear swimming using synchronous flapping (i.e.…”

Section: Introductionmentioning

confidence: 99%

Hydrodynamic stability of the painted turtle (Chrysemys picta): effects of four-limbed rowing versus forelimb flapping in rigid-bodied tetrapods

Rivera

Blob

2011

Journal of Experimental Biology

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SUMMARYHydrodynamic stability is the ability to resist recoil motions of the body produced by destabilizing forces. Previous studies have suggested that recoil motions can decrease locomotor performance, efficiency and sensory perception and that swimming animals might utilize kinematic strategies or possess morphological adaptations that reduce recoil motions and produce more stable trajectories. We used high-speed video to assess hydrodynamic stability during rectilinear swimming in the freshwater painted turtle (Chrysemys picta). Parameters of vertical stability (heave and pitch) were non-cyclic and variable, whereas measures of lateral stability (sideslip and yaw) showed repeatable cyclic patterns. In addition, because freshwater and marine turtles use different swimming styles, we tested the effects of propulsive mode on hydrodynamic stability during rectilinear swimming, by comparing our data from painted turtles with previously collected data from two species of marine turtle (Caretta caretta and Chelonia mydas). Painted turtles had higher levels of stability than both species of marine turtle for six of the eight parameters tested, highlighting potential disadvantages associated with 'aquatic flight'. Finally, available data on hydrodynamic stability of other rigid-bodied vertebrates indicate that turtles are less stable than boxfish and pufferfish.

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Ecomorphological variation in shell shape of the freshwater turtle Pseudemys concinna inhabiting different aquatic flow regimes

Cited by 78 publications

References 49 publications

Sexual Dimorphism in the Greek Tortoise: A Test of the Body Shape Hypothesis

Sexual Dimorphism in the Greek Tortoise: A Test of the Body Shape Hypothesis

Swimming and jumping ability of 10 Great Plains fish species

Hydrodynamic stability of the painted turtle (Chrysemys picta): effects of four-limbed rowing versus forelimb flapping in rigid-bodied tetrapods

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