Jordan Balaban scite author profile

Jordan Balaban

5Publications

60Citation Statements Received

174Citation Statements Given

How they've been cited

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202

168

Affiliations

University of California, Irvine, University of Rhode Island

Publications

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Burrowing behavior, habitat, and functional morphology of the Pacific sand lance (Ammodytes personatus)

Bizzarro

Peterson²,

Blaine³

et al. 2016

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Abstract-The Pacific sand lance (Ammodytes personatus) is a small, elongate forage fish that spends much of its life buried in the seafloor. We determined that the Pacific sand lance can burrow in a wide variety of sediments from silt to gravel, but it prefers coarse sand (0.50-1.00 mm grain size). In the absence of coarse sand, the Pacific sand lance chooses larger grain sizes over smaller ones. These preferences are independent of light or the compaction of sediment, and therefore indicate that visual cues and ease of entry are not primary means of choosing burial substrate. Instead, we speculate that the Pacific sand lance is morphologically adapted for rapid mobility in coarse sand and that coarse sand has enough interstitial spaces to enable respiration during protracted immersion. As an obligate burrower in specific sediments, the Pacific sand lance is a good candidate for habitat-based management. Substrate maps of 3 fishing grounds in southeast Alaska where the Pacific sand lance is abundant and where habitat-based management is practiced were used to create potential habitat maps. Different geologic histories have resulted in variable amounts of preferred (sand-gravel), suitable (sand mixed with silt, cobble-boulder, or rock outcrop), and unsuitable (mud, pebble-boulder) habitat for this species among regions.

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Fatigue resistant jaw muscles facilitate long-lasting courtship behaviour in the southern alligator lizard (Elgaria multicarinata)

et al. 2020

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The southern alligator lizard ( Elgaria multicarinata ) exhibits a courtship behaviour during which the male firmly grips the female's head in his jaws for many hours at a time. This extreme behaviour counters the conventional wisdom that reptilian muscle is incapable of powering high-endurance behaviours. We conducted in situ experiments in which the jaw-adductor muscles of lizards were stimulated directly while bite force was measured simultaneously. Fatigue tests were performed by stimulating the muscles with a series of tetanic trains. Our results show that a substantial sustained force gradually develops during the fatigue test. This sustained force persists after peak tetanic forces have declined to a fraction of their initial magnitude. The observed sustained force during in situ fatigue tests is consistent with the courtship behaviour of these lizards and probably reflects physiological specialization. The results of molecular analysis reveal that the jaw muscles contain masticatory and tonic myosin fibres. We propose that the presence of tonic fibres may explain the unusual sustained force properties during mate-holding behaviour. The characterization of muscle properties that facilitate extreme performance during specialized behaviours may reveal general mechanisms of muscle function, especially when done in light of convergently evolved systems exhibiting similar performance characteristics.

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Mechanical properties of the hyomandibula in four shark species

2015

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Sharks have cartilaginous elements that support the jaws and are subjected to variable loads. The aim of this study was to understand how these elements, the hyomandibulae, respond to compressive loads, and to describe the structural level mechanical properties of mineralized cartilage. Mechanical stiffness and effective Poisson's ratio of the hyomandibular cartilage were measured in four species of sharks (white-spotted bamboo, Chiloscyllium plagiosum; spiny dogfish, Squalus acanthias; sandbar, Carcharhinus plumbeus; and dusky smoothhound, Mustelus canis). The former two are suction feeders, while the latter two are bite feeders. The hyomandibulae of suction feeders were expected to be stiffer because of the increased loads on their hyomandibulae. Bamboo sharks, as the strongest suction feeders, have the stiffest hyomandibula with a stiffness of 106.12 MPa. The stiffness of spiny dogfish, sandbar sharks, and dusky smoothhounds were 41.58, 58.00, and 49.62 MPa, respectively. The proportion of the minerals found in the cross-section of the hyomandibula determines the elements stiffness. Effective Poisson's ratio was measured at low axial strains and was highly variable ranging from 2.3 × 10(-5) to 4.3 × 10(-1). This implies that the behavior of the hyomandibulae under load will be very different in different species. Furthermore, this wide range of values for the ratio has potential implications for modeling techniques, such as finite element modeling, which use Poisson's ratio as a fundamental input.

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Lowering metabolic rate mitigates muscle atrophy in western fence lizards

Balaban

Azizi

2017

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Extended periods of skeletal muscle disuse can cause a significant loss of contractile proteins, which compromises the ability to generate force, mechanical work or power, thus compromising locomotor performance. Several hibernating organisms can resist muscle atrophy despite months of inactivity. This resistance has been attributed to a reduction in body temperature and metabolic rate and activation of physiological pathways that counteract pathways of protein degradation. However, in these systems, such strategies are not mutually exclusive and the effects of these mechanisms can be difficult to separate. In this study, we used the western fence lizard, , as an ectothermic model to determine whether a reduction in metabolic rate is sufficient to resist muscle atrophy. We induced atrophy through sciatic denervation of the gastrocnemius muscle and housed lizards at either 15 or 30°C for 6-7 weeks. Following treatment, we used muscle ergometry to measure maximum isometric force, the force-velocity relationship and contractile dynamics in the gastrocnemius. This approach allowed us to relate changes in the size and morphology to functional metrics of contractile performance. A subset of samples was used to histologically determine muscle fiber types. At 30°C, denervated muscles had a larger reduction in muscle mass, physiological cross-sectional area and maximum isometric force than at 15°C. Maximum shortening velocity of the muscle decreased slightly in animals housed at 30°C but did not change in those housed at 15°C. Our results suggest that metabolic rate alone can influence the rate of muscle atrophy and that ectothermic vertebrates may have an intrinsic mechanism to resist muscle atrophy during seasonal periods of inactivity.

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The Morphology and Biomechanics of Jaw Structures in Chondrichthyes

Balaban¹

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Jordan Balaban

Burrowing behavior, habitat, and functional morphology of the Pacific sand lance (Ammodytes personatus)

Fatigue resistant jaw muscles facilitate long-lasting courtship behaviour in the southern alligator lizard (Elgaria multicarinata)

Mechanical properties of the hyomandibula in four shark species

Lowering metabolic rate mitigates muscle atrophy in western fence lizards

The Morphology and Biomechanics of Jaw Structures in Chondrichthyes

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