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Quantitative axial myology in two constricting snakes: Lampropeltis holbrooki and Pantherophis obsoletus
Author(s) -
Penning David A.
Publication year - 2018
Publication title -
journal of anatomy
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.932
H-Index - 118
eISSN - 1469-7580
pISSN - 0021-8782
DOI - 10.1111/joa.12799
Subject(s) - anatomy , myology , biology , zoology
Abstract A snake's body represents an extreme degree of elongation with immense muscle complexity. Snakes have approximately 25 different muscles on each side of the body at each vertebra. These muscles serially repeat, overlap, interconnect, and rarely insert parallel to the vertebral column. The angled muscles mean that simple measurements of anatomical cross‐sectional area ( ACSA , perpendicular to the long‐axis of the body) serve only as proxies for the primary determinant of muscle force, physiological cross‐sectional area ( PCSA , area perpendicular to the muscle fibers). Here, I describe and quantify the musculature of two intraguild constrictors: kingsnakes ( Lampropeltis holbrooki ) and ratsnakes ( Pantherophis obsoletus ) whose predation performance varies considerably. Kingsnakes can produce significantly higher constriction pressures compared with ratsnakes of similar size. In both snakes, I provide qualitative descriptions, detail previously undescribed complexity, identify a new lateral muscle, and provide some of the first quantitative measures of individual muscle and whole‐body PCSA . Furthermore, I compare measurements of ACSA with measurements of PCSA . There was no significant difference in PCSA of muscles between kingsnakes and ratsnakes. There is, however, a strong relationship between ACSA and PCSA measurements. I could not identify a significant difference in musculature between kingsnakes and ratsnakes that explains their different levels of constriction performance. Unmeasured components of muscle function, such as endurance and force production, might account for differences in performance between two species with similar muscle structure.

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