Publication date
April 2017
DOIAbstract
Pectoral fin ray (ray 3) flexural stiffness data for each species at different fin ray lengths (16.67, 50, and 83.33 % fin ray length)
Pectoral fin ray (ray 3) flexural stiffness data for each species at different fin ray lengths (16.67, 50, and 83.33 % fin ray length)
<p>*The streamwise position of maximum thickness is defined as the distance from the tip of lower ja...
<p>The radial number and segment number of this pectoral fin are 13 and 4, respectively (see the tex...
<p>The examples show the range of fineness in both pectoral fin (MPF, top row) and body and caudal f...
Raw pectoral fin surface area data (residuals of mass and standard length). Figure 3 of Dalziel et a...
Fins are an integral part of how fish move through their environment. The fins can be used for propu...
Fish image sources and corresponding pectoral fin aspect ratio data. Cat=additional image identifica...
Morphological data: body depth, body width, standard length, dorsal fin spine length, anal fin spine...
How fish modulate their fin stiffness during locomotive manoeuvres remains unknown. We show that cha...
Excel file containing pectoral fin ray afferent responses to fin ray bending. Fin rays were exposed ...
R data file containing list of unaligned landmarks of teleost pectoral fin skeleton, definition of s...
Fish use their fins for propulsion and maneuvering in a three dimensional environment. In addition, ...
This study describes a novel method for measuring pectoral fin aspect ratio (AR) on live coral-reef ...
A biorobotic pectoral fin was developed and used to study how the flexural rigidities of fin rays wi...
Figure 7. Linear regression plots for LS (A), FS (B), PS (C), DW (D), DL (E) and UL (F) against PL f...
Gill morphometric data for fish from sulfidic and non-sulfidic habitats, including total gill filame...
<p>*The streamwise position of maximum thickness is defined as the distance from the tip of lower ja...
<p>The radial number and segment number of this pectoral fin are 13 and 4, respectively (see the tex...
<p>The examples show the range of fineness in both pectoral fin (MPF, top row) and body and caudal f...
Raw pectoral fin surface area data (residuals of mass and standard length). Figure 3 of Dalziel et a...
Fins are an integral part of how fish move through their environment. The fins can be used for propu...
Fish image sources and corresponding pectoral fin aspect ratio data. Cat=additional image identifica...
Morphological data: body depth, body width, standard length, dorsal fin spine length, anal fin spine...
How fish modulate their fin stiffness during locomotive manoeuvres remains unknown. We show that cha...
Excel file containing pectoral fin ray afferent responses to fin ray bending. Fin rays were exposed ...
R data file containing list of unaligned landmarks of teleost pectoral fin skeleton, definition of s...
Fish use their fins for propulsion and maneuvering in a three dimensional environment. In addition, ...
This study describes a novel method for measuring pectoral fin aspect ratio (AR) on live coral-reef ...
A biorobotic pectoral fin was developed and used to study how the flexural rigidities of fin rays wi...
Figure 7. Linear regression plots for LS (A), FS (B), PS (C), DW (D), DL (E) and UL (F) against PL f...
Gill morphometric data for fish from sulfidic and non-sulfidic habitats, including total gill filame...
<p>*The streamwise position of maximum thickness is defined as the distance from the tip of lower ja...
<p>The radial number and segment number of this pectoral fin are 13 and 4, respectively (see the tex...
<p>The examples show the range of fineness in both pectoral fin (MPF, top row) and body and caudal f...
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