Wells, Jonathan K., Crampton, William G. R. (2006): Scientific note A portable bio-amplifier for electric fish research: design and construction. Neotropical Ichthyology 4 (2): 295-299, DOI: 10.1590/S1679-62252006000200018, URL: http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1679-62252006000200018&lng=en&tlng=e
The protection of fish communities at man-made facilities and barriers has a long history of signifi...
Biomechanics has emerged in the past twenty years as a burgeoning enterprise that integrates approac...
Inspired by the eel’s electric organ, Thomas Schroeder and colleagues built a device that provides e...
Fig. 3. Dipole electrodes designed for field (a) and laboratory (b, c) use. For each, positive pole ...
Crampton, William G. R., Wells, Jonathan K., Smyth, Charles, Walz, Steven A. (2007): Scientific Note...
We provide notes on the design and construction of an Electric Fish Finder - a portable differential...
We provide notes on the design and construction of an \u27Electric Fish Finder – a self contained, p...
Haag, Michael A., Lambert, Jeffrey C., Waddell, Joseph C., Crampton, William G.R. (2019): A new and ...
Autonomous electronic devices, especially micro devices, are limited by the finite energy capacities...
In 1956 Parker S. Trefethen described an external ultrasonic tag for tracking fish. This tag was des...
Electrofishing involves the use of an electrical current to stun a fish so that it can be caught. El...
Our Great Lakes are under attack by the invasive Asian carp. If they were to establish themselves in...
DOI: 10.1039/c1em10703h This paper introduces a new bio-assessment tool, the mini-mobile en (MMU). T...
As a result of growing demand for immediate-release sedatives in fisheries research, electroimmobili...
Some fishes test their environment by generating electric fields outside their bodies (man's first c...
The protection of fish communities at man-made facilities and barriers has a long history of signifi...
Biomechanics has emerged in the past twenty years as a burgeoning enterprise that integrates approac...
Inspired by the eel’s electric organ, Thomas Schroeder and colleagues built a device that provides e...
Fig. 3. Dipole electrodes designed for field (a) and laboratory (b, c) use. For each, positive pole ...
Crampton, William G. R., Wells, Jonathan K., Smyth, Charles, Walz, Steven A. (2007): Scientific Note...
We provide notes on the design and construction of an Electric Fish Finder - a portable differential...
We provide notes on the design and construction of an \u27Electric Fish Finder – a self contained, p...
Haag, Michael A., Lambert, Jeffrey C., Waddell, Joseph C., Crampton, William G.R. (2019): A new and ...
Autonomous electronic devices, especially micro devices, are limited by the finite energy capacities...
In 1956 Parker S. Trefethen described an external ultrasonic tag for tracking fish. This tag was des...
Electrofishing involves the use of an electrical current to stun a fish so that it can be caught. El...
Our Great Lakes are under attack by the invasive Asian carp. If they were to establish themselves in...
DOI: 10.1039/c1em10703h This paper introduces a new bio-assessment tool, the mini-mobile en (MMU). T...
As a result of growing demand for immediate-release sedatives in fisheries research, electroimmobili...
Some fishes test their environment by generating electric fields outside their bodies (man's first c...
The protection of fish communities at man-made facilities and barriers has a long history of signifi...
Biomechanics has emerged in the past twenty years as a burgeoning enterprise that integrates approac...
Inspired by the eel’s electric organ, Thomas Schroeder and colleagues built a device that provides e...
DOI
Add to ORKG