10/3/2011 1 L22. Mate Recognition and Courtship in Electric Fish Oct. 3, 2011 Carl D. Hopkins BIONB 4240 Announcements • Writing assignment and discussion Wednesday • No discussion Wednesday 10/12 after fall break • Monday 10/17: Wikipedia Workshop Project outline: 7 main themes or Headings Preliminary bibliography (complete bibliographic references required for every source used in this project. On Wikipedia , every statement, every bit of evidence is supported by a primary or a secondary reference source. Wikipedia is not the place for original opinions theories, nor is it the place for publishing original data). REVIEW: Neuronal Implementation of the Jamming Avoidance Response (JAR) 402 Hz 398 Hz EOD Frequency (Hz) Together, T-units and P-units provide the necessary information for executing the JAR +Df -Df Neuroanatomy of the JAR Heiligenberg (1991) In: Neural Nets in Electric Fish Spherical cells and pyramidal cells project to different laminae • Pyramidal cells project to several laminae in the torus (3, 5, 7, and 8) • Spherical cells project exclusively to lamina 6
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10/3/2011
1
L22. Mate Recognition and Courtship in Electric Fish
Oct. 3, 2011
Carl D. Hopkins
BIONB 4240
Announcements
• Writing assignment and discussion Wednesday
• No discussion Wednesday 10/12 after fall break
• Monday 10/17: Wikipedia Workshop
Project outline: 7 main themes or Headings
Preliminary bibliography (complete bibliographic references required for every source used in this project. On Wikipedia, every statement, every bit of evidence is supported by a primary or a secondary reference source. Wikipedia is not the place for original opinions theories, nor is it the place for publishing original data).
REVIEW: Neuronal Implementation of the Jamming Avoidance Response (JAR)
402 Hz Df = -4 Hz
398 Hz Df = +4 Hz
410 Hz
390 Hz
Df = fneighbor - fown
EOD Frequency (Hz)
Together, T-units and P-units provide the
necessary information for executing the JAR
+Df -Df
Neuroanatomy of the JAR
Heiligenberg (1991) In: Neural Nets in Electric Fish
Spherical cells
and pyramidal
cells project to
different laminae
• Pyramidal cells
project to several
laminae in the torus
(3, 5, 7, and 8)
• Spherical cells
project exclusively to
lamina 6
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2
Neuroanatomy of the JAR sPPn
-Df-selective
E/adv
I/del
nE integrates input from sign-selective neurons
in the torus and drives prepacemaker nuclei
nE
nE
PPn
sPPn
Pn
+Df-selective
E/del
I/adv
The African fish Gymnarchus
also performs the JAR
The electrosensory systems of Gymnarchus
and Eigenmannia evolved independently
Gymnarchus Eigenmannia
electroreception electroreception
EOD EOD
Neuronal implementation of
the JAR in Gymnarchus
Masashi Kawasaki
• Like Eigenmannnia, Gymnarchus does
not have a corollary discharge
• Gymnarchus uses the same algorithm
of combining information about
amplitude and differential phase
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Gymnarchus also has separate amplitude-
and time-coding primary afferents
S-unit
O-unit
Amplitude-sensitive cell in ELL
• Gymnarchus has E-units
and I-units in ELL, just
like Eigenmannia
Phase-sensitive cell in ELL
• Eigenmannnia
calculates differential
phase in the torus
• Gymnarchus
calculates differential
phase in ELL
Sign-selective cells in the torus
• Gymnarchus has sign-
selective neurons in the
torus, just like Eigenmannia
1) It is sometimes advantageous to study novel behaviors
because they are well-suited to neurophysiological study
2) Task-specific functions are encoded in separate, often
parallel, channels. Time and amplitude channels serve
specialized functions (similar to barn owl)
3) Recognition units emerge at higher levels in the sensory
hierarchy. The complex recognition properties arise from
successive analysis of features
4) Recognition units may drive motor output
5) Identical computational algorithms may evolve in unrelated
species by convergent evolution
6) Neuronal substrates for similar functions may involve very
different neuronal subtypes
What have we learned from studying the JAR? MORMYRIFORMES
GYMNOTIFORMES
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Relevant Evolutionary Principles
• Homologous Traits: common traits found in related species
• similarities result from common ancestry
• differences result from divergent evolution (selection
operating in different directions)
• Homoplastic Traits: common traits found in un-related species
• differences reflect different ancestry
• similarities reflect convergent evolution (selection operating in
similar directions)
•These general principles can be used to make inferences
about functional characteristics resulting from selection
• Gymnotiformes and Mormyriformes
• Differences: different evolutionary histories
• Similarities: common selective pressures
Independent evolution of electric receptors and electric organs