Основные понятия
Spiking history of polarization-sensitive neurons in the central complex of bumblebees facilitates faster responses to dynamic changes in polarization angles and reduces overall energy consumption during straight flight.
Аннотация
The study investigated the dynamic response properties of polarization-sensitive neurons in the central complex of bumblebees. The researchers performed intracellular recordings and stimulated the neurons with naturalistic polarized-light stimuli that simulated the perception of free-flying bumblebees.
Key highlights:
- Polarization-sensitive neurons in the central complex responded reliably across a wide range of rotation velocities, from 30°/s to 1920°/s, spanning the natural range of head rotations during flight.
- The neurons' responses showed a dependency on spiking history, with increased activity after inhibition and decreased activity after excitation.
- A computational model incorporating spiking history effects showed two main benefits:
- It facilitates faster responses to changes in polarization angles during highly dynamic flight maneuvers.
- It reduces overall population activity during straight flight, potentially conserving energy.
- The model also showed that spiking history can lead to the population activity changing faster than the actual stimulus, potentially allowing the bees to anticipate future head directions and compensate for their moment of inertia.
The findings suggest that the spiking history-dependent properties of central complex neurons enable a flexible and efficient encoding of polarization angles to support the bees' spatial orientation during natural flight behaviors.
Статистика
"Depending on rotation velocity between 50% and 93.8% of the responses were significantly phase-locked to the stimulus."
"The average spiking rate during stimulation with a constantly rotating polarizer was correlated with the rotation velocity, peaking at 60°/s and continuously decreasing towards higher velocities."
"The median deviation between modelled and measured preferred angle of polarization was between 10.93° and 16.93° at lower and medium high rotation velocities (30°/s-240°/s)."
"The median ratio between the population vector average (PVA) velocity and the stimulus velocity was significantly elevated to 1.17 for saccades that occurred after at least 200 ms of stationary polarization input, compared to 1.02 for other saccades."
Цитаты
"Spiking history has a directly impact on the overall population activity, which has two effects: First, it facilitates faster responses to stimulus changes during highly dynamic flight maneuvers, and increases sensitivity for course deviations during straight flight. Second, population activity during phases of constant polarization input is reduced, which might conserve energy during straight flight."