Litcius/Paper detail

Temperature sensitivity and temperature response across development in the Drosophila larva

Anastasiia Evans, Anggie J Ferrer, Erica Fradkov, Joseph Shomar, Joshua Forer, Mason Klein

2023Frontiers in Molecular Neuroscience16 citationsDOIOpen Access PDF

Abstract

larvae and also the physical and sensory effects of temperature variation on locomotion and navigation. In particular we characterize how sensory neuronal and behavioral responses to temperature variation both change across the development of the larva. Looking at a wide range of non-nociceptive isotropic thermal environments, we characterize the dependence of speed, turning rate, and other behavioral components on temperature, distinguishing the physical effects of temperature from behavior changes based on sensory processing. We also characterize the strategies larvae use to modulate individual behavioral components to produce directed navigation along thermal gradients, and how these strategies change during physical development. Simulations based on modified random walks show where thermotaxis in each developmental stage fits into the larger context of possible navigation strategies. We also investigate cool sensing neurons in the larva's dorsal organ ganglion, characterizing neural response to sine-wave modulation of temperature while performing single-cell-resolution 3D imaging. We determine the sensitivity of these neurons, which produce signals in response to extremely small temperature changes. Combining thermotaxis results with neurophysiology data, we observe, across development, sensitivity to temperature change as low as a few thousandths of a °C per second, or a few hundredths of a °C in absolute temperature change.

Topics & Concepts

NeuroscienceSensory systemContext (archaeology)NeurophysiologyBiological systemBiologySensitivity (control systems)EngineeringPaleontologyElectronic engineeringNeurobiology and Insect Physiology ResearchPhysiological and biochemical adaptationsInsect and Arachnid Ecology and Behavior