Megan D. Gall scite author profile

In birds, differences in the extent and position of the binocular visual field reflect adaptations to varying foraging strategies, and the extent of the lateral portion of the field may reflect anti-predator strategies. The goal of this study was to describe and compare the visual fields of two ground-foraging passerines, House Finch Carpodacus mexicanus and House Sparrow Passer domesticus . We found that both species have a binocular field type that is associated with the accurate control of bill position when pecking. Both species have eye movements of relatively large amplitude, which can produce substantial variations in the configuration of the binocular fields. We propose that in these ground foragers, their relatively wide binocular fields could function to increase foraging efficiency by locating multiple rather than single food items prior to pecking events. The lateral fields of both species are wide enough to facilitate the detection of predators or conspecifics while head-down foraging. This suggests that foraging and scanning are not mutually exclusive activities in these species, as previously assumed. Furthermore, we found some slight, but significant, differences between species: House Sparrow binocular fields are both wider and vertically taller, and the blind area is wider than in House Finches. These differences may be related to variations in the degree of eye movements and position of the orbits in the skull.

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Drosophila variable nurse cells encodes arrest defective 1 (ARD1), the catalytic subunit of the major N‐terminal acetyltransferase complex

Wang

Mijares

Gall

et al. 2010

Developmental Dynamics

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Mutations in the Drosophila variable nurse cells (vnc) gene result in female sterility and oogenesis defects, including egg chambers with too many or too few nurse cells. We show that vnc corresponds to Arrest Defective1 (Ard1) and encodes the catalytic subunit of NatA, the major N-terminal acetyl-transferase complex. While N-terminal acetylation is one of the most prevalent covalent protein modifications in eukaryotes, analysis of its role in development has been challenging since mutants that compromise NatA activity have not been described in any multicellular animal. Our data show that reduced ARD1 levels result in pleiotropic oogenesis defects including abnormal cyst encapsulation, desynchronized cystocyte division, disrupted nurse cell chromosome dispersion, and abnormal chorion patterning, consistent with the wide range of predicted NatA substrates. Furthermore, we find that loss of Ard1 affects cell survival/ proliferation and is lethal for the animal, providing the first demonstration that this modification is essential in higher eukaryotes. Developmental Dynamics 239:2813-2827,

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Songbirds tradeoff auditory frequency resolution and temporal resolution

et al. 2011

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Physical tradeoffs may in some cases constrain the evolution of sensory systems. The peripheral auditory system, for example, performs a spectral decomposition of sound that should result in a tradeoff between frequency resolution and temporal resolution. We assessed temporal resolution in three songbird species using auditory brainstem responses to paired click stimuli. Temporal resolution was greater in house sparrows (Passer domesticus) than Carolina chickadees (Poecile carolinensis) and white-breasted nuthatches (Sitta carolinensis), as predicted based on previous observations of broader auditory filters (lower frequency resolution) in house sparrows. Furthermore, within chickadees, individuals with broader auditory filters had greater temporal resolution. In contrast to predictions however, temporal resolution was similar between chickadees and nuthatches despite broader auditory filters in chickadees. These results and the results of a model simulation exploring the effect of broadened auditory filter bandwidth on temporal resolution in the auditory periphery strongly suggest that frequency resolution constrains temporal resolution in songbirds. Furthermore, our results suggest that songbirds have greater temporal resolution than some mammals, in agreement with recent behavioral studies. Species differences in temporal resolution may reflect adaptations for efficient processing of species-specific vocalizations, while individual differences within species may reflect experience-based developmental plasticity or hormonal effects.

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Visual systems and vigilance behaviour of two ground-foraging avian prey species: white-crowned sparrows and California towhees

Fernández‐Juricic¹,

Gall²,

Dolan

et al. 2011

Animal Behaviour

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Species and sex effects on auditory processing in brown-headed cowbirds and red-winged blackbirds

Gall¹,

Brierley²,

Lucas³

2011

Animal Behaviour

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Megan D. Gall

The visual fields of two ground‐foraging birds, House Finches and House Sparrows, allow for simultaneous foraging and anti‐predator vigilance

Drosophila variable nurse cells encodes arrest defective 1 (ARD1), the catalytic subunit of the major N‐terminal acetyltransferase complex

Songbirds tradeoff auditory frequency resolution and temporal resolution

Visual systems and vigilance behaviour of two ground-foraging avian prey species: white-crowned sparrows and California towhees

Species and sex effects on auditory processing in brown-headed cowbirds and red-winged blackbirds

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