Vincent Coppola scite author profile

For more than 30 years, a growing number of researchers have been attracted to the challenge of understanding the neurobiological organization of the avian hippocampal formation (HF) and its relationship to the remarkable spatial cognitive abilities of birds. In this selective review, we highlight recent anatomical and developmental findings that reveal a HF design that defies any simple comparison to the mammalian hippocampus and leaves unanswered the seemingly enduring question of whether a dentate gyrus homologue is to be found in HF. From a functional perspective, we highlight the recent discoveries that implicate HF in the use of space for memory pattern segregation and continued interest in the role HF neurogenesis may play in supporting memory function and its relationship to memory decline in aging birds. We also summarize data that nurture a fundamental reinterpretation of the role of HF in spatial cognition by suggesting HF involvement in spatial perception antecedent to any memory formation. Given the disproportionate adaptive significance of space for birds, which has led to the evolution of their exceptional navigational and memory abilities, there is little doubt that the avian HF will continue to provide important and unexpected insights into the neural basis of spatial cognition.

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An age-related deficit in spatial–feature reference memory in homing pigeons (Columba livia)

Coppola¹,

Flaim

Carney

et al. 2015

Behavioural Brain Research

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Hippocampal lesions in homing pigeons do not impair feature-quality or feature-quantity discrimination

Coppola

Spencer

Peterson

et al. 2014

Behavioural Brain Research

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Age-related spatial working memory deficits in homing pigeons (Columba livia).

Coppola¹,

Hough²,

Bingman³

2014

Behavioral Neuroscience

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The hippocampus is particularly susceptible to age-related degeneration that, like hippocampal lesions, is thought to lead to age-related decline in spatial memory and navigation. Lesions to the avian hippocampal formation (HF) also result in impaired spatial memory and navigation, but the relationship between aging and HF-dependent spatial cognition is unknown. To investigate possible age-related decline in avian spatial cognition, the current study investigated spatial working memory performance in older homing pigeons (10+ years of age). Pigeons completed a behavioral procedure nearly identical to the delayed spatial, win-shift procedure in a modified radial arm maze that has been previously used to study spatial working memory in rats and pigeons. The results revealed that the older pigeons required a greater number of choices to task completion and were less accurate with their first 4 choices as compared to younger pigeons (1-2 years of age). In addition, older pigeons were more likely to adopt a stereotyped sampling strategy, which explained in part their impaired performance. To the best of our knowledge, this study is the first to demonstrate an age-related impairment of HF-dependent, spatial memory in birds. Implications and future directions of the findings are discussed.

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Evidence for perceptual neglect of environmental features in hippocampal‐lesioned pigeons during homing

Gagliardo

Pollonara

Coppola

et al. 2014

Eur J of Neuroscience

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The importance of the vertebrate hippocampus in spatial cognition is often related to its broad role in memory. However, in birds, the hippocampus appears to be more specifically involved in spatial processes. The maturing of GPS-tracking technology has enabled a revolution in navigation research, including the expanded possibility of studying brain mechanisms that guide navigation in the field. By GPS-tracking homing pigeons released from distant, unfamiliar sites prior to and after hippocampal lesion, we observed, as has been reported previously, impaired navigational performance post-lesion over the familiar/memorized space near the home loft, where topographic features constitute an important source of navigational information. The GPS-tracking revealed that many of the lost pigeons, when lesioned, approached the home area, but nevertheless failed to locate their loft. Unexpectedly, when they were hippocampal-lesioned, the pigeons showed a notable change in their behaviour when navigating over the unfamiliar space distant from home; they actually flew straighter homeward-directed paths than they did pre-lesion. The data are consistent with the hypothesis that, following hippocampal lesion, homing pigeons respond less to unfamiliar visual, topographic features encountered during homing, and, as such, offer the first evidence for an unforeseen, perceptual neglect of environmental features following hippocampal damage.

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Vincent Coppola

The maturation of research into the avian hippocampal formation: Recent discoveries from one of the nature's foremost navigators

An age-related deficit in spatial–feature reference memory in homing pigeons (Columba livia)

Hippocampal lesions in homing pigeons do not impair feature-quality or feature-quantity discrimination

Age-related spatial working memory deficits in homing pigeons (Columba livia).

Evidence for perceptual neglect of environmental features in hippocampal‐lesioned pigeons during homing

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