Neural Correlates of Executive Control in the Avian Brain

Jonas Rose,Michael Colombo,Richard G M Morris

doi:10.1371/journal.pbio.0030190

Abstract

Executive control, the ability to plan one's behaviour to achieve a goal, is a hallmark of frontal lobe function in humans and other primates. In the current study we report neural correlates of executive control in the avian nidopallium caudolaterale, a region analogous to the mammalian prefrontal cortex. Homing pigeons (Columba livia) performed a working memory task in which cues instructed them whether stimuli should be remembered or forgotten. When instructed to remember, many neurons showed sustained activation throughout the memory period. When instructed to forget, the sustained activation was abolished. Consistent with the neural data, the behavioural data showed that memory performance was high after instructions to remember, and dropped to chance after instructions to forget. Our findings indicate that neurons in the avian nidopallium caudolaterale participate in one of the core forms of executive control, the control of what should be remembered and what should be forgotten. This form of executive control is fundamental not only to working memory, but also to all cognition.

Highlights

In 1861, Paul Broca [1] proclaimed that the ‘‘majesty of the human’’ could be attributed to its superior faculties, such as abstraction and judgement, and that these superior faculties lie within the province of the ‘‘anterior lobes of the brain.’’ Today the picture has changed little, and the frontal lobes, in particular the prefrontal cortex (PFC), are viewed as the repository of a host of higher-order faculties such as control of action, temporal organization of behaviour, sequencing, goal-directed behaviour, abstract and conceptual thinking, creativity, reasoning, and cognitive flexibility, to name a few [2,3,4,5]
Our findings show that remembering and forgetting are both well controlled and active processes that can be engaged and disengaged at any time [16,34]
The nidopallium caudolaterale (NCL) and PFC are not homologous structures [36], the evidence we review below does suggest that they are analogous structures

Summary

Introduction

In 1861, Paul Broca [1] proclaimed that the ‘‘majesty of the human’’ could be attributed to its superior faculties, such as abstraction and judgement, and that these superior faculties lie within the province of the ‘‘anterior lobes of the brain.’’ Today the picture has changed little, and the frontal lobes, in particular the prefrontal cortex (PFC), are viewed as the repository of a host of higher-order faculties such as control of action, temporal organization of behaviour, sequencing, goal-directed behaviour, abstract and conceptual thinking, creativity, reasoning, and cognitive flexibility, to name a few [2,3,4,5] Often these faculties are subsumed under two broad headings that define PFC function: working memory and executive control. This sustained activation, commonly referred to as delay activity because it occurs during the delay (memory) portion of a working memory task, is believed to represent a neural correlate of working memory [12,13,14,15,16]

Methods

Results

Conclusion