Executive Control of Sequence Behavior in Pigeons Involves Two Distinct Brain Regions.

Executive functions arise from multiple regions of the brain acting in concert. To facilitate such cross-regional computations, the brain is organized into distinct executive networks, like the frontoparietal network. Despite similar cognitive abilities across many domains, little is known about such executive networks in birds. Recent advances in avian fMRI have shown a possible subset of regions, including the nidopallium caudolaterale (NCL) and the lateral part of medial intermediate nidopallium (NIML), that may contribute to complex cognition, forming an action control system of pigeons. We investigated the neuronal activity of NCL and NIML. Single-cell recordings were obtained during the execution of a complex sequential motor task that required executive control to stop executing one behavior and continue with a different one. We compared the neuronal activity of NIML to NCL and found that both regions fully processed the ongoing sequential execution of the task. Differences arose from how behavioral outcome was processed. Our results indicate that NCL takes on a role in evaluating outcome, while NIML is more tightly associated with ongoing sequential steps. Importantly, both regions seem to contribute to overall behavioral output as parts of a possible avian executive network, crucial for behavioral flexibility and decision-making. Significance Statement Executive control is required to reach behavioral goals. This is of particular importance when outcome contingencies change. To stop and switch ongoing behavior requires a neural basis of executive control, like the mammalian frontoparietal network. Using parallel neuronal recordings, we demonstrate that two regions of the pigeon brain participate in the organized execution of two different behavioral sequences and in the switch from one to the other. These results help to elucidate how different aspects of higher cognition are distributed across the brain of an important nonmammalian model species.