Problem-solving without a cortex: inferior lobe drives goal-directed object manipulation in cichlid fish

Goal-directed object manipulation and problem-solving, which are necessary to evolve tool use behaviors, have long been linked to the expansion of the telencephalon in mammals and birds. Here, we show that goal-directed object manipulation in cichlid fish is driven by a non-telencephalic brain structure, the inferior lobe. Using manganese-enhanced MRI (MEMRI) on an ultra-high field 17.2 Tesla MRI system, we show that the inferior lobe is activated during a puzzle-box opening task. Furthermore, magnetic resonance (MR)-guided High Intensity Focused Ultrasound (HIFU) lesions profoundly impair fine motor coordination during this task without affecting general locomotion or motivation. These results reveal that cortex-like cognitive functions can arise from non-telencephalic brain structures in teleosts. With no homolog in tetrapods, the inferior lobe is a critical hub for flexible behavior in teleost fish. Our findings highlight the existence of alternative neural architectures for the emergence of complex cognition.