Fig. 1. Stimuli and behavioral paradigms.A, Stimuli for the 4 ring/5 bar test. The dot in the top right represents the fixation point, and the dashed circle represents the CRF. Four rings surround the CRF at positions a–d, and the rest of the screen is filled with distractor rings. Ring diameter is 0.5 CRF diameter. Bars are presented (individually) at positions1–5, which span the CRF along the axis perpendicular to bar orientation. Bar length is 0.5 CRF diameter, and bar spacing is 0.25 CRF diameter. B, Sequence of trial events for the 4 ring/5 bar test (example). The trial begins with the appearance of the fixation point and background rings (including rings at three of the positions near the CRF). After the animal initiates fixation and depresses the response lever, there is a 500 msec delay, and then the target ring appears at the remaining position near the CRF. The delayed onset denotes the target position for that trial. Bars are flashed individually and in random order at the five locations spanning the CRF for 150 msec each at 1 sec intervals beginning 1 sec after target onset. At a random time point no less than 500 msec after target onset, a quadrant is deleted from the target ring. The animal must respond to this by releasing the response lever. C, Stimuli for12 ring test. The CRF is surrounded by 12 potential target rings, each with a diameter equal to 0.25 CRF diameter, arranged in a square array with a spacing equal to 0.75 CRF diameter. The stimulus is a set of three bars presented simultaneously in the center of the CRF. Bar length is 0.5 CRF diameter, and bar spacing is 0.25 CRF diameter.D, Sequence of trial events for the sustained bartest. The fixation point, background rings, and target rings appear simultaneously at the beginning of the trial. The animal must initiate fixation and depress the response lever. Then, after a 1 sec delay, the target ring blinks off for 100 msec. At a random time point no less than 500 msec after the blink, a quadrant is deleted from the target ring and the animal must respond by releasing the response lever.