The quadratic function graphed above models a particular measure of animal diversity as a function of

Choice C is correct. Each point on the graph represents the elevation x, in meters, and the corresponding measure of animal diversity y in a region of Switzerland. Therefore, the point on the graph with the greatest y-coordinate represents the loion that has the greatest measure of animal diversity in the region. The greatest y-coordinate of any point on the graph is approximately 13,500. The x-coordinate of that point is approximately 1,250. Therefore, the closest elevation at which the animal diversity is the greatest is 1,250 meters.

Choice A is incorrect. This value is closest to the greatest y-coordinate of any point on the graph and therefore represents the greatest measure of animal diversity, not the elevation where the greatest measure of animal diversity occurs. Choice B is incorrect. At an elevation of 3,000 meters the measure of animal diversity is approximately 4,000. Because there are points on the graph with greater y-coordinates, 4,000 can’t be the greatest measure of animal diversity, and 3,000 meters isn’t the elevation at which the greatest measure of animal diversity occurs. Choice D is incorrect. At an elevation of 250 meters, the measure of animal diversity is approximately 11,000. Because there are points on the graph with greater y-coordinates, 11,000 can’t be the greatest measure of animal diversity and 250 meters isn’t the elevation at which the greatest measure of animal diversity occurs.