Two fundamental questions of interest with regard to the Andean Plateau are the mass balance of material needed to create and sustain a 3-4-km-high plateau and the relationship between the plateau and the bending of the Bolivian orocline. The link be- tween these two questions is the distribution of shortening through the Central Andes. Is crustal shortening suffi cient to support an isostatically compensated 60-70-km-thick crust? Is differential shortening between the hinge of the orocline and its limbs suffi cient to account for both physiographic curvature and measured rotations? Three-dimensional (3-D) models of deformation within curved orogens require, in addition to paleomagnetic data, viable two-dimensional estimates of dis- placements. To this end, we present new map data and use those data to derive estimates of shortening across the northern margin of the Andean Plateau. The cross-section extent, from the eastern edge of the volcanic arc to the foreland basin, is approximately one half of the physiographic width of the Andean Plateau in Peru. Cross-sectional shortening estimates in southern Peru (12-14°S) provide a preferred estimate of 123 km or 40% short- ening, with a minimum estimate of 58 km or 25% shortening and maximum estimate of 333 km or 65% shortening. The largest con- trolling factor on the magnitude of shorten- ing is where basement becomes involved in thrust belt deformation. Using our preferred shortening estimate, the differential shorten- ing between our cross section on the northern margin of the Bolivian orocline (12-14°S) and cross sections across the axis of the Bolivian orocline (17-18°S) is 177 km, corresponding to 23° of rotation. The differential shortening for the young (younger than 15 Ma) defor- mation of the Altiplano and Subandean re- gion between 12-14°S and 17-18°S is 88 km, correlating to 11.5° of rotation. While dif- ferential shortening can account for young (younger than 15 Ma) vertical-axis rotations, it cannot completely account for early 45- 35 Ma rotations (37° ± 15°). This suggests that forearc rotations refl ect both bending due to differential shortening, ~12°, as well as block rotations (~25°-30°), which facilitated defor- mation in a tightening core and transported material toward the center of the orocline. The preferred estimate of shortening is well short of the required 240-300 km of shorten- ing needed to account for a 60-70-km-thick crust under the entire plateau. This suggests that for an isostatically equilibrated crust, either (1) there is a signifi cant amount of shortening (~100-150 km) in the western half of the plateau that is hidden by the volcanic arc; or (2) crustal material is being added to the Peruvian section of the Andean Plateau, most likely through lower-crustal fl ow.
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