Abstract
We present compiled geochemical data of young (mostly Pliocene-present) intermediate magmatic rocks from continental collisional belts and correlations between their whole-rock Sr/Y and La/Yb ratios and modern crustal thickness. These correlations, which are similar to those obtained from subduction-related magmatic arcs, confirm that geochemistry can be used to track changes of crustal thickness changes in ancient collisional belts. Using these results, we investigate temporal variations of crustal thickness in the Qinling Orogenic Belt in mainland China. Our results suggest that crustal thickness remained constant in the North Qinling Belt (~45–55 km) during the Triassic to Jurassic but fluctuates in the South Qinling Belt, corresponding to independently determined tectonic changes. In the South Qinling Belt, crustal thickening began at ~240 Ma and culminated with 60–70-km-thick crust at ~215 Ma. Then crustal thickness decreased to ~45 km at ~200 Ma and remained the same to the present. We propose that coupled use of Sr/Y and La/Yb is a feasible method for reconstructing crustal thickness through time in continental collisional belts. The combination of the empirical relationship in this study with that from subduction-related arcs can provide the crustal thickness evolution of an orogen from oceanic subduction to continental collision.
Highlights
We present compiled geochemical data of young intermediate magmatic rocks from continental collisional belts and correlations between their whole-rock Sr/Y and La/Yb ratios and modern crustal thickness
At a given Moho depth, the median Sr/Y in continental collisional belts is smaller than rocks in magmatic arcs, especially when the crust is shallower than 45 km, whereas the median (La/Yb)N in continental collisional belts is higher than that from subduction-related magmatic arcs
Establishing empirical relationships between Sr/Y and La/Yb and crustal thickness in continental collisional orogens extends recent similar relationships established for subduction-related magmatic arcs
Summary
We present compiled geochemical data of young (mostly Pliocene-present) intermediate magmatic rocks from continental collisional belts and correlations between their whole-rock Sr/Y and La/Yb ratios and modern crustal thickness. These correlations, which are similar to those obtained from subductionrelated magmatic arcs, confirm that geochemistry can be used to track changes of crustal thickness changes in ancient collisional belts. The ratio of Sr/Y and La/Yb in modern intermediate composition volcanic rocks in subduction-related arcs appear to correlate well with crustal thickness at global and regional scales[5,6,7]. The scarcity of collisional settings compared to subduction margins forced us to investigate data of a slightly wider age range - Pliocene to modern (Middle Miocene for special cases), as opposed to only Quaternary rocks[5,6,7]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
