MAJOR AND TRACE ELEMENT COMPOSITIONS OF GARNETS FROM NEW YORK STATE KIMBERLITES: A WINDOW INTO THE LOWER CRUST AND UPPER MANTLE

Kimberlites are unusual igneous rocks that are not only the singular source of gem quality diamonds, but also a source of upper mantle and lower crustal material for scientific study. As kimberlite magmas rise, they disaggregate xenoliths from the surrounding country rocks. One mineral that is commonly picked up and transported to the surface is garnet, and their compositions have been correlated with different mantle conditions and source materials. The goal of our study is to use garnet compositions to characterize the diversity of lithologies sampled by Mesozoic kimberlitic intrusions in New York State.

Approximately 90 kimberlitic dikes cut through the Paleozoic sedimentary rocks of central New York State, most clustered around the cities of Ithaca and Syracuse. Samples of garnet-bearing kimberlites were collected from both of these localities (Taughannock Creek, Ithaca and Dewitt Reservoir, Syracuse), in order to compare the garnet populations present to see if the two dikes sampled similar mantle and crustal materials.

Garnets were extracted from both dikes, and their bulk compositions were obtained using energy-dispersive, x-ray spectrometry (SEM-EDS). We were able to identify four major compositional groups of garnets: 1) low to moderate Cr pyrope, 2) high Cr pyrope, 3) almandine, and 4) grossular. Samples of each of these were then analyzed for trace element composition by laser ablation, inductively coupled plasma, mass spectrometry (LA-ICP-MS).

Both dikes contain macrocrysts of almandine and Cr-bearing pyrope (up to ~ 5 wt. % Cr₂O₃); garnets with a high grossular component were only found in the Dewitt kimberlite. Based on the classification of Gurney et al. (1984), none of the garnets indicate a high diamond potential for either kimberlite. While the pyrope and almandine macrocrysts in both dikes are broadly similar in composition, sub-populations of garnets can be recognized based on trace element profiles. Preliminary analysis of the data suggests that the kimberlite intrusions in central New York sampled garnets from a heterogeneous mantle source and, in addition, sampled garnets from a Grenvillian lower crust.