Data Set Title: Pamir 2016 Ice Core Stable Isotopes, ICPMS, LAICPMS Data Format: MS Excel Data Description: This dataset contains records of stable water isotopes, major and trace element ICPMS, and ultrahigh resolution laser ablation inductively coupled plasma mass spectrometer (ICPMS) records from an ice core collected in the Pamir Mountain Range of Central Asia. Input Data Source: These datasets were created by initial analysis of a new ice core in the W.M. Keck Laser Ice Facility, Stable Isotope and ICP MS laboratories at the Climate Change Institute in Orono, Maine. Data Volume: 4.3 MB Data Usage Constraints: Please embargo this dataset for 1 year while we are submitting related papers for publication. Parameters: core depth, delO-18, delH/D, Sr, Cd, Cs, Ba, La, Ce, Pr, Pb, Bi, U, Li, Sc, Ag, Al, S, Ca, Ti, V, Cr, Mn, Fe, Co, Na, Mg, Cu, Zn, Si, As, K Data Collection Methods: Thermo ELEMENT2 high-resolution ICP-MS Thermo ELEMENT2 high-resolution ICP-MS with New Wave UP-213 nm laser ablation in custom cryochamber Picarro L-2130-i laser cavity ring-down spectrometer ==Data Set Coverage== Temporal Coverage: Start Date: 2016-09-01 Temporal Coverage: End Date: 2016-09-30 Temporal Resolution: variable Spatial Coverage: 39.39N, 72.63E, 5478m a.s.l. Spatial Resolution: Variable spatial resolution in ice core depth Stable isotopes: 5.8cm ICPMS elements: 1.0cm LAICPMS elements .002cm Data Processing Steps: ==Data Set Ingest== Ingest Frequency: One Time Ingest Method: Push by provider ==Additional Information== References About the Data: Rodda, C., Mayewski, P., Kurbatov, A., Aizen, V., Aizen, E., Handley, M., Korotkikh, E., Hoffmann, H., Bohleber, P., Takeuchi, N., Tsushima, A., Fujita, K., (2019). Evidence for an abrupt onset of the Little Ice Age and anthropogenic lead pollution from a 1,600 year ice core chemical record from the Pamir Mountains, Central Asia. (In review). Rodda, C, Mayewski, P., Kurbatov, A., Aizen, E., Aizen, V., Korotkikh, E., Takeuchi, N., Fujita, K., Kawamura, K., Tsushima, A. (2019). Seasonal variability in a 1600 year-long ice core chemical record, Pamir Mountains, Central Asia. (In review).