![]() ![]() Top Calibers Reported on Firearm Traces with an Indiana Recovery Janu– Decem9mm * Other includes Receivers/Frames, Unknown Types, Silencers, Any Other Weapons and Combinations. Total Number of Firearms Recovered and Traced in Indiana in Calendar Year 2021įirearm Types with an Indiana Recovery Janu– DecemPistols Firearms are normally traced to the first retail seller, and sources reported for firearms traced do not necessarily represent the sources or methods by which firearms in general are acquired for use in crime. ![]() The firearms selected do not constitute a random sample and should not be considered representative of the larger universe of all firearms used by criminals, or any subset of that universe. Not all firearms used in crime are traced and not all firearms traced are used in crime.įirearms selected for tracing are not chosen for purposes of determining which types, makes or models of firearms are used for illicit purposes. Law enforcement agencies may request firearms traces for any investigative reason, and those reasons are not necessarily reported to the federal government. Analytical Criteria Used to Compile the Enclosed Statisticsįirearm traces are designed to assist law enforcement authorities in conducting investigations by tracking the sale and possession of specific firearms.Table: Top Recovery Cities for Firearms with an Indiana Recovery.Table: Age of Possessors for Firearms with an Indiana Recovery.Table: Time-To-Crime Rates for Firearms with an Indiana Recovery.Table: Top 15 Source States for Firearms with an Indiana Recovery.Table: Top Categories Reported on Firearm Traces with an Indiana Recovery.Table: Top Calibers Reported on Firearm Traces with an Indiana Recovery.Table: Firearm Types with an Indiana Recovery.Table: Total Number of Firearms Recovered and Traced in Indiana in Calendar Year 2021.Legal Constraints Creative Commons Attribution 4.0 International License.Data Source: Firearms Tracing System Janu– December 31, 2021 UCAR/NCAR - The C-iTRACE project was funded by NSF (NSF-1566432 and NSF-1810681), and was carried out at the University of Colorado Boulder, the University of Wisconsin-Madison, and the Ohio State University. UCAR/NCAR - Climate and Global Dynamics Curator Other > Models > Cesm > Ncar Community Earth System Model ![]() Models > Ocean General Circulation Models (Ogcm)/Regional Ocean Models Wget shell script - Download all files usingĬurl shell script - Download all files viaĪssessing the Ability of Zonal δ18O Contrast in Benthic Foraminifera to Reconstruct Deglacial Evolution of Atlantic Meridional Overturning CirculationĪssessing the potential capability of reconstructing glacial Atlantic water masses and AMOC using multiple proxies in CESMĬlimate Indicators > Paleoclimate Indicators > Ocean/Lake Records > Isotopes Zip File - Download a ZIP file containing all files. Individual Files - View, select and download individual files from this Dataset. Wu (2021), Remineralization dominating the δ13C decrease in the mid-depth Atlantic during the last deglaciation, in revision for Earth and Planetary Science Letters. Earth and Planetary Science Letters, 541, 116294. Assessing the potential capability of reconstructing glacial Atlantic water masses and AMOC using multiple proxies in CESM. W., Lynch-Stieglitz, J., Jahn, A., Zhang, J., & Wu, L. Paleoceanography and Paleoclimatology, 34(5), 800–812. Assessing the Ability of Zonal d18O Contrast in Benthic Foraminifera to Reconstruct Deglacial Evolution of Atlantic Meridional Overturning Circulation. Gu, S., Liu, Z., Lynch‐Stieglitz, J., Jahn, A., Zhang, J., Lindsay, K., & Wu, L. Gu et al., 2021, describes carbon isotopes during the deglaciation in CiTRACE. Gu et al., 2020, describes multiple isotopes at the Last Glacial Maximum in CiTRACE Gu et al., 2019, describes the physical variables and the d18O in CiTRACE. Please cite the three papers below according to your usage of CiTRACE: Simulated tracers include carbon isotopes, oxygen isotopes, Neodymium and Pa/Th.įurther details about the C-iTRACE simulation can be found in Gu et al. C-iTRACE is forced with monthly heat, freshwater, and momentum fluxes from TraCE-21Ka. This simulation was developed in order to better understand ocean circulation and tracer evolution during the last deglaciation, and it does so by providing a direct comparison to paleo-ocean proxy records via the inclusion of isotope tracers and active biogeochemistry. C-iTRACE is a coarse resolution (3˚), ocean-only simulation run from the LGM (22ka) to present day using iPOP2, the isotope-enabled ocean component of the CESM1. ![]()
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