The Environmental Sciences Initiative manages several advanced research labs within the ASRC that house state of the art equipment. In addition, we also have access to a number of ASRC core facility suites that contain high specification instrumentation. All of these facilities are accessible by CUNY faculty, research staff, students and collaborators.

The Advanced Laboratory for Chemical and Isotopic Signatures (ALCIS) will host cutting-edge instrumentation in support of researchers at the  forefront of developing new analytical isotopic techniques.

The facility currently has the ability to analyze isotopes of hydrogen, carbon, nitrogen, oxygen, and sulfur in almost any compound in a variety of environmental and biological samples including solids, liquids, pure and mixed gases including atmospheric samples.

In addition to on-site testing, researchers will be able to submit samples for routine isotopic analyses.

For more information, please click here.

The Next GENeration Environmental Sensors facility (NGENS) will develop a broad array of cutting-edge environmental sensors and sensor deployment systems, envisioned to include in situ and remote sensing.

For more information about the instruments, or for availability, please contact Anthony Cak or Andrew Reinmann.

The ASRC Rooftop Observatory capitalizes on the unique location and vantage point of the ASRC to create a facility for monitoring the NYC urban environment. An ensemble of ASRC-based equipment will complement the existing urban observatory that CUNY has already instituted in the NYC metro area by building on the decades of experience of CUNY faculty and researchers who have been pioneers in the research and development of advanced instrumentation and field measurement networks.

For more information about the instruments, or for availability, please contact Anthony Cak.

The Coastal & Ocean Science Synthesis Facility is dedicated to the study of environmental change in human-dominated coastal zones, including changes to coastal flood risk resulting from climate change and other anthropogenic activities in urban settings and areas with high concentrations of people.

For more information, please contact Zachary Tessler.