Technical Integrity / Collaboration / Exceptional Results


The OPTically based In situ Characterization System (OPTICS) is a new technology improving how water quality is monitored at aquatic sites. A uniquely powerful and cost-effective tool for monitoring contaminants in surface water, OPTICS can be used for a wide array of environmental applications, from source identification and establishment of baseline conditions to characterization of dredge plumes and stormwater discharges, and long-term monitoring of remedy performance.


OPTICS uses a range of optical instruments to provide high-frequency determination of dissolved and particulate concentrations of contaminants over extended time periods. The unprecedented frequency and volume of data attained by OPTICS supports the development and refinement of conceptual site models to obtain a complete understanding of water quality and contaminant transport in response to natural processes and human impacts.

Benefits of OPTICS:

  • Cost-effective, high-frequency chemical concentration determination
  • Detailed chemical concentration trends and flux analyses
  • Customizable and modular with capability for real-time telemetry
  • Key line of evidence for designing and evaluating remedies

OPTICS provides temporal and spatial characterization of chemical contaminants in the context of biophysical processes, including tidal variation and episodic storm events.

Data CollectionData Collection

Because OPTICS monitoring involves deployment of autonomous sampling instrumentation, a substantially greater volume of data can be collected by this technique than by traditional sampling, and at a far lower cost. A large volume of data supports evaluation of hydrophobic contaminant concentrations over a range of time frames, and the system can be customized for a variety of environmental applications.

Source Analyses

OPTICS supports analysis of contaminant concentration trends over extended time periods. With OPTICS, the short- and long-term effects of natural and human-influenced processes, such as storm runoff, tidal surge events, discharges, or dredging, can be more confidently evaluated than with traditional data collection methods.

Contaminant Transport

When coupled with measurements of surface water flow, OPTICS helps quantify contaminant mass flux and the relative contribution of local transport and source areas to net contaminant transport. The improved understanding of site processes aids in the development of mitigation measures that minimize site risks.


OPTICS uses well-established, robust instruments that are readily available, modular, and deployable across varied configurations (e.g., bottom-mounted, mid-water column, or vessel-mounted). The instruments can be powered internally, are easily serviced, and can be equipped with telemetry to support real-time data collection. The many instrument options available provide optimal data collection and reduced cost.

Remedy Design and Evaluation

OPTICS delivers a strong line of evidence for evaluating contaminant sources, fate, and transport, and for supporting the design of a remedy tailored to address site-specific, risk-driving conditions. OPTICS is a powerful tool for monitoring water column residuals during remedy implementation, and for monitoring remedy performance.