Nitrate detection
Exploratory pilot project for low-cost nitrate measurement
Assessing DIY spectrometry and open collaborative models for nitrate detection for field and in-home assays
December 2013
INTRODUCTION
Nitrate contamination of drinking and surface water poses serious health risks, but affordable on-demand test- ing is not widely available. EPA Method 353.2 (http://www.caslab.com/EPA-Method-353_2/) outlines a cadmium reduction technique suitable for field testing of surface waters, and suggests the use of a spectrophotometric measurement of an indicator color change. While spectrophotometers are typically cost-prohibitive to consum- ers, several years of research into low-cost, open source spectrometer attachments to smartphones by the Public Lab network has resulted in several models of sub-$100 devices which may be suitable for more precise and geo-stamped measurements of surface water.
Public Lab proposes conducting a feasibility study of whether our spectrometer can replace existing colorimet- ric tools used in Method 353.2. If feasible, a re-usable testing kit for Method 353.2 could potentially cost as little as it currently costs to test several samples, given current lab fees of $35-40 per test -- and could yield on- demand data without the need to wait for lab results. A DIY or Open Hardware Method 353.2 additionally pro- vides an inexpensive means for developers to calibrate and verify in-line sensing systems. Lowering the barriers to entry in nitrate testing will support the development of a broader range of DIY tools and help launch a nitrate sensing program as diverse as those affected by nitrate pollution.
Scope
We propose an 8-week initial project to assess the potential for more in-depth proof of concept and prototyping stages. Topics will include:
- brainstorming with domain experts
- comparison of our prototype hardware with a needs assessment of our partners
- acquisition and design of a hardware adaptations necessary for colorimetry
- colorimetry initial proof of concept with minimally adapted spectrometer devices
Timeline
Weeks 1-3:
- Acquisition of equipment and supplies for reproducing EPA Method 353.2 with known sample concentrations
- Feasibility interviews with domain experts
- Spectrometry Lab Setup Prototype 1 for 353.2 Weeks 4-12:
- Sample testing for 353.2
- Matching samples submitted to certified lab
- Prototype modification and experiment iteration Weeks 13-18:
- Write-up of results for 353.2 experiments
- Hardware design and protocol documentation
- Review of future research directions
Future phases
Contingent on the initial success of the exploratory pilot, next steps could include:
Proof of concept: further testing and modification of existing hardware;
Prototyping: construction of a series of iteratively refined prototypes based on colorimetric testing and data analysis; design work to refine the device and software design to the nitrate use case.
Field testing: increased work with partner community groups to assess the tool's utility in the field