Reliable environmental data for better agronomic and research decisions.

Resilient, accurate, and field-ready sensors

CredoSense sensor and logger systems deliver stable, high-integrity measurements across weather, soil, and atmospheric conditions for long-term deployments. Engineered for harsh environments and low maintenance, they support streamlined setup and cloud-ready data workflows for environmental research, agronomy, and field operations.

Products

Environmental Monitoring Products Built for Field Uptime

Designed for dependable measurements with stable sensors, robust enclosures, and long-term drift control.
Built for real deployments across remote sites, harsh weather, and continuous outdoor operation.
Low-maintenance by design with simple installation, clear service workflows, and predictable operating costs.
Deployment-ready data flow from sensor → logger → cloud, with clean exports for analysis and reporting.

AQMS

Air Quality Monitoring System

CS-AQMS1

CredoSense Air Quality Monitoring System (CS-AQMS1) – the epitome of cutting-edge environmental technology. With an unbeatable blend of precision and ease-of-use, this system is set to redefine the benchmarks of air quality monitoring.

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Fields of Application

Practical Monitoring Solutions for Research and Operations

Research-grade measurement integrity, packaged for field deployment, long-term monitoring, and decision workflows.

Research & Education

Research-grade sensors and loggers for field courses, labs, and long-term studies across climate, soil, and plant systems.

Precision Agriculture

Weather, soil, and microclimate measurements to support irrigation scheduling, risk monitoring, and field decision workflows.

Environmental Monitoring

Continuous monitoring for land, water, and ecosystem projects where stable time-series data and deployment reliability matter.

Air Quality Monitoring

Compact air-quality systems for particulate and environmental exposure studies, site monitoring, and operational awareness.

Industrial & Infrastructure

Monitoring for challenging sites where durability, uptime, and clean data capture are more important than dashboards and buzzwords.

Smart Buildings & Urban Climate

Rooftop and urban deployments to track heat, humidity, wind, and local microclimate dynamics for resilience and planning.

Deployed Solutions

Our Products in Action

Temperature Logger (CSL-T0.5)

Deployed for continuous rooftop temperature monitoring over seasonal cycles.

Leaf Chamber (CS-LC7000)

Used for leaf-level measurements to quantify plant response under field conditions.

Multi-Channel Data Logger (CS-DL824)

Installed to capture synchronized multi-sensor time series in a nursery research site.

Automated Weather Station (CS-AWS-6)

Rooftop station measuring local microclimate to support an urban climate project.

Publications

Peer-Reviewed Publications Using CredoSense Products

Total Publications

2023
2024
2025
2026

Craig, C. V. (2023). Experimental Warming of Flower Temperatures and Influence on Pollinator Visitation (Master’s thesis, University of Toronto (Canada)).
Frizzi, G. (2023). Exploring Seasonal Hydrologic Performance of Green Roofs with Various Layering Profiles (Master’s thesis, University of Toronto (Canada)).

Cao, R., & MacIvor, J. S. (2024). Automation of green roof plant cover measurements using machine learning and a comparison of digital and thermal imaging techniques. Applied Vegetation Science, 27(2), e12790.
Karim, M. R., Halim, M. A., & Thomas, S. C. (2024). Foliar methane and nitrous oxide fluxes in tropical tree species. Science of the Total Environment, 954, 176503.
Snyder, E. H., Jones, I. M., Sifton, M. A., Timm, C., Stevens, C., Bourchier, R. S., & Smith, S. M. (2024). Excising the ghosts of invasions past: restoring native vegetation to soil infested with invasive swallow-worts. Invasive Plant Science and Management, 17(2), 61-69.

Frizzi, G., Liao, W., & Drake, J. (2025). Winter Snowpack Accumulation and Stormwater Water Quality Monitoring for Extensive Green Roof Systems. Journal of Cold Regions Engineering, 39(2), 04025013.
Karim, M. R., Halim, M. A., & Thomas, S. C. (2025). Foliar methane and nitrous oxide fluxes in Salix bebbiana respond to light and soil factors. Communications Earth & Environment, 6(1), 493.
Kayes, I., Halim, M. A., & Thomas, S. C. (2025). Biochar mitigates methane emissions from organic mulching in urban soils: Evidence from a long-term mesocosm experiment. Journal of Environmental Management, 376, 124525.
Richmond, I. C., Paulauskas, M. A., Padvaiskas, E., Sinisterra, L. C. G., Hutt-Taylor, K., Robitaille, A. L., & Ziter, C. D. (2025). Land-use history causes differences in park nighttime cooling capacity and forest structure. bioRxiv, 2025-02.

Halim, M. A., Karim, M. R., Gale, N. V., & Thomas, S. C. (2026). Short-Term Effects of Biochar on Soil Fluxes of Methane, Carbon Dioxide, and Water Vapour in a Tea Agroforestry System. Soil Systems.

Customer Experiences

We recently purchased a CredoSense soil respiration chamber (CS-RC10) for our Sundarbans C-flux measurement project, supported by the British Ecological Society (UK). The fully automated chamber is thoughtfully designed—compact, easy to use, and engineered to minimize pressure gradients in the chamber headspace. The CS-RC10 stores data locally and can also display live readings remotely on a smartphone or computer. CredoSense delivers high-quality, affordable sensor–logger systems and has been exceptionally supportive throughout.

"We procured CredoSense "Temperature/Relative Humidity Dataloggers (CSL-H2 T0.2)" and "Self-logging Soil Moisture Measurement System (CSL-SM2)" in 2021. Since then we are using it without any instrumental disorder. We are happy with these products and also happy with the services that we received at times from the company personnel."

I have been using CredoSense temperature loggers (CSL-T0.5), temperature and relative humidity loggers (CSL-H2 T0.2), and soil moisture sensors (CS-SM2) for my experiments. I have not faced any issues so far and am happy with the performance of these products.