of terrestrial species are insects. Rapid response to habitat changes enables early detection of ecosystem shifts, making them ideal biodiversity indicators.
365
days per year continuous monitoring provides comprehensive habitat insights. Continuous monitoring across day cycles and seasonal variations captures complete ecological patterns.
40%
of insect species are declining. With global biodiversity at a tipping point, insects are the early warning signals we cannot ignore.
Quality Assurance
Rigorous Scientific Validation
Validated indicators
Our methodology undergoes rigorous peer review through scientific journal publication and continuous refinement based on community feedback.
Automated data quality checks filter anomalous readings and detects weather variations for consistent performance standards.
Our APPROACH
Take the lead on nature with actionable insights.
Enhance your biodiversity decision-making by integrating our industry-leading sensor technology for continuous biodiversity monitoring.
Habitat Assessment
Our specialists provide habitat assessments based on your project locations. We evaluate habitat condition, ecosystem connectivity, and key environmental variables influencing biodiversity.
Project Design
We collaborate with customers to design tailored biodiversity decision intelligence programs. We optimize project parameters to maximize data value for your biodiversity objectives and strategic goals.
Continuous Monitoring
With our innovative evoSense sensors we help establish, measure, and track biodiversity performance. We capture baseline insect data, habitat benchmarking, and Uplift measurement over time.
Data Insight
Our analytics platform combines AI and proprietary algorithms to deliver biodiversity insights on habitat health at your sites, accessible through our evoInsights portal.
FAQ
Frequently asked questions
What environmental factors affect measurements?
Temperature, humidity, and wind influence insect activity patterns. Our algorithms detect these variables, ensuring consistent measurement quality across conditions.
How does this compare to traditional methods?
Automated monitoring provides continuous data collection with reduced sampling bias, while traditional methods offer taxonomic precision but limited temporal coverage.
Why is Uplift scientifically justified as a biodiversity metric?
Uplift quantifies net biodiversity improvement by comparing temporal changes against established baselines and reference conditions. This approach follows established ecological principles for restoration success measurement, enabling quantifiable assessment of conservation interventions and habitat enhancement effectiveness.
