ICP-MS detection of lead, cadmium, arsenic, and mercury in cannabis flower, concentrates, and infused products — down to 1 part per billion.
Cannabis plants are efficient accumulators of environmental elements — including toxic heavy metals that can enter the supply chain through soil, irrigation water, or processing equipment. Even trace concentrations of lead, cadmium, arsenic, or mercury in a finished product can affect consumer safety and trigger California DCC compliance failures.
At SQRD Lab, every sample undergoes analysis using Inductively Coupled Plasma Mass Spectrometry (ICP-MS), the gold standard for trace metal detection. Results are reviewed by our scientists before release, and we communicate directly with your team if a result approaches action limits or differs from prior batches.
Inductively Coupled Plasma Mass Spectrometry (ICP-MS) ionizes the sample at extremely high temperatures and separates elements by mass-to-charge ratio. This allows detection of up to 25 elements simultaneously at concentrations as low as 1 ppb — well below California's regulatory action limits.
Soil composition, irrigation water sources, and nutrient inputs are the most common contributors. Cannabis is a hyperaccumulator, meaning it draws elements from its environment efficiently — which is valuable for remediation but risky for consumer products without proper monitoring.
Even low readings are useful as baseline data. Tracking results across batches helps identify gradual shifts in cultivation conditions or input materials that may influence future results before they become a compliance concern.
Yes. Testing soil and water sources before planting, selecting clean nutrient inputs, and maintaining controlled environmental conditions all lower the risk. Preventive monitoring is more effective than addressing contamination after the fact.
ICP-MS can detect metals at concentrations as low as 1 part per billion (ppb). This level of sensitivity allows early identification of trends before they approach California DCC regulatory thresholds.
Beyond pass/fail status, review the concentration values for each element relative to action limits, compare against previous batches, and note any gradual trends. Understanding the full data picture supports better cultivation and sourcing decisions.
Schedule a pickup with our Los Angeles laboratory and receive your results within 48–72 hours.