Salinity / TDS
Excess dissolved solids and ionic load can make water and soils stressful for plants, infrastructure, and ecosystems.
Salinity, toxic load, mining residues, industrial wastewater, degraded soils, and damaged land can prevent productive reuse and increase long-term environmental, health, and economic risk.
Excess dissolved solids and ionic load can make water and soils stressful for plants, infrastructure, and ecosystems.
Mercury, arsenic, lead, cadmium, chromium and related metals can create persistent environmental and public-health risks.
Mining and industrial activity can leave cyanide-affected water, tailings, runoff, and sediment concerns.
Process water, stormwater, cooling water, and wastewater streams may require site-specific stabilization and treatment support.
Tailings, pits, runoff, and surrounding land can carry complex chemical and mineral burdens.
Poor irrigation water can increase salinity, reduce plant performance, and damage soils over time.
Damaged land often needs physical, chemical, and biological recovery before productive reuse.
Salinized, chemically impacted, desertified, or overused land can lose value and ecological function.
Some sites require major infrastructure. Others need a field-deployable strategy that can be tested, monitored, and scaled directly on the affected water or land.
Direct in-situ response. No disclosed formula. Project-specific pilot validation. Monitoring of relevant water and soil indicators.