Abatify Summary

**The proliferation of antimicrobial resistance (AMR) in wastewater systems poses a severe threat to aquatic biodiversity and the integrity of Nature-Based Solutions (NbS) by disrupting essential microbial functions.** - AMR genes in urban runoff alter the microbial composition of surrounding wetlands and riparian zones, potentially degrading their natural carbon sequestration capacity. - Contaminated water discharge compromises the 'Do No Significant Harm' (DNSH) criteria for Blue Carbon and LULUCF projects, introducing biological risks to indigenous flora and fauna. - The long-term stability of aquatic ecosystems is undermined as drug-resistant pathogens disrupt nutrient cycling and the primary productivity required for ecological resilience.

**Systemic failures in wastewater policy and surveillance create significant liability risks for infrastructure projects and may lead to 'integrity discounts' for carbon credits under ICVCM Core Carbon Principles (CCPs).** - A lack of stringent AMR regulation reflects a policy gap that could impact the valuation of Article 6.4 emission reductions derived from urban water management and methane capture. - Market pricing for technical removals and wastewater-to-energy credits may face downward pressure if projects cannot demonstrate robust environmental safeguards against genetic pollution. - Corporate compliance with SBTi Nature targets and B Corp status will increasingly necessitate end-to-end water stewardship that accounts for Scope 3 pathogen risks in global supply chains.