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Plastic pollution in freshwater environments is a pressing global concern due to its ability to accumulate in the environment. The long-term impacts of this pollution on freshwater ecosystems are still to understand. In PATTERN project, we aim to understand how plastics can influence nutrient composition and the natural exchanges in biological information, with a focus on the biofilms colonizing plastic’s surface. We aim to rate the environmental relevance of these processes and to assess the threshold at which plastic pollution disrupts freshwater ecosystem functioning.

We do chemical analyses of inorganic substances.

I prosjektet USAGE jobber vi med løsninger og tjenester som bidrar til fremtidens grønne og blå byer. Helt konkret handler USAGE om å kombinere produksjon av mat i et kompakt akvaponi-system sammen med håndtering og gjenbruk av overvann og takvann som ressurs inn i denne produksjonen.

A project that creates a communal research-based learning arena in aquaponics and urban cultivation for schools in Oslo with foundations in sustainability and circularity for the cities of the future.

The goal of the DUWA project is to treat wastewater discharges from hospitals to minimize the spreading of antimicrobial resistance (AMR) to the environment and to reduce the emission of micropollutants. NIVA assists the start-up company Sustaintech AS in the development and verification of ozonation to remove antibiotic resistant bacteria (ARB) and antibiotic resistance genes (ARG) in wastewater decentrally at a Norwegian hospital.

There is a need for more accessible and comprehensive knowledge on industrial symbiosis. Through bilateral cooperation between Romanian and Norwegian actors, the CATALYST project will provide relevant and reliable information on symbiotic opportunities, case studies, and best practices for facilitators, companies and industrial symbiosis stakeholders identified through the project.

In the CORNELIA project, NIVA together with its two industrial partners tests and verifies innovative technical solutions for targeted removal of antimicrobial resistance from wastewater at hospitals (at the source) and at wastewater treatment plants (before discharge to the environment).

PAIRWISE aims to advance knowledge of antimicrobial resistance as a pollution in aquatic environments, wildlife, and livestock. PAIRWISE focuses on dispersal and dynamics of antibiotic resistant bacteria, antibiotic resistance genes and antibiotics in aquatic environments affected by wastewater treatment plants.

Antimicrobial resistance (AMR) is one of the greatest health challenges of our time with serious economic consequences for society globally. The goal of HOTMTAS is to design, implement and assess modular advanced solutions for effective and decentralized wastewater treatment at selected point sources of AMR emergence, such as hospitals and nursing homes.

Increasing water scarcity is one of the biggest challenges worldwide. The reuse of the effluents of wastewater treatment plants constitutes a significant and constantly available water resource that can be used for purposes such as irrigation. However, municipal and industrial wastewater treatment plants face an increasing amount of emerging pollutants.

We need to improve our understanding of the occurrence of antimicrobial resistance (AMR) in surface waters, particularly downstream of urban waste water treatment plants. However, at present there is no European overview of the presence of AMR in surface waters. This project will develop a basic approach and methodology for a European scale AMR monitoring of surface waters.

Sustainable urban snow management within tighter frames for nature, the environment and land use.

SIREN (Integrated system for simultaneous recovery of energy, organics and nutrients and generation of valuable products from municipal wastewater) will develop a system that recovers energy, organics and nutrients from municipal wastewater while simultaneously generating valuable products.