Modeling
Related content
Involved from Niva (18)
André Staalstrøm
Ashenafi Seifu Gragne
Christian Lindemann
Projects (10)
ASEANO 2
ASEANO 2 is a regional capacity building project led by NIVA and the Centre for Southeast Asian Studies Indonesia (CSEAS), in collaboration with the ASEAN Secretariat. The project is under the leadership of the ASEAN sectoral body ASEAN Working Group on Coastal and Marine Environment (AWGCME). ASEANO2 aims to build and enhance capacity and knowledge to measure, evaluate and address plastic pollution from key terrestrial sources in the ASEAN region through improved understanding of sources, emissions, transport, and fate.
EXPECT
The Arctic environment is facing evident changes such as temperature increase and consequent rapid decline in the sea ice. These conditions will favour the development of industrial activities, e.g., oil & gas exploration and aquaculture. We need to assess the potential environmental risks from the anticipated industrial development in the Arctic, and to do that, we need to develop robust methods and approaches that characterise the pollution pathway from the emission to the environment to the display of adverse outcomes in the biota.
From Catchment to Coast (C2C)
How are northern ecosystems affected by climate change, and how do different ecosystems affect each other? This 5-year Fram Centre research program aims to provide critical new knowledge related to: (1) Cross-ecosystem climate change impacts; and (2) How to best integrate cross-ecosystem linkages into cohesive management approaches.
Future Drinking Water Levels of Nitrosamines and Nitramines near a CO2 Capture Plant (FuNitr)
FuNitr will yield new knowledge and tools directly applicable to the safe realisation of CO2 capture technology, and thereby supporting the Norwegian Longship project for CO2 capture and storage.
NAUTILOS: New Approach to Underwater Technologies for Innovative, Low-cost Ocean obServation
Development of new low-cost ocean sensors for ocean observing and citizen science
Ocean Acidification Monitoring in Norwegian Waters
The purpose of the project is to monitor ocean acidification in Norwegian waters to provide an overview of the rate of acidification of Norwegian waters due to anthropogenic CO2 emissions.
SMARTLAGOON
SmartLagoon (Innovative modelling approaches for predicting Socio-environMentAl evolution in highly anthRopized coasTal LAGOONs) is about understanding the interrelationships of socio-economic activities and environmental degradation and vice versa for the case of the Mar Menor coastal lagoon in Spain.
SOS-Water
The SOS-Water project, initiated in October 2022 and funded by the EU, aims at addressing the increasing pressure on global freshwater resources by defining a “safe operating space” (SOS) for water resources, considering environmental, social, and economic dimensions, while co-creating objectives and indicators integrated into hydrological models.
The River Monitoring Program
The purpose of the river monitoring program is to calculate inputs of nutrients and pollutants to Norwegian marine areas through monitoring of rivers and modeling of inputs from areas without monitoring.
UPRISE
UPRISE will produce a holistic management tool for municipalities that can be used to identify the most appropriate areas for peatland restoration.
Research sections (3)
Catchment Biogeochemistry
The section for catchment biogeochemistry works to understand how various pollutants are spread in the environment and how they affect the water quality in rivers, lakes, and fjords. Our studies lay the foundation for and support political guidelines and improvements to reduce unwanted environmental impacts.
Oceanography
The section employs observational, experimental, and modeling approaches to further our understanding of physical, chemical, biological, and biogeochemical processes and services of the marine environment.
Urban environments and infrastructure
The section conducts research on topics that contribute to sustainable development of cities and towns, and infrastructure. We study the problems, processes and solutions for handling drinking water, wastewater, and storm water in urban areas, in a changing climate.