Wastewater in High Mountain Areas: Impact on Microbial Communities and Strategies for Its Mitigation (RAMi)
The project aims to design nature-based wastewater treatment solutions specifically adapted to high-mountain conditions.
The project aims to design nature-based wastewater treatment solutions specifically adapted to high-mountain conditions.
This project is being developed within the framework of an ICOOP grant (a CSIC Scientific Cooperation Program for Development), which aims to stimulate collaboration between CSIC research groups and international research groups in countries receiving Official Development Assistance through training, work, and specialization stays for research groups from participating entities.
Headwater basins provide water supply, greenhouse gas regulation, and other essential ecosystem services. However, human activities have altered its functioning. This research project investigates how factors of anthropogenic origin alter the dynamics of headwater basins, especially their role in climate regulation.
Pharmaceutical micro-pollutants are chemicals used for human and animal health care that are found everywhere including in soil, water and sediment. This chemical contamination is usually associated with microbiological contamination (by microorganisms and/or their genetic material) from humans, animals and the environment.
The BEYOND project, a MSCA Doctoral Network, will train the next generation of water professionals to tackle European water quality challenges in the context of climate change and emerging contaminants. Researchers will gain interdisciplinary skills, access to cutting-edge technologies, and expertise in water management to drive innovation and improve water quality.
Business for Ocean Sustainability is a multi-year research project. Explore the relationship between business and ocean sustainability.
The goal of the Alter-C coordinated project is to understand how C sinks and sources in inland waters are affected by reductions in current and future conditions. Alter-C combines cutting-edge methodologies with an integrative perspective, including river networks, lakes, ponds and reservoirs.
In a context in which prolonged periods of drought are becoming more frequent, the intoDBP project takes on special importance for its innovative approach to water management. The project aims to improve water quality and minimize exposure to harmful disinfection byproducts.
Research project to evaluate the effects of anthropogenic pressures on ecosystems, including the detection and monitoring of invasive species, the consequences of increasing temperatures and eutrophication, among others.
This research project aims to evaluate the role of lateral inflows and see which can be considered “hot spots” due to their great influence on the biogeochemical processes taking place in rivers.
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