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Despite the EU's advanced waste management and ambitious recycling objectives, studies still indicate the presence of macro and microplastic pollution in EU rivers. The Tid(y)Up project focuses on improving water quality and reducing plastic pollution in the Tisza River, which is long considered one of Europe’s most heavily contaminated rivers.

The project aims to restore the Danube River Basin for ecosystems and people, an EU ‘Lighthouse Initiative’ supporting the Mission to “Restore our ocean and waters by 2030."Launched in January 2023, DANUBE4all is a 5-year EU "Lighthouse Initiative" project funded by Horizon Europe, aiming to restore freshwater ecosystems in the Danube River Basin.

Rivers, lakes, transitional and coastal waters, as well as groundwater, are vital natural resources. A significant proportion of water resources are exposed to environmental pollution or other potentially damaging pressures. Protecting and improving the waters of the Danube River Basin is therefore essential for the natural environment, the sustainable development of the region and the long-term health, well-being, and prosperity of the population.

The Secretariat of the ICPDR is located at the United Nations Office at Vienna (UNOV). A team of approximately 10 staff members support the work of the ICPDR and its expert & task groups, assist with project development and implementation, and maintains the ICPDR's 'DANUBIS' information system.

The ICPDR comprises 15 Contracting Parties who have committed themselves to implement the Danube River Protection Convention.

The final goals are to co-operate on fundamental water management issues and to take all appropriate legal, administrative and technical measures to maintain and improve the quality of the Danube River and its environment.

Accidental pollution in the Danube River Basin can cause widespread damage to the environment, and endanger the health of local people and the state of local economies downstream. This was exemplified by the effects of the Baia Mare cyanide spill in Romania in 2000 or by the Hungarian redsludge accident at Ajka in 2010. The ICPDR is working to prevent accidental pollution and to improve response capability by compiling an inventory of all relevant "Accident Risk Spots".

Organic pollution has been on the rise in the Danube over the last century, as human activities have resulted in increasing loads of wastewater rich in organic matter. The most serious organic pollution problems occur in tributaries that regularly receive untreated or inadequately treated wastewater from industrial plants and municipalities. Thanks to the significant improvement of wastewater infrastructure and services in the Danube countries, the basin-wide organic emissions reduced by 60% since the mid 2000s.

Hazardous substances can remain in the environment for a very long time, and harm ecosystems and human health. Although monitoring indicates that the loads of some substances have been reduced in recent years, many problems still persist. The increasing number of these man-made substances present in the environment is a matter of concern, and calls for the application of the precautionary principle.

The nutrient levels, notably phosphorus and nitrogen, found in the Danube River and its major tributaries hold significant international importance. This is because they directly contribute to the phenomenon of eutrophication in both the river itself and the Black Sea. Historical trend analysis of nutrient river loads over the past decades shows a significant reduction in the transported nutrient fluxes to the Black Sea. Overall nutrient emissions declined by 30% (nitrogen) and 50% (phosphorus) in the last 15 years. However, the current long-term fluxes are still considerably higher than those of the early 1960ies which represent river loads under low pressures, indicating a further load reduction potential that might be exploited for the benefit of the Black Sea. Nevertheless, in the last 5-10 years the measured loads are rather low and close to the Black Sea targets indicating significant water quality improvement.