Water accounting as a tool for tracing the industries responsible for the point-source loads into water bodies

Highlights • Novel methodology introduced for allocating wastewater loads to industries. • P and N emission accountancies provided for 196 industries of a country. • High correspondence between independent bottom-up and top-down calculations. • Households and forest industry dominate P and N loads. Abstract Returning flows of water from the economy to the environment, particularly wastewaters, are highly important contributors to the quality of freshwater resources and the health of aquatic ecosystems. While the total loads of various harmful substances received by wastewater treatment facilities are often measured and reported, the origins of these loads are generally not allocated to specific industries. Instead, they pass from treatment facilities to the environment and are thus simply attributed to arising from the sewerage industry. In this study, we introduce a method for employing high-quality water accounting of the phosphorous and nitrogen loads and apply it to the Finnish economy. We also introduce a means for assessing the quality of the resulting accountancies and, for our Finnish case study, we show a close correspondence between independent top-down and bottom-up calculations, indicating the figures are highly reliable. We thus conclude, firstly, that the presented methodology can produce versatile and reliable data on different wastewater-related loads in the water; secondly, that such data can assist in developing appropriate mitigation strategies; and, thirdly, that the data may also be applied in further sustainability analyses, such as in environmentally extended input–output modelling

Echoes from the Past: A Healthy Baltic Sea Requires More Effort

Integrated sediment multiproxy studies and modeling were used to reconstruct past changes in the Baltic Sea ecosystem. Results of natural changes over the past 6000 years in the Baltic Sea ecosystem suggest that forecasted climate warming might enhance environmental problems of the Baltic Sea. Integrated modeling and sediment proxy studies reveal increased sea surface temperatures and expanded seafloor anoxia (in deep basins) during earlier natural warm climate phases, such as the Medieval Climate Anomaly. Under future IPCC scenarios of global warming, there is likely no improvement of bottom water conditions in the Baltic Sea. Thus, the measures already designed to produce a healthier Baltic Sea are insufficient in the long term. The interactions between climate change and anthropogenic impacts on the Baltic Sea should be considered in management, implementation of policy strategies in the Baltic Sea environmental issues, and adaptation to future climate change