Coastal eutrophication in Europe caused by production of energy crops
Crops, Agricultural
MARINE ECOSYSTEMS
LAND
RIVERS
AGRICULTURE
Nitrogen
0211 other engineering and technologies
BIOFUELS
02 engineering and technology
WATERS
7. Clean energy
nitrogen
future-trends
biomass production
11. Sustainability
0202 electrical engineering, electronic engineering, information engineering
Seawater
River pollution
14. Life underwater
marine ecosystems
Coastal eutrophicadon
FUTURE-TRENDS
agriculture
2. Zero hunger
Energy crop
Phosphorus
Eutrophication
15. Life on land
BIOMASS PRODUCTION
biofuels
rivers
EXPORT
6. Clean water
land
waters
Europe
NITROGEN
13. Climate action
Biofuels
export
Water Pollutants, Chemical
Environmental Monitoring
DOI:
10.1016/j.scitotenv.2014.12.032
Publication Date:
2014-12-20T06:15:24Z
AUTHORS (4)
ABSTRACT
In Europe, the use of biodiesel may increase rapidly in the coming decades as a result of policies aiming to increase the use of renewable fuels. Therefore, the production of biofuels from energy crops is expected to increase as well as the use of fertilisers to grow these crops. Since fertilisers are an important cause of eutrophication, the use of biodiesel may have an effect on the water quality in rivers and coastal seas. In this study we explored the possible effects of increased biodiesel use on coastal eutrophication in European seas in the year 2050. To this end, we defined a number of illustrative scenarios in which the biodiesel production increases to about 10-30% of the current diesel use. The scenarios differ with respect to the assumptions on where the energy crops are cultivated: either on land that is currently used for agriculture, or on land used for other purposes. We analysed these scenarios with the Global NEWS (Nutrient Export from WaterSheds) model. We used an existing Millennium Ecosystem Assessment Scenario for 2050, Global Orchestration (GO2050), as a baseline. In this baseline scenario the amount of nitrogen (N) and phosphorus (P) exported by European rivers to coastal seas decreases between 2000 and 2050 as a result of environmental and agricultural policies. In our scenarios with increased biodiesel production the river export of N and P increases between 2000 and 2050, indicating that energy crop production may more than counterbalance this decrease. Largest increases in nutrient export were calculated for the Mediterranean Sea and the Black Sea. Differences in nutrient export among river basins are large.
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