TY  -  
T1  - Nutrient load mitigation with wintertime cover as estimated by the INCA model 
SN  -  / 2073-4441 
UR  - http://hdl.handle.net/10138/335535 
T3  - Water 2021, 13(4), 450 
A1  - Rankinen, Katri; Turtola, Eila; Lemola, Riitta; Futter, Martyn; Cano Bernal, José Enrique 
A2  -  
PB  - Molecular Diversity Preservation International (MDPI) 
Y1  - 2021 
LA  - en 
AB  - Increased nutrient loading causes deterioration of receiving surface waters in areas of intensive agriculture. While nitrate and particulate phosphorus load can be efficiently controlled by reducing tillage frequency and increasing vegetation cover, many field studies have shown simultaneously increased loading of bioavailable phosphorus. In the latest phase of the Rural Programme of EU agri-environmental measures, the highest potential to reduce the nutrient loading to receiving waters were the... 
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KW  - mathematical modeling; agricultural policy; wintertime vegetation cover; dissolved reactive phosphorus; nutrients; load mitigation; wintertime cover; estimation; INCA; INCA model; deterioration; agriculture; tillage; phosphorus; bioavailable phosphorus; fertilization; water; nitrogen; INCA-P; Integrated Nutrients in Catchments—Phosphorus; simulation; model simulation; load; maatalous; ravinteet; vesistönkuormitus; huuhtoutuminen; talvi; mallintaminen 
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