Journal
CURRENT OPINION IN ENVIRONMENTAL SUSTAINABILITY
Volume 36, Issue -, Pages 68-77Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.cosust.2018.10.010
Keywords
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Funding
- OECD-CRP
- NSF INFEWS grant [NSF EAR1639458]
- PBL Netherlands Environmental Assessment Agency [869.15.015, 869.15.014]
- Netherlands Organisation for Scientific Research (Earth and life sciences Open Programme 2016) [ALWOP.230]
- FORMAS, the Swedish research council for sustainable development [992023 Wennergren. FORMAS 942-2016-69]
- Sustainable Resource Management for Adequate and Safe Food Provision project [KNAW-MOST SURE: PSA-SA-E-01]
- Multi Pollutant Modelling project [5160957330-DEELPRJ_1]
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Understanding and mitigating the effects of phosphorus (P) overenrichment of waters globally, including the evaluation of the global Sustainability Development Goals, requires the use of global models. Such models quantitatively link land use, global population growth and climate to aquatic nutrient loading and biogeochemical cycling. Here we describe, compare, and contrast the existing global models capable of predicting P transport by rivers at a global scale. We highlight important insights gained from the development and application of these models, and identify important near-term opportunities for model improvements as well as additional insight to be gained through new model analysis.
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