Global Opportunities to Increase Agricultural Independence Through Phosphorus Recycling

S. M. Powers, R. B. Chowdhury, G. K. MacDonald, G. S. Metson, A. H.W. Beusen, A. F. Bouwman, S. E. Hampton, B. K. Mayer, M. L. McCrackin, D. A. Vaccari

Research output: Contribution to journalArticlepeer-review

75 Scopus citations

Abstract

Food production hinges largely upon access to phosphorus (P) fertilizer. Most fertilizer P used in the global agricultural system comes from mining of nonrenewable phosphate rock deposits located within few countries. However, P contained in livestock manure or urban wastes represents a recyclable source of P. To inform development of P recycling technologies and policies, we examined subnational, national, and global spatial patterns for two intersections of land use affording high P recycling potential: (a) manure-rich cultivated areas and (b) populous cultivated areas. In turn, we examined overlap between P recycling potential and nation-level P fertilizer import dependency. Populous cultivated areas were less abundant globally than manure-rich cultivated areas, reflecting greater segregation between crops and people compared to crops and livestock, especially in the Americas. Based on a global hexagonal grid (290-km2 grid cell area), disproportionately large shares of subnational “hot spots” for P recycling potential occurred in India, China, Southeast Asia, Europe, and parts of Africa. Outside of China, most of the remaining manure-rich or populous cultivated areas occurred within nations that had relatively high imports of P fertilizer (net P import:consumption ratios ≥0.4) or substantial increases in fertilizer demand between the 2000s (2002–2006) and 2010s (2010–2014). Manure-rich cultivated grid cells (those above the 75th percentiles for both manure and cropland extent) represented 12% of the global grid after excluding cropless cells. Annually, the global sum of animal manure P was at least 5 times that contained in human excreta, and among cultivated cells the ratio was frequently higher (median = 8.9). The abundance of potential P recycling hot spots within nations that have depended on fertilizer imports or experienced rising fertilizer demand could prove useful for developing local P sources and maintaining agricultural independence.

Original languageEnglish
Pages (from-to)370-383
Number of pages14
JournalEarth's Future
Volume7
Issue number4
DOIs
StatePublished - Apr 2019

Keywords

  • fertilizer
  • manure
  • phosphate
  • phosphorus
  • trade
  • waste

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