The phosphorus cost of agricultural intensification in the tropics

The phosphorus cost of agricultural intensification in the tropics

Agricultural intensification in the tropics is one way to meet rising global food demand in coming decades 1 , 2 . Although this strategy can potentially spare land from conversion to agriculture 3 , it relies on large material inputs. Here we quantify one such material cost, the phosphorus fertiliz...

Full description

Saved in:
Bibliographic Details
Published in:Nature plants Vol. 2; no. 5; p. 16043
Main Authors: Roy, Eric D., Richards, Peter D., Martinelli, Luiz A., Coletta, Luciana Della, Lins, Silvia Rafaela Machado, Vazquez, Felipe Ferraz, Willig, Edwin, Spera, Stephanie A., VanWey, Leah K., Porder, Stephen
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 18-04-2016
Nature Publishing Group
Subjects:
704/158/47
706/1143
Agricultural economics
Agricultural land
Agricultural production
Agriculture
Agriculture - methods
Agrochemicals
Biomedical and Life Sciences
Brazil
Conservation of Natural Resources
Crop production
Crops, Agricultural - growth & development
Farmers
Fertilizers
Fertilizers - utilization
Fixation
Fixing
Food
Harvesting
Intensive farming
letter
Life Sciences
Liming
Mineral fertilizers
Phosphorus
Plant Sciences
Soil - chemistry
Soils
Soybeans
Sustainable agriculture
Sustainable production
Tropical environments
Brazil
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Agricultural intensification in the tropics is one way to meet rising global food demand in coming decades 1 , 2 . Although this strategy can potentially spare land from conversion to agriculture 3 , it relies on large material inputs. Here we quantify one such material cost, the phosphorus fertilizer required to intensify global crop production atop phosphorus-fixing soils and achieve yields similar to productive temperate agriculture. Phosphorus-fixing soils occur mainly in the tropics, and render added phosphorus less available to crops 4 , 5 . We estimate that intensification of the 8–12% of global croplands overlying phosphorus-fixing soils in 2005 would require 1–4 Tg P yr –1 to overcome phosphorus fixation, equivalent to 8–25% of global inorganic phosphorus fertilizer consumption that year. This imposed phosphorus ‘tax’ is in addition to phosphorus added to soils and subsequently harvested in crops, and doubles (2–7 Tg P yr –1 ) for scenarios of cropland extent in 2050 6 . Our estimates are informed by local-, state- and national-scale investigations in Brazil, where, more than any other tropical country, low-yielding agriculture has been replaced by intensive production. In the 11 major Brazilian agricultural states, the surplus of added inorganic fertilizer phosphorus retained by soils post harvest is strongly correlated with the fraction of cropland overlying phosphorus-fixing soils ( r 2  = 0.84, p  < 0.001). Our interviews with 49 farmers in the Brazilian state of Mato Grosso, which produces 8% of the world's soybeans mostly on phosphorus-fixing soils, suggest this phosphorus surplus is required even after three decades of high phosphorus inputs. Our findings in Brazil highlight the need for better understanding of long-term soil phosphorus fixation elsewhere in the tropics. Strategies beyond liming, which is currently widespread in Brazil, are needed to reduce phosphorus retention by phosphorus-fixing soils to better manage the Earth's finite phosphate rock supplies and move towards more sustainable agricultural production. Future food demand may require agricultural intensification, which depends on material input such as phosphorous fertilizers. This paper quantifies the necessary P input to intensify global crop production on P-fixing soils, based on Brazilian data.
Bibliography:SourceType-Other Sources-1
ObjectType-Article-2
content type line 63
ObjectType-Correspondence-1
ISSN:2055-0278
2055-0278
DOI:10.1038/nplants.2016.43