Global and regional surface nitrogen balances in intensive agricultural production systems for the periode of 1970-2030

Publication

The major conclusion of the paper is that despite the expected improvement of the efficiency in many countries, it is clear that the fast increase of production and intensification between now and 2030 will almost inevitably lead to increasing environmental losses of Nitrogen. Depending on the characteristics of the system, there will be increasing emissions of NH3 to air, nitrate leaching to groundwater, and release of gaseous N oxides produced during denitrification which play an important role in greenhouse warming (N2O) and ozone chemistry (NO).

Prize awarded to this MNP paper by China Association for Science and Technology

Abstract

Global nitrogen (N) budgets for intensive agricultural systems are compiled for a 0.5 by 0.5 degree resolution. These budgets include N inputs (N fertilizer, animal manure, biological N fixation and atmospheric N deposition) and outputs (N removal from the field in harvested crops and grass and grass consumption by grazing animals, ammonia volatilization, denitrification and leaching). We use data for the historical years 1970 and 1995 and a projection for 2030 to study changes in the recovery of N and the different loss terms for intensive agricultural systems.

The results indicate that the overall system N recovery and fertilizer use efficiency slowly increased in the industrialized countries between 1970 and 1995, the values for developing countries have decreased in the same period. For the coming three decades our results indicate a rapid increase in both the industrialized and developing countries. High values of >80% for fertilizer use efficiency may be related to surface N balance deficits, implying a depletion of soil N and loss of soil fertility.

The projected intensification in most developing countries will cause a gradual shift from deficits to surpluses in the coming decades. Despite the improvement of the efficiency, it is clear that the fast increase of production and intensification will almost inevitably lead to increasing environmental losses of N. Depending on the characteristics of the system, there will be increasing emissions of NH3 to air, nitrate leaching to groundwater, and release of gaseous N oxides produced during denitrification which play an important role in greenhouse warming (N2O) and ozone chemistry (NO).

Authors

Bouwman AF , Drecht G van , Hoek KW van der

Specifications

Publication title
Global and regional surface nitrogen balances in intensive agricultural production systems for the period 1970-2030
Publication date
16 February 2005
Publication type
Publication
Magazine
Pedosphere 2005; 15(2):137-55
Product number
91409