Biochar-based nitrogen fertilizers: Greenhouse gas emissions, use efficiency, and maize yield in tropical soils

Aline Peregrina Puga; Priscila Grutzmacher; Carlos Eduardo Pellegrino Cerri; Victor Sanches Ribeirinho; Cristiano Alberto de Andrade

doi:10.1016/j.scitotenv.2019.135375

Biochar-based nitrogen fertilizers: Greenhouse gas emissions, use efficiency, and maize yield in tropical soils

Sci Total Environ. 2020 Feb 20:704:135375. doi: 10.1016/j.scitotenv.2019.135375. Epub 2019 Nov 23.

Authors

Aline Peregrina Puga¹, Priscila Grutzmacher², Carlos Eduardo Pellegrino Cerri³, Victor Sanches Ribeirinho², Cristiano Alberto de Andrade⁴

Affiliations

¹ Embrapa Meio Ambiente, Rodovia SP 340, km 127,5, 13820-000 Jaguariúna, SP, Brazil. Electronic address: linepuga@gmail.com.
² Embrapa Meio Ambiente, Rodovia SP 340, km 127,5, 13820-000 Jaguariúna, SP, Brazil.
³ Soil Science Department, Luiz de Queiroz College of Agriculture, University of São Paulo, Piracicaba, São Paulo, Brazil. Electronic address: cepcerri@usp.br.
⁴ Embrapa Meio Ambiente, Rodovia SP 340, km 127,5, 13820-000 Jaguariúna, SP, Brazil. Electronic address: cristiano.andrade@embrapa.br.

PMID: 31806299
DOI: 10.1016/j.scitotenv.2019.135375

Abstract

The sustainable development of agriculture depends on increasing N use efficiency (NUE) and consequently reducing N losses from different sources, such as NH₃ volatilization, NO₃^- leaching, and N₂O emissions. While the chemical and physical properties of biochar (BC) in fertilizers have been evaluated to increase NUE, a lack of information exists regarding the effects of BC amendments in tropical soils. We performed a one-year field experiment with tropical soil to evaluate the effects of BC-based N fertilizers (BN) on maize yield and on greenhouse gas (GHG) emissions. The treatments consisted of five fertilizers: ammonium nitrate (AN), urea (U), BN_51/10 (51% BC, 10% N), BN_40/17 (40% BC, 17% N), BN_29/20 (29% BC, 20% N), and a control (without N fertilizer). The N fertilizers (80 kg N ha^-1) were broadcast 20 days after sowing. Yield, grain N uptake, NUE, ammonia volatilization, and GHG emissions were measured. The results demonstrated the potential of BNs to enhance the efficiency of the fertilizers. BN_51/10 and BN_40/17 had an average maize yield that was 26% higher than that of U, and BN_51/10 resulted in a NUE that was 12% higher than what was observed for U. Both the effects on yield and NUE were attributed to lower N release rates of the BN-amended fertilizers compared to that of the conventional soluble N sources. The BC-based fertilizers presented better environmental performance, and BN_51/10 showed the lowest emission intensity when C sequestration by BC was not considered, with a value that was 14% lower than that of the U treatment. When considering C sequestration by BC, the emission intensity of the C equivalents demonstrated that all BNs presented C sequestration that differed from that of the mineral N sources. BC-based nitrogen fertilizers may have promising applications for sustainable agricultural development by mitigating N losses and increasing C stocks.

Keywords: Ammonia; Biochar; CH(4) emission; Increased efficiency; N loss; N(2)O emission.

MeSH terms

Agriculture / methods*
Charcoal / chemistry*
Fertilizers*
Greenhouse Gases / analysis*
Nitrogen / analysis*
Soil / chemistry
Zea mays

Substances

Fertilizers
Greenhouse Gases
Soil
biochar
Charcoal
Nitrogen