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Biochar addition mitigates nitrogen loss induced by straw incorporation and nitrogen fertilizer application

Na Li, Xingxia Ma, Hongwei Xu, Yongzhong Feng, Guangxin Ren, Gaihe Yang, Xinhui Han, Xiaojiao Wang, Chengjie Ren

2020Soil Use and Management15 citationsDOI

Abstract

Abstract Biochar has been shown to be potentially beneficial for enhancing yields and soil properties, and diminishing nitrogen (N) losses. However, it remains unclear how biochar regulates soil carbon (C) and N to mitigate N losses induced by straw mixing with N fertilizer in dryland soils. Therefore, we investigated the effects of straw mixing (S 1 ), S 1 with biochar (SB) and no straw inputs (S 0 ), and routine urea application rates (N 1 ) and 70% of routine rates (N 0.7 ) on yields and N losses, and identify the relationship between N losses and soil C and N compounds. Results showed that N 0.7 and N 1 were suitable for the maize and wheat seasons, respectively, contributing to mitigating N losses without reducing crop yields. Moreover, in the maize season, N 0.7 ‐SB significantly mitigated the straw‐induced NH 3 ‐N and N 2 O‐N emissions by 106% and 81%, respectively. In the wheat season, N 1 ‐SB reduced the straw‐induced NH 3 ‐N and N 2 O‐N emissions by 35% and 66%, respectively. In addition, N 0.7 ‐SB sharply reduced soil inorganic N (SIN) storage in the maize season. Furthermore, the NH 3 ‐N and N 2 O‐N emission rates were negatively correlated with dissolved organic carbon/SIN content (0–20 cm) (DOC/SIN 0‐20 ). N losses (N 2 O‐N and NH 3 ‐N emissions and SIN storage) were positively correlated with SIN 0‐20 , but negatively correlated with soil organic carbon / SIN 0‐20 (SOC/ SIN 0‐20 ). This study provides further evidence that biochar with an appropriate N application rate decreased SIN 0‐20 and increased DOC/SIN 0‐20 , thus reducing SIN storage and the straw‐induced gaseous N emissions without decreasing crop yields.

Topics & Concepts

BiocharStrawNitrogenChemistryFertilizerUreaAgronomySoil carbonSoil waterCarbon fibersAnimal scienceEnvironmental scienceSoil sciencePyrolysisMaterials scienceBiologyInorganic chemistryOrganic chemistryComposite materialComposite numberSoil Carbon and Nitrogen DynamicsPhosphorus and nutrient managementPlant nutrient uptake and metabolism