Abstract <p>Straw and biochar amendments markedly influence soil N<sub>2</sub>O emissions in subtropical Moso bamboo forests, but the microbial mechanisms driving these responses remain elusive. This study aimed to assess the contrasting influences of maize straw and its derived biochar on soil N<sub>2</sub>O emissions in a subtropical Moso bamboo forest. Straw amendment (5&#xa0;t&#xa0;C&#xa0;ha<sup>−1</sup>) stimulated N<sub>2</sub>O emission by 16–27% (<i>P</i> &lt; 0.05). However, biochar addition (5&#xa0;t&#xa0;C&#xa0;ha<sup>−1</sup>) decreased the concentrations of NH<sub>4</sub><sup>+</sup> by 11–14%, NO<sub>3</sub><sup>−</sup> by 11–15% and water-soluble organic nitrogen for 14–17%, and decreased the abundances of ammonia-oxidising bacterial <i>amoA</i> by 40–45%, <i>nirK</i> by 30–36%, <i>nirS</i> by 24–32% and associated genera <i>Nitrosospira</i>, <i>Mesorhizobium</i>, <i>Bradyrhizobium</i>, <i>Rhizobium</i>, <i>Pseudomonas</i>, and <i>Cupriavidus</i>. Biochar also decreased the activities of enzymes related to organic N hydrolysis (protease and urease) and denitrification (nitrate reductase and nitrite reductase), and thus decreased N<sub>2</sub>O emissions by 17–20% (<i>P</i> &lt; 0.05). Furthermore, biochar enhanced the abundance of <i>nosZ</i> gene (by 40–46%) and its dominant genera (<i>Mesorhizobium</i>, <i>Bradyrhizobium</i>, and <i>Azospirillum</i>), which facilitated N<sub>2</sub>O reduction. In contrast, straw inhibited the growth of these dominant genera and lowered the abundance of <i>nosZ</i> gene (by 24–38%). These results highlight the varied responses of nitrification and denitrification processes and hence N<sub>2</sub>O emission to the application of straw and biochar in soils of a subtropical Moso bamboo forest.</p> Graphical Abstract <p></p> Highlights <p><UnorderedList Mark="Bullet"> <ItemContent> <p>Maize straw enhances but its biochar lowers N<sub>2</sub>O emissions</p> </ItemContent> <ItemContent> <p>Biochar decreases organic N hydrolysis and denitrifying enzyme activities</p> </ItemContent> <ItemContent> <p>Biochar reduces the abundances of AOB <i>amoA</i>, <i>nirK</i> and <i>nirS</i> and dominant genera</p> </ItemContent> <ItemContent> <p>Biochar promotes the abundances of <i>nosZ</i> gene and its dominant genera</p> </ItemContent> </UnorderedList></p>

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Opposing effects of maize straw and its biochar on soil N2O emissions by mediating microbial nitrification and denitrification in a subtropical Moso bamboo forest

  • Mouliang Xiao,
  • Caixian Tang,
  • Zhenhui Jiang,
  • Jiashu Zhou,
  • Yu Luo,
  • Tida Ge,
  • Lixia Pan,
  • Bing Yu,
  • Yanjiang Cai,
  • Jason C. White,
  • Yongfu Li

摘要

Abstract

Straw and biochar amendments markedly influence soil N2O emissions in subtropical Moso bamboo forests, but the microbial mechanisms driving these responses remain elusive. This study aimed to assess the contrasting influences of maize straw and its derived biochar on soil N2O emissions in a subtropical Moso bamboo forest. Straw amendment (5 t C ha−1) stimulated N2O emission by 16–27% (P < 0.05). However, biochar addition (5 t C ha−1) decreased the concentrations of NH4+ by 11–14%, NO3 by 11–15% and water-soluble organic nitrogen for 14–17%, and decreased the abundances of ammonia-oxidising bacterial amoA by 40–45%, nirK by 30–36%, nirS by 24–32% and associated genera Nitrosospira, Mesorhizobium, Bradyrhizobium, Rhizobium, Pseudomonas, and Cupriavidus. Biochar also decreased the activities of enzymes related to organic N hydrolysis (protease and urease) and denitrification (nitrate reductase and nitrite reductase), and thus decreased N2O emissions by 17–20% (P < 0.05). Furthermore, biochar enhanced the abundance of nosZ gene (by 40–46%) and its dominant genera (Mesorhizobium, Bradyrhizobium, and Azospirillum), which facilitated N2O reduction. In contrast, straw inhibited the growth of these dominant genera and lowered the abundance of nosZ gene (by 24–38%). These results highlight the varied responses of nitrification and denitrification processes and hence N2O emission to the application of straw and biochar in soils of a subtropical Moso bamboo forest.

Graphical Abstract

Highlights

Maize straw enhances but its biochar lowers N2O emissions

Biochar decreases organic N hydrolysis and denitrifying enzyme activities

Biochar reduces the abundances of AOB amoA, nirK and nirS and dominant genera

Biochar promotes the abundances of nosZ gene and its dominant genera