Background and aims <p>Integrating biochar (BC) into agriculture promotes sustainable management of farm residues and carbon sequestration in soil. This study evaluates a novel approach combining suspended biochar with phosphorus (P) fertilizer to assess its effectiveness in promoting P nutrition during early maize (<i>Zea mays</i> L<i>.</i>) growth.</p> Methods <p>Biochar suspension (equivalent to 300 kg dry biochar ha<sup>−1</sup>) was mixed with liquid P fertilizer (30 kg P ha<sup>−1</sup>, <sup>33</sup>P-labeled) and band-applied to maize in the rhizobox experiment. Five treatments—control without fertilizer, BC only, P fertilizer only, and combined BC + P with and without plants—aimed to assess the effect of biochar on soil P dynamics and plant P uptake.</p> Results <p>Our findings demonstrate that liquid P fertilizer can be effectively combined with biochar suspension without reducing P availability. After 38 days, up to 25% of fertilizer-P was recovered in the soil’s available P pool, regardless of BC presence. <sup>33</sup>P-imaging confirmed that P movement from the fertilizer band was not restricted by BC.</p> <p>Fertilizer increased plant P uptake, height, biomass, leaf area, root length and volume. Biochar significantly increased fertilizer-P recovery in plants from 14.9% to 17.6%, supporting nutrient cycling and fertilizer efficiency. <sup>33</sup>P-imaging revealed higher activity of <sup>33</sup>P in maize roots with BC + P co-application, though P redistribution patterns remained unchanged; plant roots showed neither preference nor suppression near biochar, even upon direct contact.</p> Conclusion <p>Localized co-application of biochar and P in suspension promotes maize growth during critical early stages and increases phosphorus use efficiency, supporting sustainable agriculture and a circular economy.</p> Graphical Abstract <p></p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Localized fertilizer co-applied with biochar suspension can increase phosphorus uptake by maize while enabling carbon-sequestration benefits

  • Iryna Loginova,
  • Nataliya Bilyera,
  • Callum Banfield,
  • Yakov Kuzyakov,
  • Michaela A. Dippold

摘要

Background and aims

Integrating biochar (BC) into agriculture promotes sustainable management of farm residues and carbon sequestration in soil. This study evaluates a novel approach combining suspended biochar with phosphorus (P) fertilizer to assess its effectiveness in promoting P nutrition during early maize (Zea mays L.) growth.

Methods

Biochar suspension (equivalent to 300 kg dry biochar ha−1) was mixed with liquid P fertilizer (30 kg P ha−1, 33P-labeled) and band-applied to maize in the rhizobox experiment. Five treatments—control without fertilizer, BC only, P fertilizer only, and combined BC + P with and without plants—aimed to assess the effect of biochar on soil P dynamics and plant P uptake.

Results

Our findings demonstrate that liquid P fertilizer can be effectively combined with biochar suspension without reducing P availability. After 38 days, up to 25% of fertilizer-P was recovered in the soil’s available P pool, regardless of BC presence. 33P-imaging confirmed that P movement from the fertilizer band was not restricted by BC.

Fertilizer increased plant P uptake, height, biomass, leaf area, root length and volume. Biochar significantly increased fertilizer-P recovery in plants from 14.9% to 17.6%, supporting nutrient cycling and fertilizer efficiency. 33P-imaging revealed higher activity of 33P in maize roots with BC + P co-application, though P redistribution patterns remained unchanged; plant roots showed neither preference nor suppression near biochar, even upon direct contact.

Conclusion

Localized co-application of biochar and P in suspension promotes maize growth during critical early stages and increases phosphorus use efficiency, supporting sustainable agriculture and a circular economy.

Graphical Abstract