<p>Agro-based biochars used together with mineral nitrogen fertilizer are increasingly recognized as climate-smart soil amendments for improving soil fertility and sustaining crop productivity. However, field information on the effects of rice husk biochar, sawdust biochar, and urea on post-harvest soil nutrient status across contrasting rice ecosystems in Nigeria remains limited. This study evaluated the effects of rice husk biochar, sawdust biochar, and urea on post-harvest soil nutrient status and rice performance in upland and lowland rice ecosystems established on Alfisol in Akure and Ultisol in Abakaliki, southern Nigeria. The experiment was conducted as a 2 × 2 × 4 factorial in a randomized complete block design with three replicates, involving two soil types, two rice ecologies/varieties, and four nutrient treatments: control, urea, rice husk biochar + urea, and sawdust biochar + urea. Soil pH, soil organic carbon (SOC), total nitrogen (TN), available phosphorus (P), exchangeable potassium (K), ammonium-N (NH<sub>4</sub><sup>+</sup>-N), nitrate-N (NO<sub>3</sub><sup>-</sup>-N), and rice yield components were assessed and analysed by factorial ANOVA, with mean separation using Tukey’s HSD at <i>P</i> &lt; 0.05. Biochar-urea combinations improved post-harvest soil nutrient status and rice performance relative to the control and, in most cases, sole urea, with the strongest responses occurring in the 0–15&#xa0;cm soil layer. Sawdust biochar + urea produced the highest grain yield of 4202.59&#xa0;kg ha<sup>-1</sup>, straw yield of 4999.21&#xa0;kg ha<sup>-1</sup>, and 1000-grain weight of 30.25&#xa0;g, while rice husk biochar + urea produced statistically comparable grain and straw yields. These results indicate that locally available agro-based biochars can improve fertilizer effectiveness and post-harvest nutrient status under the conditions of this study; however, longer-term and rate-response studies are required before broad field recommendations are made.</p>

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Agro-based biochars combined with nitrogen fertilizer improve soil nutrient status and rice performance in contrasting soils of southern Nigeria

  • Adeyemo Adebayo Jonathan,
  • Ogboji Simon Nwafor,
  • Ayorinde Adeyemi Samuel,
  • Akinnagbe Evelyn Atinuke,
  • Ariyo Adetoyosi Catherine,
  • Awodun Moses Adeyemi

摘要

Agro-based biochars used together with mineral nitrogen fertilizer are increasingly recognized as climate-smart soil amendments for improving soil fertility and sustaining crop productivity. However, field information on the effects of rice husk biochar, sawdust biochar, and urea on post-harvest soil nutrient status across contrasting rice ecosystems in Nigeria remains limited. This study evaluated the effects of rice husk biochar, sawdust biochar, and urea on post-harvest soil nutrient status and rice performance in upland and lowland rice ecosystems established on Alfisol in Akure and Ultisol in Abakaliki, southern Nigeria. The experiment was conducted as a 2 × 2 × 4 factorial in a randomized complete block design with three replicates, involving two soil types, two rice ecologies/varieties, and four nutrient treatments: control, urea, rice husk biochar + urea, and sawdust biochar + urea. Soil pH, soil organic carbon (SOC), total nitrogen (TN), available phosphorus (P), exchangeable potassium (K), ammonium-N (NH4+-N), nitrate-N (NO3--N), and rice yield components were assessed and analysed by factorial ANOVA, with mean separation using Tukey’s HSD at P < 0.05. Biochar-urea combinations improved post-harvest soil nutrient status and rice performance relative to the control and, in most cases, sole urea, with the strongest responses occurring in the 0–15 cm soil layer. Sawdust biochar + urea produced the highest grain yield of 4202.59 kg ha-1, straw yield of 4999.21 kg ha-1, and 1000-grain weight of 30.25 g, while rice husk biochar + urea produced statistically comparable grain and straw yields. These results indicate that locally available agro-based biochars can improve fertilizer effectiveness and post-harvest nutrient status under the conditions of this study; however, longer-term and rate-response studies are required before broad field recommendations are made.