Maize stover biochar increases urea ( 15 N isotope) retention in soils but does not promote its acquisition by plants during a 4-year pot experiment

Liu, Zunqi; Cheng, Xiangdong; Sun, Daquan; Meng, Jun; Chen, Wenfu

doi:10.4067/s0718-58392017000400382

Cited by 4 publications

(3 citation statements)

References 32 publications

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“…A similar positive impact of biochar on N recovery result of also observed from a previous study [76]. Liu et al [77] demonstrated that the inclusion of biochar with urea accelerated fertilizer N retention and increased N mineralization in the soil, which possibly resulted in enhanced N uptake with the improved FNR of rice.…”

Section: Nitrogen Use Efficiency (Nue) and Recoverysupporting

confidence: 81%

Combined Use of Biochar with 15Nitrogen Labelled Urea Increases Rice Yield, N Use Efficiency and Fertilizer N Recovery under Water-Saving Irrigation

et al. 2022

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Biochar is a potential carbon-rich soil amendment that improves the physicochemical properties of soil, besides acting as a controlled release fertilizer. An experiment was conducted to investigate the effect of biochars on rice yield, fertilizer use efficiency and recovery under water-saving irrigation by 15N isotopic tracer study. Two types of irrigation as alternate wetting and drying (AWD) and continuous flooding (CF), and four types of biochar treatments such as rice husk biochar (RHB) with 15N urea, oil palm empty fruit bunch biochar (EFBB) with 15N urea, 15N urea alone and control, were applied to assess their impact on rice. About 4% reduced grain yield with 18% improved water productivity was achieved by the AWD regime over the CF, whereas RHB and EFBB significantly increased rice yield compared to unamended soil. RHB and EFBB enhanced the water productivity up to 25.3%. The fertilizer N uptake and recovery were boosted by RHB and EFBB up to 18.8% and 24.5%, respectively. RHB and EFBB accelerated the agronomic use efficiency and partial factor productivity of N (up to 21% and 8%, respectively). RHB and EFBB profoundly enhanced the pH, the total C and N and the available N (NH4+ and NO3−) of the post-harvest soil. This study suggests that adding RHB and EFBB with urea improves fertilizer N utilization and soil N retention, and their combination with AWD could enhance rice yield with better water productivity due to their porous structure and controlled N release capacity.

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Section: Nitrogen Use Efficiency (Nue) and Recoverysupporting

confidence: 81%

Combined Use of Biochar with 15Nitrogen Labelled Urea Increases Rice Yield, N Use Efficiency and Fertilizer N Recovery under Water-Saving Irrigation

et al. 2022

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“…For zucchini (corgette) crops, biochar increased N and P use efficiency has been noted on calcareous sandy soil (El-Eyuoon et al, 2017). In maize, it effectively improved the N use efficiency and yield on poor sandy soil (Omara et al, 2020) and reduced N loss from loamy soil (Liu, Cheng et al, 2017;Liu, He et al, 2017).…”

Section: Nutrient Use Efficiencymentioning

confidence: 99%

“…Meena et al (2020) have reported enhanced soil organic carbon, ammonium-N, and nitrate-N concentration in soil with the mixed application of biochar and N fertilizer than without biochar. However, a 4-year pot experiment by (Liu, Cheng et al, 2017;Liu, He et al, 2017) claimed an increase in retention of urea in soil but without acquisition by the plant when maize stover biochar was added. Furthermore, Melaku et al (2020) observed a lower marginal agronomic efficiency with biochar amendment than sole N predicting that plants utilized applied nutrients more efficiently without biochar at low doses of chemical fertilizers.…”

Section: Nutrient Use Efficiencymentioning

confidence: 99%

Biochar‐based land development

et al. 2022

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Biochar or pyrogenic carbon, obtained from the thermo‐chemical conversion of biomass in an anaerobic or oxygen‐limited environment, has been in use in agriculture perhaps as far back as the Neolithic. Its unique soil‐ameliorating properties render it suitable for environmental remediation as well as sustainable crop production. It improves soil physicochemical properties and plant nutrient availability, reduces toxic chemical load, facilitates biodiversity, and reduces the emission of greenhouse gases thereby subsiding global warming. The application of biochar can reduce soil erosion, improve soil hydrological properties, and help soil microbial dynamics. It has synergistic effects on plant growth, disease‐pest resistance, and crop yield per unit area and time. Due to its soil‐ameliorative effects and soil and water‐conserving ability, it can be used beneficially in organic farming, permaculture, dryland farming, conservation agriculture, and land remediation. Cheaper production cost, simple, and easy pyrolytic technologies, easy availability of feedstock and bio‐wastes in many developing countries, and its long‐term effects on soil not only build up the soil carbon pool but also help support small and marginal farmers in resource‐rich but economically deprived countries for sustainable agriculture and land development. In this review, efforts have been made to elucidate various uses of biochar, its characteristics and applications effects on soil systems, land development, and sustainable agricultural production toward achieving United Nations Sustainable Development Goals (UN‐SDGs).

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Application of C and N isotopes to the study of biochar biogeochemical behavior in soil: A review

Feng,

Wang,

Zimmerman

et al. 2024

Earth-Science Reviews

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Maize stover biochar increases urea ( 15 N isotope) retention in soils but does not promote its acquisition by plants during a 4-year pot experiment

Cited by 4 publications

References 32 publications

Combined Use of Biochar with 15Nitrogen Labelled Urea Increases Rice Yield, N Use Efficiency and Fertilizer N Recovery under Water-Saving Irrigation

Combined Use of Biochar with 15Nitrogen Labelled Urea Increases Rice Yield, N Use Efficiency and Fertilizer N Recovery under Water-Saving Irrigation

Biochar‐based land development

Application of C and N isotopes to the study of biochar biogeochemical behavior in soil: A review

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