Biochar impacts on soil water dynamics: knowns, unknowns, and research directions

Acharya, Bharat Sharma; Dodla, Syam; Wang, Jim J.; Pavuluri, Kiran; Darapuneni, Murali; Dattamudi, Sanku; Maharjan, Bijesh; Kharel, Gehendra

doi:10.1007/s42773-024-00323-4

Biochar

2024

DOI: 10.1007/s42773-024-00323-4

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Biochar impacts on soil water dynamics: knowns, unknowns, and research directions

Bharat Sharma Acharya,

Syam Dodla,

Jim J. Wang

et al.

Abstract: Amidst intensifying global agricultural water demand, optimizing management practices and understanding the role of soil amendments, particularly biochar (BC), in modulating soil water dynamics are critical. Here, we review the potential impacts of BC on soil water dynamics, elucidate mechanistic underpinnings, and identify critical research gaps and prospective avenues. In general, BC modifies soil structure, hydraulic properties, surface albedo, and heat fluxes, which influence soil water storage, energy bal… Show more

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Biochar‐Amended Soils: A Water‐Saving Strategy for Quinoa Cultivation in the Andes

Condori‐Ataupillco,

Flores‐Marquez,

Quispe

et al. 2024

J of Sust Agri & Env

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IntroductionPrevious studies showed that biochar amended soils significantly enhanced the growth and yield of quinoa under water limitations. So it becomes an emerging agronomic strategy to consider for sustainable quinoa production. Biochar can specifically be considered for the area particularly receiving low annual rainfall and more vulnerable to current climate change conditions.Materials and MethodsA field experiment was conducted using the quinoa variety INIA 415 Pasankalla, employing a factorial design to assess the effects of different application rates of biochar made of municipal pruning waste and agricultural waste (0, 1, 2, and 3 t·ha⁻¹), and three irrigation intervals (irrigation every 5 days, irrigation every 10 days, and irrigation every 15 days). The volumetric soil moisture content, the soil hydraulic properties, and quinoa's biometric characteristics and yield components were evaluated.ResultsThe results indicated that the longest irrigation intervals (10 and 15 days) resulted in soil moisture levels between 19% and 40% below the wilting point (soil matric potential: −1.5 MPa), creating water stress conditions. However, biochar application increased the field capacity from 0.31 to 0.38 g H₂O g⁻¹ soil, raised soil air content from 22% to 29% at irrigation, and promoted the quinoa's soil water absorption below the wilting point. Furthermore, the application of 3 t·ha⁻¹ of biochar significantly enhanced quinoa yield, increasing it from 3.18 to 4.22 t·ha⁻¹, along with improvements in leaf area, total biomass, root length, and panicle length by 70.74%, 76.54%, 14.34%, and 16.55%, respectively.ConclusionsIt was concluded that a 3 t·ha⁻¹ biochar application mitigated the negative effects of water stress caused by prolonged irrigation intervals. This biochar treatment improved the soil's physical properties and enabled the quinoa variety INIA 415 Pasankalla to achieve yields close to its theoretical productive potential.

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Biochar‐Amended Soils: A Water‐Saving Strategy for Quinoa Cultivation in the Andes

Condori‐Ataupillco,

Flores‐Marquez,

Quispe

et al. 2024

J of Sust Agri & Env

View full text Add to dashboard Cite

show abstract

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Biochar impacts on soil water dynamics: knowns, unknowns, and research directions

Cited by 1 publication

References 146 publications

Biochar‐Amended Soils: A Water‐Saving Strategy for Quinoa Cultivation in the Andes

Biochar‐Amended Soils: A Water‐Saving Strategy for Quinoa Cultivation in the Andes

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