Biochar-based fertilizer: Supercharging root membrane potential and biomass yield of rice

Chew, Jinkiat; Zhu, Longlong; Nielsen, Shaun; Graber, Ellen; Mitchell, David R. G.; Horvat, Joseph; Mohammed, Mohanad; Liu, Minglong; van Zwieten, Lukas; Donne, Scott; Munroe, Paul; Taherymoosavi, Sarasadat; Pace, Ben; Rawal, Aditya; Hook, James; et. al.

Abstract

Biochar-based compound fertilizers (BCF) and amendments have proven to enhance crop yields and modify soil properties (pH, nutrients, organic matter, structure etc.) and are now in commercial production in China. While there is a good understanding of the changes in soil properties following biochar addition, the interactions within the rhizosphere remain largely unstudied, with benefits to yield observed beyond the changes in soil properties alone. We investigated the rhizosphere interactions following the addition of an activated wheat straw BCF at an application rates of 025% (g.g(-1) soil), which could potentially explain the increase of plant biomass (by 67%), herbage N (by 40%) and P (by 46%) uptake in the rice plants grown in the BCF-treated soil, compared to the rice plants grown in the soil with conventional fertilizer alone. Examination of the roots revealed that micron and submicron-sized biochar were embedded in the plaque layer. BCE increased soil Eh by 85 mV and increased the potential difference between the rhizosphere soil and the root membrane by 65 my. This increased potential difference lowered the free energy required for root nutrient accumulation, potentially explaining greater plant nutrient content and biomass. We also demonstrate an increased abundance of plant-growth promoting bacteria and fungi in the rhizosphere. We suggest that the redox properties of the biochar cause major changes in electron status of rhizosphere soils that drive the observed agronomic benefits. (C) 2020 The Authors. Published by Elsevier B.V.

Más información

Título según WOS: ID WOS:000514544700021 Not found in local WOS DB
Título de la Revista: SCIENCE OF THE TOTAL ENVIRONMENT
Volumen: 713
Editorial: Elsevier
Fecha de publicación: 2020
DOI:

10.1016/j.scitotenv.2019.136431

Notas: ISI