Biorefinery-assisted soil management for enhancing food security
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SOILS, SEC 3 • REMEDIATION AND MANAGEMENT OF CONTAMINATED OR DEGRADED LANDS • SHORT ORIGINAL COMMUNICATION
Biorefinery-assisted soil management for enhancing food security Iris K.M. Yu 1,2 & Daniel C.W. Tsang 2
&
Deyi Hou 3
Received: 8 April 2020 / Accepted: 9 July 2020 # Springer-Verlag GmbH Germany, part of Springer Nature 2020
Abstract Purpose This communication aims to foster the integration of biorefinery and soil management for achieving Sustainable Development Goals (SDGs). Methods The latest advances in biomass waste utilization and soil quality improvement are reviewed, based on which we identify the opportunity of bridging the two research areas and suggest strategic approaches for mutual benefits to waste management and soil amendment. Results and discussion Globally, large amounts of biomass wastes from agricultural residues and food supply chains are produced each year. Thermochemical conversion of biomass wastes into macro-biopolymeric materials such as biochar can be applied as soil amendment to mediate soil acidity, increase water holding capacity, modify soil biota and retain nutrients, thus improving soil health and crop yield. The economic feasibility has been demonstrated in the literature and can be further improved by designing more cost-effective biochar. In addition, fine chemicals including valuable organic substances (e.g. succinic acid as pesticide) as well as nutrients (e.g. phosphorous) can be obtained from biomass wastes via fractionation/extraction and thermochemical or biological upgrading. Compared with biochar, bio-derived chemicals as soil additives are less explored and present an untapped potential in the massive market for agricultural utilization. The application of waste-derived products in the food supply chain demands rigorous quality assurance/control for compliance with safety-related legislation. Conclusions The two approaches of agricultural waste valorization fall in the production of macro-size materials and fine chemicals, which can be coordinated by integrating complementary technologies, to offer benefits of maximal utilization of wastes as resources and high carbon recovery. A new scenario is expected to feature collaborations between biorefinery experts, environmental/chemical engineers and soil scientists to cater for the manufacturing and evaluation of products. Such a new research model will promote sustainable soil management to actualize a resilient future. Keywords Biochar . Biorefinery . Organic wastes
1 Introduction Responsible editor: Claudio Colombo * Daniel C.W. Tsang [email protected] 1
Green Chemistry Centre of Excellence, The University of York, York YO10 5DD, UK
2
Department of Civil and Environmental Engineering, The Hong Kong Polytechnic University, Hung Hom, Kowloon, Hong Kong, China
3
School of Environment, Tsinghua University, Beijing 100084, China
A tremendous amount of organic wastes, generated from agricultural cropping systems and food supply chains, has incurred enormous burdens to the global environment. For example, ove
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