Pollution caused by antibiotics and antibiotic resistance genes (ARGs) has drawn a lot of attention in recent years. They can affect the ecosystem and be transferred to specific soilborne plant pathogens through horizontal gene transfer, thus entering the food chain and endangering human health. A research team from Hong Kong Metropolitan University (HKMU) has developed a unique soil improvement formulation, known as “3-in-1 Soil”, which improves soil quality by significantly reducing the bioavailability of antibiotics and ARGs in the soil to address the risk of antibiotic and ARG contamination in the terrestrial environment.
Antibiotics are biologically active substances that are widely used in the treatment and prevention of diseases for humans and livestock, as well in promoting livestock growth. Antibiotics and their metabolites are discharged into the environment through animal feces and factory wastewater. If they infiltrate farmland, these antibiotics will enter the soil environment and crops grown in the soil, causing further contamination. Given the increased use of antibiotics, there is great concern about the potential environmental contamination caused by antibiotics and their corresponding ARGs. They have the potential to affect plant growth and productivity, and lead to the bioaccumulation and transportation of antibiotics in plants. Soil pathogens may also acquire resistance to antibiotics through gene transfer, thus further contributing to the accumulation of antibiotics in the food chain and adversely influencing human health and the safety of the ecosystem.
Dr Livia Pan and her team at the School of Science and Technology of HKMU developed the “3-in-1 Soil” soil amendment formulation, which is a mixture of three waste-derived materials – sewage sludge, Chinese medicinal herbal residue and biochar – which can be added to the soil to enhance the nutrient content of the soil, significantly reduce antibiotic concentrations in the soil and the bioavailability of ARGs, and promote their degradation, thus improving the soil quality.
Sludge is rich in nitrogen, phosphorus, potassium and other essential elements for soil and crops; Chinese medicinal herbal residue is composed of plant fibre and is thus rich in carbon; and biochar can improve microbial communities in the soil. To determine the golden formula for its “3-in-1 Soil”, Dr Pan and her team conducted multiple trials to test the growth of different crops. The results showed that adding 20% of the formulation to the soil was the most effective, increasing the soil nutrient content and significantly reducing the amount of antibiotics and ARGs in the soil.
Dr Pan said, “In this research project, we mixed various types of environmental waste as soil conditioners and found that the “3-in-1 Soil” formulation can most effectively reduce the bioavailability of antibiotics and ARGs in the soil, while significantly improving the soil quality to provide an ideal growing environment for crops. In the future, the team will continue to optimise the formula to further improve its effectiveness”.
The research was supported by the Research Grants Council’s Faculty Development Scheme, and it was granted a short-term patent in Hong Kong. The University looks forward to continuing to publish research results in different areas to give back to the community through scientific research.
Jonathan handles all external affairs include business development, patents write up and public relations. He is frequently interviewed by media and is considered a pioneer in 3D printing products.
After graduating from OUHK, Krutz obtained an M.Sc. in Engineering Management from CityU. He is now completing his second master degree, M.Sc. in Biomedical Engineering, at CUHK. Krutz has a wide range of working experience. He has been with Siemens, VTech, and PCCW.
Hugo Leung Wai-yin, who graduated from his four-year programme in 2015, won the Best Paper Award for his ‘intelligent pill-dispenser’ design at the Institute of Electrical and Electronics Engineering’s International Conference on Consumer Electronics – China 2015.
The pill-dispenser alerts patients via sound and LED flashes to pre-set dosage and time intervals. Unlike units currently on the market, Hugo’s design connects to any mobile phone globally. In explaining how it works, he said: ‘There are three layers in the portable pillbox. The lowest level is a controller with various devices which can be connected to mobile phones in remote locations. Patients are alerted by a sound alarm and flashes. Should they fail to follow their prescribed regime, data can be sent via SMS to relatives and friends for follow up.’ The pill-dispenser has four medicine slots, plus a back-up with a LED alert, topped by a 500ml water bottle. It took Hugo three months of research and coding to complete his design, but he feels it was worth all his time and effort.
Hugo’s public examination results were disappointing and he was at a loss about his future before enrolling at the OUHK, which he now realizes was a major turning point in his life. He is grateful for the OUHK’s learning environment, its industry links and the positive guidance and encouragement from his teachers. The University is now exploring the commercial potential of his design with a pharmaceutical company. He hopes that this will benefit the elderly and chronically ill, as well as the society at large.
Soon after completing his studies, Hugo joined an automation technology company as an assistant engineer. He is responsible for the design and development of automation devices. The target is to minimize human labor and increase the quality of products. He is developing products which are used in various sections, including healthcare, manufacturing and consumer electronics.
| Course Code | Title | Credits | |
|---|---|---|---|
| COMP S321F | Advanced Database and Data Warehousing | 5 | |
| COMP S333F | Advanced Programming and AI Algorithms | 5 | |
| COMP S351F | Software Project Management | 5 | |
| COMP S362F | Concurrent and Network Programming | 5 | |
| COMP S363F | Distributed Systems and Parallel Computing | 5 | |
| COMP S382F | Data Mining and Analytics | 5 | |
| COMP S390F | Creative Programming for Games | 5 | |
| COMP S492F | Machine Learning | 5 | |
| ELEC S305F | Computer Networking | 5 | |
| ELEC S348F | IOT Security | 5 | |
| ELEC S371F | Digital Forensics | 5 | |
| ELEC S431F | Blockchain Technologies | 5 | |
| ELEC S425F | Computer and Network Security | 5 |
| Course Code | Title | Credits | |
|---|---|---|---|
| ELEC S201F | Basic Electronics | 5 | |
| IT S290F | Human Computer Interaction & User Experience Design | 5 | |
| STAT S251F | Statistical Data Analysis | 5 |
| Course Code | Title | Credits | |
|---|---|---|---|
| COMPS333F | Advanced Programming and AI Algorithms | 5 | |
| COMPS362F | Concurrent and Network Programming | 5 | |
| COMPS363F | Distributed Systems and Parallel Computing | 5 | |
| COMPS380F | Web Applications: Design and Development | 5 | |
| COMPS381F | Server-side Technologies and Cloud Computing | 5 | |
| COMPS382F | Data Mining and Analytics | 5 | |
| COMPS390F | Creative Programming for Games | 5 | |
| COMPS413F | Application Design and Development for Mobile Devices | 5 | |
| COMPS492F | Machine Learning | 5 | |
| ELECS305F | Computer Networking | 5 | |
| ELECS363F | Advanced Computer Design | 5 | |
| ELECS425F | Computer and Network Security | 5 |
