東京科学大学 環境・社会理工学院 融合理工学系. クロス研究室
Institute of Science Tokyo, School of Environment and Society
Transdisciplinary Science and Engineering
环境毒理学小组利用化学、环境工程和能源工程知识。研究既涉及基础理论,也涉及实际应用。研究探讨不同污染物对生态系统、食物链和人类福祉的影响。
EPA: Conducting an Ecological Risk Assessment
Keang Kimleng
IGP-A (MEXT Scholarship), Energy Course, D1 student
Effects of microplastics on interspecies energy storage, conversion and transfer, environmental policy
Microplastics (MPs) are a pressing environmental concern, captivating scientists and the public due to their small size and persistent presence. Easily ingested by marine organisms, MPs pose threats to ecosystems and human health. Despite their minuscule scale, MPs present complex risks, with their biological mechanisms not fully understood. To accurately assess these risks, understanding interactions between MPs, exposure levels, and other pollutants is crucial.
Therefore, through this research, studying the impact of microplastics (MPs) on Chlorella, Daphnia, and Zebrafish, considering variations in materials, shapes, sizes, polymer types, exposure conditions, and combinations with other chemicals will be conducted.
Develop an Ecological Risk Assessment (ERA) framework, including hazard, exposure, effects, and risk characterization will be obtained. Consequently, Ecological Network Analysis (ENA) will be built to map interactions and tropic relationships within the ecosystem.
Snehal Wasnik
IGP-C, GEDES Course, D1 student
Uptake and Effect of Cocktail of Tire Rubber Particle on Paddy
The global production of tire has reached over 19.25 million tonnes in 2019 and is projected to increase by 3.4% in 2024. Currently, there are over 1.47 billion automobiles on the roads. While driving, braking and accelerating the automobiles produce the Tire Were Particles (TWPs), and there are emitting 5.9 million tons/year tire particles in environments. The Crumb rubber (CR) generated form the playground and spores fields also contribute into environment. These tire rubber particles enter into the agriculture files through the various ways, such as road runoff and sludge form the wastewater treatment plants that use biosolids as fertilisers. Both TWR and CR contain a complex mixture of metals and chemical additives. Our research will explore the effect of both the particle forms and their leachate seep into paddy fields.
ZHANG HAOGE
IGP-C, Energy Course, M1 student
Assessment of toxic effects of quantum dots on trophic transfer and energy transfer.
A variety of engineered nanoparticles, such as carbon nanotubes, quantum dots, metal-containing nanoparticles have been extensively used in numerous consumer goods, including detergents, printing, paints, cosmetics, bactericides, coatings, computer electronics, sunscreen, tires and drug delivery systems. Quantum dots, also known as semiconductor crystals, are a class of inorganic fluorophores with outstanding photophysical properties that are being increasingly used in medical imaging and industry.
With the rapid development in commercial and biomedical applications of quantum dots(QDs), this kind of new pollutant may eventually enter the environment. Residual QDs may release toxic metal ions into the environment during the weathering process, exhibiting toxicity to Chlamydomonas reinhardtii, bacteria, macroinvertebrates, and even human beings.Therefore, it is of great importance to understand the environmental toxicity and transfer route of QDs.