Jie Han
Jie Han
I am the Principal Investigator (PI) of the Environmental and Public Health Group and a Professor with a 'Young Talent Tier A' appointment at Xi'an Jiaotong University (XJTU), member of the 'C9 league' universities in China, which is ranked among the top 10 in science and engineering in the country.
The overall theme of my research is on environment and public health, and much of my previous work was on emerging contaminants, particularly the migration of trace organic compounds into and out of polymers including membranes, common plastics, and elastomers. I have strong interests in advancing public health including exposure identification, risk assessment, mitigation, and science communication to the general public.
Prior to joining XJTU, I received research training and experience from the University of Auckland (UoA), National University of Singapore (NUS), University of Illinois at Urbana Champaign (UIUC), and University of Massachusetts Amherst (UMass Amherst), and worked with the PIs of several world-renowned laboratories in my fields. Since my Auckland times, I have supervised over 50 students, including undergraduates and Master's students who later developed strong interests in scientific research and pursued their PhDs. In the past six years, I have delivered over a dozen research projects as the PI or co-PI, and received over eight million RMB in research funding.
I have a strong passion in scientific writing, editing, and communication. I hold appointments as the Co-Editor-in-Chief of Environmental Chemistry Letters (Springer Nature, JCR Q1, IF 15.0) and I am a member of the Editorial Board of Chemical Engineering Journal (JCR Q1, IF 13.3), Ecotoxicology and Environmental Safety (JCR Q1, IF 6.8), and Animal Diseases (a new journal launched in spring 2021, indexed by ESCI). I serve as a member of the Council of Science Editors (U.S.) and the China Editology Society of Science Periodicals. I am a Senior Member of the Chinese Society for Enviornmental Sciences and hold long-term memberships of the International Water Association (IWA) and the American Chemical Society (ACS).
环境、神经科学与人类行为
Environment, Neuroscience, and Human Behavior
(Image credit: Max Planck Institute for Human Development)
For decades, environmental scientists and toxicologists have studied the impact of environmental factors, most notably anthropogenic contaminants, on human health. Volumes of scientific literature have been published, brilliantly elucidating those findings and concepts. These constitute the foundation of modern environmental science and toxicology.
But their impact may go well beyond that. Humans are highly intelligent species. They think. They generate ideas. They formulate opinions. They make choices and decisions. Hundreds of decisions every day. And they show affections and compassion.
The understanding of human behavior has advanced from empirical, observational studies to cellular or even molecular-level probing. There are observable, scientific mechanisms behind human emotions and behaviors, from motivation, decision-making, cognitive functions, to social activities. Although not well understood today, they have deep roots in neuroscience — the science of studying the structures and functions of the human brain and nervous system.
Environmental neuroscience explores any persistent, transient, or latent impact of the environment, such as light, noise, air, temperature, radiation, pollutants, or other environmental factors, with a focus on how our changing environment and technologies affect the human mind and behavior, as well as the chemical and neurological basis of their underlying links. The complexity of our living environments and our frequent interactions with them makes it challenging to characterize these links. Yet, ample evidence has shown the undeniable link between the environment and human behavior, in studies on mental disorders such as attention-deficit hyperactivity disorder, autism, and Parkinson's disease, and how interactions with natural environments can noticeably improve the cognitive performance and mental health of children.
We want to understand how these environmental factors affect the human brain and nervous system, and how they influence our emotions, decisions, cognitive functions, and behaviors. One interesting example is that taxi drivers in London developed larger hippocampus with enhanced spatial memory, and mice raised in enriched environments performed better in learning new skills. While human brains have evolved to be highly sophisticated, they have also developed particular vulnerabilities to, for instance, addictions. New technologies like smart devices and LED lighting are profoundly changing our living environments, too. Emerging contaminants, radioactive wastes, spillovers of zoonotic pathogens, drug-resistant bacteria, space travel, and the prospect of multi-planetary living means that we humans must adapt to new living environments and variables from cosmic radiation to recently, novel pathogens and lockdowns.
Scientists not only need to find ways for people to live longer, healthier, but happier. There is an essential role for environmental scientists to take on in the ever-longing pursuit of happiness by the humankind. Through various probes and techniques, scientists can tackle the grand challenge of understanding how the environment affects the human mind and behavior. There is a fascinating world full of questions and unknowns that await us to explore. With technological advancements like virtual reality and brain imaging, today we can experiment and explore these like never before.
- Jie Han & Wen Sun, at Xi'an Jiaotong University (2021.08.16) (updated on 2021.09.02)