Principle Investigator Apr. 2015- May. 2018
The National University Student Innovation Program
(No. 201610055097,US $ 4, 500)
Advisor: Dr. Fuchen Shi, College of Life Sciences, NKU
I lead a three members group to run this project supported by the National Undergraduate Innovation Training Program which focused on haze-fog pollution in northern China. This project has allowed to:
In April, 2018, we successfully defended in oral defense in our college and got the highest score. And this project also awarded the Second Prize as an excellent project in the “National University Student Innovation Program” of Creative Research for the Undergraduates of Nankai University.
Ref: Runxi Wang, Xin Wang, Hongrui Wu, Lihong Zu and Fuchen Shi*. Accumulation of Heavy Metals and Resistant Responses in Current-year Old Needles of Pinus tabuliformis Carrière. and Pinus bungeana Zucc. in Different Atmospheric Environment. XIX International Botanical Congress (IBC 2017)Abstract Book, (Ⅱ): 324. DOI: 10.13140/RG.2.2.31379.58406
Lihong Zu, Xin Wang, Runxi Wang, Hongrui Wu, Yaping Huang and Fuchen Shi*. Study on heavy metal accumulation and resistance of Pinus bungeana Zucc. in different atmospheric environment. Journal of Agro-environment science, 36(11): 2207-2215. DOI:10.11654/jaes.2017-0332
Lihong Zu, Yaping Huang, Runxi Wang, Xin Wang, Cong Shi, Guangshuang Shen, Fuchen Shi*. Accumulation characteristics and physiological responses of Sabina chinensis and Platycladus orientalis needles to heavy metals along the urbanization gradient. Submitted
(No. 201610055097,US $ 4, 500)
Advisor: Dr. Fuchen Shi, College of Life Sciences, NKU
I lead a three members group to run this project supported by the National Undergraduate Innovation Training Program which focused on haze-fog pollution in northern China. This project has allowed to:
- Determine the accumulation characteristics of heavy metals in needles of 8 pine tree species (Cedrus deodara, Pinus tabulaeformis, Pinus bungeana, Picea meyeri, Picea wilsonii, Sabina chinensis, Sabina chinensis cv. Kaizuca and Platycladus orientalis) widely living in heavy haze-fog pollution regions of northern China.
- Summarize the effective eco-physiological factors of heavy metals accumulation in needles and analyse the resistant responses of heavy metals in needles.
In April, 2018, we successfully defended in oral defense in our college and got the highest score. And this project also awarded the Second Prize as an excellent project in the “National University Student Innovation Program” of Creative Research for the Undergraduates of Nankai University.
Ref: Runxi Wang, Xin Wang, Hongrui Wu, Lihong Zu and Fuchen Shi*. Accumulation of Heavy Metals and Resistant Responses in Current-year Old Needles of Pinus tabuliformis Carrière. and Pinus bungeana Zucc. in Different Atmospheric Environment. XIX International Botanical Congress (IBC 2017)Abstract Book, (Ⅱ): 324. DOI: 10.13140/RG.2.2.31379.58406
Lihong Zu, Xin Wang, Runxi Wang, Hongrui Wu, Yaping Huang and Fuchen Shi*. Study on heavy metal accumulation and resistance of Pinus bungeana Zucc. in different atmospheric environment. Journal of Agro-environment science, 36(11): 2207-2215. DOI:10.11654/jaes.2017-0332
Lihong Zu, Yaping Huang, Runxi Wang, Xin Wang, Cong Shi, Guangshuang Shen, Fuchen Shi*. Accumulation characteristics and physiological responses of Sabina chinensis and Platycladus orientalis needles to heavy metals along the urbanization gradient. Submitted
- Study area and sampling sites
- The plants we studied: Pinus tabuliformis Carrière. and Pinus bungeana Zucc.
- The poster of our project in IBC 2017