Yujia Wu scite author profile

Understanding the origins and introduction pathways of invasive species is a fundamental issue for invasion biology, which is necessary for predicting and preventing future invasion. Once an invasive species is established in a new location, this location could serve as a stepping‐stone for further invasions. However, such “stepping‐stone” effect has not been widely investigated. Using the published literature and records, we compiled the first found locations of 127 top invasive species in China. Our study showed that the most common landing spots of these invasive species were Hong Kong (22 species) and Taiwan (20 species), which accounted for one‐third of the invasive species in China. Our analysis revealed that the invasive species in mainland China were more likely to transport from Hong Kong than Macau, a neighboring region with a similar area and colonial history. Similarly, more invasive species were also first landed on Taiwan than Hainan, a nearby island sharing similar climate conditions. Together, our findings indicate that Hong Kong and Taiwan are the most important stepping‐stones for invasive species to the mainland of China and suggesting that the increasing trade exchange of China's coastal ports constitutes a potential risk for the spread of more invasive species. We suppose that they would be the future stepping‐stones for invasive species to the mainland of China and these coastal ports regions where improved biosecurity is needed now.

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Effects of the exhaust gas recirculation rate and ambient gas temperature on the spray and combustion characteristics of soybean biodiesel and diesel

Huang

Lee

et al. 2011

Proceedings of the Institution of Mechanical Engineers, Part D:

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Experiments were conducted in a constant-volume combustion chamber to investigate the spray and combustion characteristics of soybean biodiesel (B100) and diesel (B0). The in-cylinder density was kept at 15 kg/m3 and the ambient oxygen concentrations of 21, 18, and 15 per cent were maintained to simulate no exhaust gas recirculation (EGR), medium EGR, and heavy EGR in diesel engines respectively. The ambient gas temperature was varied from 800 K to 1200 K. The in-cylinder pressure and heat release rate were measured and the liquid penetration, natural flame emission, and soot formation characteristics were studied via new optical diagnostics. The results show that the peak pressure decreases with increasing ambient gas temperature and decreasing oxygen concentration for B0, except that at the oxygen concentration of 15 per cent. For B100, a higher peak pressure is obtained at the oxygen concentration of 15 per cent as opposed to that of 18 per cent. A lower heat release rate is found for B100 at the oxygen concentrations of 21 per cent and 18 per cent compared to B0, while a higher value is shown at the oxygen concentration of 15 per cent. The liquid penetration increases with decreasing oxygen concentration and ambient gas temperature. As the oxygen concentration increases for B0 at the ambient gas temperature from 800 K to 1000 K, the integrated natural flame luminosity (INFL) increases, while at 1200 K, the INFL at the oxygen concentration of 15 per cent has the highest value. For B100, with increasing oxygen concentration, the INFL increases at 800 K and 900 K, but decreases at 1000 K and 1200 K. The total soot mass increases with decreasing oxygen concentration and the soot formation duration is longer at a lower oxygen concentration. B100 has a shorter soot formation duration and soot is dramatically reduced by burning B100. The peak soot mass for B100 at 1200 K is comparable to that for B0 at 800 K.

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Emission characteristics of PM2.5 and components of condensable particulate matter from coal-fired industrial plants

Liu

et al. 2021

Science of The Total Environment

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Yujia Wu

Migration and distribution characteristics of organic and inorganic fractions in condensable particulate matter emitted from an ultralow emission coal-fired power plant

Are Hong Kong and Taiwan stepping‐stones for invasive species to the mainland of China?

Effects of the exhaust gas recirculation rate and ambient gas temperature on the spray and combustion characteristics of soybean biodiesel and diesel

Emission characteristics of PM2.5 and components of condensable particulate matter from coal-fired industrial plants

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