研究興趣
研究領域為海洋化學、海洋碳循環、海洋放射性化學、海洋環境有機化學、生態養殖
代表著作
Hung C.-C., H.-H. Hsieh, W.-C. Chou, E.-C. Liu, C.H. Chow, Y. Chang, T.-M. Lee, P.H. Santschi, R.R.M.K.P. Ranatunga, H.P. Bacosa, Y.-Y. Shih* (2024) Assessing CO2 sources and sinks in and around Taiwan: Implication for achieving regional carbon neutrality by 2050. Marine Pollution Bulletin, accepted.
Lin, T.-Y., C.-L. Chen , Y.-Y. Shih , H.-H. Hsieh , W.-J. Huang , P. H. Santschi and C.-C. Hung* (2023) A Smallholders’ Mariculture Device for Rearing Seafood: Environmentally Friendly and Providing Improved Quality. Sustainability 2023, 15, 862. https://doi.org/10.3390/su15010862.
Hsieh H.-H., Y.-Y. Shih, S.-H. Wu, H. P. Bacosa and C.-C. Hung* (2023) Oceanic Blue Carbon in Seas around Taiwan. Marine Research, 3(2), 19-36, DOI:10.29677/MR.202312_3(2).0002.
Weerakkody, W.S., K.H. Ling, H.-H. Hsieh, V.G. Abedneko, J.-F. Shyu, T.-M. Lee, Y.-Y. Shih, K. Ranatunga, P.H. Santschi, C.-C. Hung* (2023) Carbon capture by macroalgae Sarcodia suae using aquaculture wastewater and solar energy for cooling in subtropical regions. Science of the Total Environment, https://doi.org/10.1016/ j.scitotenv.2022.158850.
Hung, C.-C., B. Huang, W.-C. Chou, K. Soong and F.L.L. Muller* (2022) Editorial: Biogeochemical and ecological responses to windor tide-induced disturbances over marginal seas. Frontiers in Marine Science, DOI: 10.3389/fmars.2022.1051194.
Piyawardhana N., V. Weerathunga , H.-S. Chen , L. Guo , P.-J. Huang , R.R.M.K.P. Ranatunga , C.-C. Hung* (2022) Occurrence of microplastics in commercial marine dried fish in Asian countries. Journal of Hazardous Materials, DOI: https://doi.org/10.1016/j.jhazmat.2021.127093.
Hsieh, H.‑H., V. Weerathunga , W. S. Weerakkody, W.‑J. Huang , F. L. L. Muller , M. C. Benfeld & C.‑C. Hung* (2021) The effects of low pH on the taste and amino acid composition of tiger shrimp. Scientific Reports, 11:21180, DOI: https://doi.org/10.1038/s41598-021-00612-z.
Shih, Y.-Y., F.-K. Shiah, C.-C. Lai, W.-C. Chou, J.-H. Tai, Y.-S. Wu, C.-Y. Lai, C.-Y. Ko and C.-C. Hung* (2021) Comparison of primary production using in situ and satellite-derived values at the SEATS station in the South China Sea. Frontiers in Marine Science, DOI: https://doi.org/10.3389/fmars.2021.747763.
Hsieh, H.-H., M.-H. Chuang, Y.-Y. Shih, S.W. Weerallodige, W.-J. Huang, C.-C. Hung*, F.L.L. Muller, R.R.M.K.P. Ranatunga and D.S. Wijethunga (2021) Eutrophication and Hypoxia in Tropical Negombo Lagoon, Sri Lanka. Frontiers in Marine Science. DOI: 10.3389/fmars.2021.678832.
Chow, C. H., Y.-Y. Shih, Y.-T. Chien, J. Y. Chen, N. Fan, W.-C. Wu and C.-C. Hung* (2021) The wind effect on biogeochemistry in eddy cores in the Northern South China Sea. Frontiers in Marine Science-Marine Ecosystem Ecology. DOI: 10.3389/fmars.2021.717576.
重要研究與突破
評估臺灣及周邊地區二氧化碳的源與匯: 對 2050 年實現區域碳中和的影響: 臺灣承諾在2050年實現淨零碳排放,但目前臺灣的碳匯情況仍不確定。我們提出減少二氧化碳排放的潛在策略,並提出二氧化碳去除方法(CDR)。臺灣及其周邊地區的森林、沉積物和海洋碳匯分別約為21.5、42.1和96.8 Mt-CO2 y−1,遠低於臺灣的二氧化碳排放量(280 Mt-CO2 y−1)。臺灣必須制定使用電動車、再生能源和氫能等脫碳政策。除此之外,需更精確地評估陸地和海洋碳匯,開發新型CDR,例如碳捕獲和儲存的生物能源、造林、再造林、生物炭、海藻種植和海洋鹼度增強等,以在2050年實現碳中和。
Reference: Hung et al., 2024.
臺灣週邊海域的海洋碳匯: 十多年來,我們執行了近百次航行,在台灣周圍海域施放漂浮式沉積物收集器,以了解海洋初級生產者驅動的碳通量輸出。多年的研究顯示颱風、風暴、內波和中尺度渦流會顯著影響碳輸出。在臺灣專屬經濟區(EEZ)內,東海、南海北部和北太平洋西部的碳封存量分別為49.3±14.9、19.9±4.5和26.4±7.8 Mt-CO2年。颱風過後碳輸出通量增加約1.7至3倍,極端天氣事件期間增加2至3倍,中尺度渦流區域增加3至5倍,內波後增加2倍。
Reference: Hsieh et al., 2023. Hung et al., 2009. Hung et al., 2010. Hung and Gong, 2011. Shih et al., 2015.
(07) 525-5490
cchung@mail.nsysu.edu.tw