個人著作
期刊論文
K. Loeslakwiboon, H.H. Li, Z.H. Wen, S. Tsai, C. Lin* 2024 Effects of chilling and cryoprotectants on glycans in shrimp embryos. Cryobiology, 116, 104930
F. Buttari, S. Tsai, Z. H. Wen, J.O. Cheng, C. Lin* 2024 First cryorepository for coral larvae: safeguarding corals for future generations. Marine Biology, 2024(1), 4887191
K. Loeslakwiboon, W.C. Hsieh, C.L. Huang, S. Tsai, C. Lin* 2024 First cryorepository for coral larvae: safeguarding corals for future generations. Aquaculture Research,2024(1), 4887191
A. Narida, S. Tsai, Z.H. Wen, P.J. Meng, C.Y. Huang, C. Lin* 2024 Frontiers in cryopreservation techniques for marine invertebrate larvae. Invertebrate Biology, In production
C. Lin* and S. Tsai 2023 New developments in reef coral biotechnology. Applied Sciences. 13(18), 10423. https://doi.org/10.3390/app131810423
A. Mayfield*, C. Lin (2023) Field-testing a proteomics-derived machine-learning model for Predicting Coral Bleaching Susceptibility. Applied Sciences13(3), 1718 doi.org/10.3390/app13031718 *this article belongs to the special issue New Frontiers in Reef Coral Biotechnology
C. Lin*, W.C. Hsieh, K. Loeslakwiboon,C.L. Huang, T.C. Chen, S. Tsai (2023) Refined novel techniques for long term cryo-storage using vitrification and laser warming. bioRxiv doi.org/10.1101/2023.01.04.521297
C. Lin*, W.C. Hsieh, K. Loeslakwiboon, C.L. Huang, T.C. Chen, S. Tsai (2023) Refined techniques for enabling long-term cryo-repository using vitrification and laser warming Bioengineering 10(5), 605; doi.org/10.3390/bioengineering10050605(SCI)
A. Narida, S. Tsai, W.C. Hsieh, Z.H. Wen, L.H. Wang, C.L. Huang, C. Lin* (2023) First successful production of adult corals derived from cryopreserved larvae Frontier in Marine Science doi: 10.3389/fmars.2023.1172102(SCI)
A. Narida, S Tsai*, C.Y. Huang, Z.H. Wen, C. Lin* (2022) The effects of cryopreservation on the cell ultrastructure in aquatic organisms. Biopreservation and Biobanking doi: 10.1089/bio.2021.0132 (SCI) *selected as a high-impact article by the journal’s editorial team
C. Lin*, C.M. Kang, C.Y. Huang, H.H. Li, S. Tsai* (2022) Study on the Development and Growth of Coral Larvae Applied Sciences12, 5255 doi: org/10.3390/app12105255 (SCI). *this article belongs to the special issue New Frontiers in Reef Coral Biotechnology
A. Narida, W.C. Hsieh, C.L. Huang, Z.H. Wen, S Tsai*, C. Lin* (2022) Novel long-term cryo-storage using vitrification and laser warming techniques. Biopreservation and Biobanking. doi.org/10.1089/bio.2022.0033 (SCI)
E.C. Toh, K.L. Liu, S. Tsai*, C. Lin* (2022) Cryopreservation and cryobanking of cells from 100 coral species Cells 11(17), 2668; doi.org/10.3390/cells11172668 (SCI)
A. Mayfield*, A. Dempsey, C.S. Chen, C. Lin (2022) Expediting the search for climate-resilient reef corals in the coral triangle with artificial intelligence. Applied Sciences 12(24), 12955 doi.org/10.3390/app122412955 *this article belongs to the special issue New Frontiers in Reef Coral Biotechnology(SCI)
C. Lin*, C.C. Lin, F.W. Kuo, S. Tsai* (2022) Wild coral oocytes are more amenable to low temperature preservation than cultured counterparts. Marine Environmental Researchdoi.org/10.1016/j.marenvres.2022.105831(SCI)
A. Mayfield*, C. Lin (2022)Leveraging the power of artificial intelligence to identify resilient reef coral genotypes for cryopreservation. Platax 19, 43-58; doi:10.29926/platax.202112_18.0004(SCI)
C.C. Lin, H.H. Li, S. Tsai*, C. Lin* (2022) Tissue cryopreservation and cryobanking: Establishment of a cryogenic resource for coral reefs. Biopreservation and Biobanking. doi: 10.1089/bio.2021.0089 (SCI)
L. Cirino, S Tsai*, L.H. Wang, W.C. Hsieh, C.L. Huang, Z.H. Wen, C Lin* (2022) Effects of cryopreservation on the ultrastructure of coral larvae. Coral Reefs doi.org/10.1007/s00338-021-02209-4 (SCI) *selected as a featured article by the journal's editorial team
L. Cirino, S Tsai*, L.H. Wang, C.S. Chen, W.C. Hsieh, C.L. Huang, Z.H. Wen, C Lin* (2021) Supplementation of exogenous lipids via liposomes improves coral larvae settlement post-cryopreservation and nano-laser warming. Cryobiology 98, 80-86; https://doi.org/10.1016/j.cryobiol.2020.12.004 (SCI)
L. Cirino, S. Tsai*, F.W. Kuo, Z.H. Wen, C. Lin* (2021) Decline of Seriatopora (Scleractinia: Pocilloporidae) fecundity in Taiwan in 2018-2019. Marine Biology research. 17(2), 167-171; doi.org/10.1080/17451000.2021.1906904 (SCI)
H.H. Li, J.L. Lu, H.E. Lo, S. Tsai, C. Lin* (2021) Effect of Cryopreservation on Proteins from the Ubiquitous Marine Dinoflagellate Breviolum sp. (Family Symbiodiniaceae). Plants doi:10.3390/plants10091731(SCI)
S. Rana, M. Giordano, S. Tsai, C. Lin* (2021) Cryopreservation of the green microalga Tetraselmis suecica with a controlled, slow-cooling technique. Platax doi: 10.29926/platax.202112_18.0002
L. Cirino, S Tsai*, Z.H. Wen, L.H. Wang, H.K. Chen, J.O. Cheng, C Lin* (2021) Lipid profiling in chilled coral larvae. Cryobiology doi:10.1016/j.cryobiol.2021.07.012(SCI)
C. McRae, T.Y. Fan, C. Lin, L. Cirino, Z.M. Ye, F.W. Kuo* (2021) First report of successful recruitment by larval conjoined twins in the brooding scleractinian coral Pocillopora acuta, southern Taiwan. Bulletin of Marine Science 97(3), 441-442; doi.org/10.5343/bms.2021.0004(SCI)
C. Lin* (2020) Reproductive differences between cultured and wild corals Atlas of Science 1-2
C. Lin* and S. Tsai (2020) Fifteen years of coral cryopreservation Platax 17, 53-76
S. Di Genio, L.H. Wang., P.J. Meng, S. Tsai*, C. Lin* (2020) Symbio Cryobank: towards the development of a cryogenic archive for the coral reef dinoflagellate symbiont Symbiodiniaceae Biopreservation and Biobanking doi: 10.1089/bio.2020.0071(SCI)
P. Thongpoo, S. Tsai*, C. Lin (2019c) Assessing the impacts of cryopreservation on the mitochondria of a thermotolerant Symbiodinium lineage: implications for reef coral conservation Cryobiology doi.org/10.1016/j.cryobiol.2019.05.011(SCI)
C. Lin*, P. Thongpoo, C. Juri, L.H. Wang, P.J. Meng, F.W. Kuo, S. Tsai* (2019a) Cryopreservation of a thermotolerant lineage of the coral reef dinoflagellate Symbiodinium Biopreservation and Biobanking doi.org/10.1089/bio.2019.0019(SCI)
C. Lin, S. Tsai, A.B. Mayfield* (2019) Physiological differences between cultured and wild coral eggs Biopreservation and Biobanking doi:10.1089/bio.2019.0045(SCI)
L. Cirino, Z.H. Wen, K. Hsieh, C.L. Huang, Q.L. Leong, L.H. Wang, C.S. Chen, J. Daly, S. Tsai*, C. Lin* (2019) First instance of settlement by cryopreserved coral larvae in symbiotic association with dinoflagellates Scientific Reports doi:10.1038/s41598-019-55374-6(SCI)
P. Kuanui, S. Chavanich, V. Viyakarn, M. Omori, T. Fujita, C. Lin (2019) Effect of light intensity on survival and photosynthetic efficiency of cultured corals of different ages Estuarine, Coastal and Shelf Science 235, 106515; doi.org/10.1016/j.ecss.2019.106515(SCI)
A.B. Mayfield, S. Tsai, C. Lin* (2019) The Coral Hospital™. Bioperservation and Biobanking doi.org/10.1089/bio.2018.0137(SCI)
C. Lin*, G. Chong, L.H. Wang, F.W. Kuo, S. Tsai* (2019) The use of luminometry and flow cytometry for evaluating the effects of cryoprotectants in the gorgonian coral endosymbiont Symbiodinium. Phycological research doi.org/10.1111/pre.12386(SCI)
C. Lin*, J.M. Zhuo, G. Chong, L.H. Wang, P.J. Meng, S. Tsai (2018) The effects of aquarium culture on coral oocyte ultrastructure. Scientific Reports 11;8(1), 15159; doi: 10.1038/s41598-018-33341-x (SCI)
J. Daly*, N. Zuchowicz, C.I.N. Lendo, K. Khosla, C. Lager, M. Henley, J. Bischof, F.W. Kleinhans, C. Lin, E.C. Peters and M. Hagedorn (2018) Successful cryopreservation of coral larvae using vitrification and laser warming. Scientific Reports 8:15714; doi:10.1038/s41598-018-34035-0 (SCI)
V. Viyakarn, S. Chavanich, G. Chong, S.Tsai, C. Lin* (2018) Cryopreservation of sperm from the coral Acropora humilis. Cryobiology 80, 130-138 (SCI)
S. Tsai, G. Chong, P.J. Meng, C. Lin* (2017) Sugars as supplemental cryoprotectants for marine organisms. Reviews in Aquaculture doi:10.1111/raq.12195(SCI)
G. Chong, F.W. Kuo, S. Tsai, C. Lin* (2017) Validation of reference genes for cryopreservation studies with the gorgonian coral endosymbiont Symbiodinium. Scientific Reports 7:39396; doi:10.1038/srep39396(SCI)
G. Chong, S. Tsai, C. Lin* (2016) Cryopreservation and its molecular impacts on microorganisms. J. Fish. Soc. Taiwan 43(4), 263-272
G. Chong, S. Tsai, C. Lin* (2016) Factors responsible for successful cryopreservation of algae. J. Fish. Soc. Taiwan 43(3), 153-162
S. Tsai, W.C. Chang., C. Lin* (2016) Ultrastructural observation of oocytes of six types of stony corals. Tissue and Cell 48, 349-355 (SCI) *selected as a featured image by the journal's editorial team
S. Tsai, V. Yang, C. Lin* (2016) Comparison of the cryo-tolerance of vitrified gorgonian oocytes. Scientific Reports 6, 23290; doi:10.1038/srep23290(SCI)
G. Chong, S. Tsai, L.H. Wang, C.Y. Huang, C. Lin* (2016) Cryopreservation of the gorgonian endosymbiont Symbiodinium. Scientific Reports 6, 18816; doi: 10.1038/srep18816(SCI)
S. Tsai, W. Yen, S. Chavanich, V. Viyakarn, C. Lin* (2015) Development of cryopreservation techniques for gorgonian (Junceella juncea) oocytes through vitrification. PLoS ONE doi: 10.1371/journal.pone.0123409(SCI)
S. Tsai, P. Thongpooe, F.W. Kuo, C. Lin* (2015) Impacts of low temperature preservation on mitochondrial DNA copy number in oocytes of the hard coral Echinopora sp. Mitochondrial DNA doi: 10.3109/19401736.2015.1036254(SCI)
P. Kuanui, S. Chavanich*, V. Viyakarn, M. Omori and C. Lin (2015) Effects of temperature and salinity on survival rate of cultured corals and photosynthetic efficiency of the zooxanthellae in coral tissues. Ocean Sci 50(2), 263-268 doi.org/10.1007/s12601-015-0023-3(SCI)
L.H. Wang, C Lin*, C.Y. Huang, S. Tsai* (2015) Studies on lipid content and composition in banded coral shrimp ( Stenopus hispidus) embryos. J Crustacean Biol 35(5), 622-626 (SCI)
S. Tsai, Y. Jhuang, E, Spikings, P.J. Sung, C. Lin* (2014) Ultrastructural observation on the oogenesis of gorgonian coral (Junceella juncea). Tissue Cell 46, 225-232 (SCI) *selected as a featured image by the journal's editorial team
C. Lin*, F.W. Kuo, S. Chavanich, V. Viyakarn (2014) Membrane lipid phase transition behavior of oocytes from three gorgonian corals in relation to chilling injury. PLoS ONE 9(3): e92812. doi:10.1371/journal.pone.0092812(SCI)
S. Tsai, L.H. Wang, C. Lin (2014) The chloroplast large subunit 23sDNA sequence of Symbiodinium fresh isolated from Junceella fragilis. NCBI GenBank accession no. KP201138
S. Tsai, V. Kuit, Z.G. Lin and C. Lin* (2014) Application of a functional marker for the effect of cryoprotectant agents on gorgonian coral (Junceella juncea and J. fragilis) sperm sacs. CryoLetters 35 (1), 1-7(SCI)
S. Tsai, J.C. Chen, E. Spikings, J.J Li and C. Lin* (2014) Degradation of mitochondrial DNA in cryoprotectant-treated hard coral (Echinopora spp.) oocytes. Mitochondrial DNA doi:10.3109/19401736.2013.855734(SCI)
C. Lin, L.H. Wang, P.J. Meng, C.S. Chen and S. Tsai* (2013) Lipid content and composition of oocytes from five coral species: potential implications for future cryopreservation efforts. PloS ONE 8(2): e57823. doi:10.1371/journal.pone.0057823(SCI)
C. Lin, C.C Han and S. Tsai* (2013) Effect of thermal injury on embryos of banded coral shrimp (Stenopus hispidus) under hypothermal conditions. Cryobiology 66, 3-7(SCI)
C. Lin*, L.H. Wang, T.Y. Fan and F.W. Kuo (2012) lipid content and composition during the oocyte development of two gorgonian coral species (Junceella juncea and Junceella fragilis) in relation to low temperature preservation. PloS ONE 7(7): e38689. doi:10.1371/journal.pone.0038689(SCI)
C. Lin and S. Tsai* (2012) The effect of chilling and cryoprotectants on hard coral (Echinopora spp.) oocytes during short-term low temperature preservation. Theriogenology 77, 1257-1261(SCI)
S. Tsai and C. Lin* (2012) Development of an enzymatic method for individual separation of banded coral shrimp (Stenopus hispidus) embryos. Aquacult Res. 43(10), 1509-1514(SCI)
S. Tsai and C. Lin* (2012) Advantages and applications of cryopreservation in fisheries science. Braz. Arch. Biol. Technol 55(3), 425-433(SCI)
C. Lin, F.W. Kuo, T. Zhang and S.Tsai* (2011) Gorgonian coral (Junceella juncea and Junceella fragilis) oocyte chilling sensitivity in the context of adenosine triphosphate response. CryoLetters 32(2)141-147(SCI)
S. Tsai, E. Spikings I.C. Haung and C. Lin* (2011) Study on the mitochondrial activity and membrane potential after exposing later stage oocytes of two gorgonian corals (Junceella juncea and Junceella fragilis) to cryoprotectants. CryoLetters 32(1)1-12 (SCI)
C. Lin and S. Tsai* (2011) The effect of cryopreservation on DNA damage, gene expression and protein abundance in vertebrate. Ital. J. Anim. Sci. 11, 119-122 (SCI)
S. Tsai, E. Spikings, F.W. Kuo and C. Lin* (2010) Use of an adenosine triphosphate assay, and simultaneous staining with fluorescein diacetate and propidium iodide, to evaluate the effects of cryoprotectants on hard coral (Echinopora sp.) oocytes. Theriogenology 73, 605-611 (SCI)
S. Tsai, W.C. Liu and C. Lin* (2010) An efficient approach for cryopreservation of the king grouper (Epinephelus lanceolatus) spermatozoa. Platax 7, 56-66
S. Tsai, E. Spikings and C. Lin* (2010) Effects of the controlled slow cooling procedure on freezing parameters and ultrastructural morphology of Taiwan shoveljaw carp (Varicorhinus barbatulus) sperm. Aquat. Living Resour 23, 119-124(SCI)
S. Tsai and C. Lin* (2009) Effects of cryoprotectant on the embryos of banded coral shrimp (Stenopus hispidus), preliminary studies to establish freezing protocols. CryoLetters 30(5), 373-381(SCI)
C. Lin and S. Tsai* (2009) Factors affecting cryopreservation of cells. Platax 6, 93-106
C. Lin, E. Spikings, T. Zhang and D.M. Rawson (2009) Effect of chilling and cryopreservation on expression of Pax genes in zebrafish (Danio rerio) embryo and blastomeres. Cryobiology 59, 42-47(SCI)
C. Lin, E. Spikings, T. Zhang and D.M. Rawson (2009) Housekeeping genes for cryopreservation studies on zebrafish embryos and blastomeres . Theriogenology 71(7), 1147-55(SCI)
C. Lin, T. Zhang and D.M. Rawson (2009) Cryopreservation of zebrafish (Danio rerio) blastomeres by controlled slow cooling. CryoLetters 30(2), 132-141(SCI)
J.C.Chen and C. Lin (2001) Toxicity of copper sulfate for survival, growth, molting and feeding of juveniles of the tiger shrimp. Penaeus Monodon Aquaculture 192 55-65(SCI)
C. Lin and J.C. Chen (2001) Hemolymph oxyhemocyanin and protein levels and acid-base balance in the tiger shrimp Penaeus Monodon exposed to copper sulfate. J.World Aquaculture Soc 32, 335-341(SCI)