International Journal of Marine Science, 2024, Vol.14, No.2, 94-101 http://www.aquapublisher.com/index.php/ijms 101 Maintaining the sustainability of marine biological resources has potential impacts on preserving marine bioactive substances. This involves establishing and enforcing resource management policies and regulations to control the quantity and methods of collection and fishing, preventing overexploitation and destructive fishing activities. Additionally, establishing marine protected areas at the national level is an important method to protect specific marine organisms and ecosystems, limiting human activities. Continuous scientific research and monitoring help understand the status of marine biological resources, enabling better management strategies and alerting to any adverse trends. Adopting sustainable fishing and collection methods can reduce damage and waste, ensuring the renewability of resources. International cooperation is crucial to share information and best practices, protecting and managing global marine biological resources. The integrated application of these methods can help fully utilize this precious resource while safeguarding marine ecosystems to benefit future generations. Acknowledgments I would like to extend special thanks to Professor Liu Jianming for his guidance and valuable instructions throughout the completion of this paper. References Chen X., Chen X.X., Chen Q., and Lin N.F., 2018, Brief description to active material of marine organism, Fujian Nongye Keji (Fujian Agricultural Science and Technology), 43(2): 83-86. Fakhreddin S.H., Leila R., and Julian D.M., 2021, Recent advances in nanoencapsulation of hydrophobic marine bioactives: Bioavailability, safety, and sensory attributes of nano-fortified functional foods, Trends Food Sci. Tech., 109: 322-339. https://doi.org/10.1016/j.tifs.2021.01.045 Gammone M.A., Antonella D., and Nicolantonio D., 2020, Anti-angiogenetic agents from the sea: a new potential preventive and therapeutic wave, Anti-cancer agents me., 20(17): 2005-2011. https://doi.org/10.2174/1871520620666200705215226 Kandi S., Stephen B.I., and Chen B.H., 2021, Recent developments on production, purification and biological activity of marine peptides, Food Res. Int., 147: 110468-110468. https://doi.org/10.1016/j.foodres.2021.110468 Nicolini G.V., José G.E., Gomes M.K., Rauber S.T., Favero D.C., Rafaele F., Felipe S.A., Sidnei M.S., Kuchenbecker R.C., Pêgas H.J.A., and Mariana R.E., 2023, Desmarestia anceps Montagne modulates inflammatory response in experimental periodontitis in male Wistar rats, Arch. Oral Biol., 157: 105825-105825. https://doi.org/10.1016/j.archoralbio.2023.105825 Riccioni G., Girolamo M.D., Cusenza S., GemelloE., Orazio N.D., and Gammone M.A., 2021, Marine bioactives: pharmacological properties and potential applications against inflammatory diseases, Marine Drugs, 10(4): 812-833. https://doi.org/10.3390/md10040812 Sun Y.B., Zhang H.J., Jing D.W., Li N., Liang J.L., and Yuan K.B., 2019, Advance in supercritical carbon dioxide extraction of bioactive substance from marine life, Shipin Gongye (The Food Industry), 40(1): 286-290. Xiao M.F., Wang L., Tian H.R., Liu B., and Zeng F., 2022, Research progress on anti-fatigue function of marine bioactive substances, Shipin yu Jixie (Food and Machinery), 38(9): 211-218. Yang C.F., Qin S., and Li W.J., 2020, Advances in anti-inflammatory bioactive substances derived from marine organisms, Haiyang Kexue (Marine Sciences), 44(11): 102-113. You J.Y., 2019, Research progress in the development of marine microbial drugs, Zhongguo Gaoxin Keji (China High-Tech), (9): 101-104.
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