林子杰，男，福建福安人，best365中国官方网站教师。东京大学水圈生物科学专业硕士博士（导师：Prof. Kiyoshi Kikuchi 及Prof. Sho Hosoya），苏州大学博士后（导师：凌去非教授）。获多项国家级及省级人才项目。主要研究方向为经济鱼类基因组育种与胁迫生理解析，以第一作者及共同通讯作者发表10余篇相关SCI论文。多次参加水产育种国际学会，发表研究海报及演讲。担任《Aquaculture》等国际期刊审稿人。致力于闽东特色水产种质资源开发与利用，开展经济鱼类育种的理论创新研究。本科生指导方向为水产食品精加工。精通英语及日语，欢迎相关领域企业及学者交流合作。联系方式: a295501332@hotmail.com

主要论文

[1]Lin, Z., Liang, S., Wei, Y., Cai, Z., Zhang, G., Ling, Q., 2025. Embryonic temperature influences transcriptomic and methylation profiles in the liver of juvenile largemouth bass. Journal of Thermal Biology

[2]Lin, Z., Cai, Z., Li, L., Wei, Y., Ling, Q., 2024. c-Jun N-terminal kinase 1/P53 signaling mediates intrinsic apoptosis of largemouth bass (Micropterus salmoides) hepatocytes under heat stress. Science of the Total Environment 947, 174664.

[3]Lin, Z., Yoshikawa, S., Hamasaki, M., Kikuchi, K., Hosoya, S., 2025. Automated phenotyping empowered by deep learning for genomic prediction of body size in the tiger pufferfish, Takifugu rubripes. Aquaculture 595, 741491. 独立一作

[4]Lin, Z., Yoshikawa, S., Hamasaki, M., Kikuchi, K., Hosoya, S., 2024. Heritability and predictive ability for the heterobothriosis resistance and growth performance in the tiger pufferfish Takifugu rubripes fed standard or low fishmeal diets. Aquaculture 588, 740909.

独立一作

[5]Lin, Z., Yoshikawa, S., Hamasaki, M., Koyama, T., Kikuchi, K., Hosoya, S., 2022. Effects of low fishmeal diets on growth performance, blood chemical composition, parasite resistance, and gene expression in the tiger pufferfish, Takifugu rubripes. Aquaculture 560, 738484. 独立一作

[6]Lin, Z., Hosoya, S., Sato, M., Mizuno, N., Kobayashi, Y., Itou, T., Kikuchi, K., 2020. Genomic selection for heterobothriosis resistance concurrent with body size in the tiger pufferfish, Takifugu rubripes. Scientific Reports 10, 19976. 独立一作

国际学会（部分）

[1]Lin, Z., Yoshikawa, S., Hamasaki, M., Kikuchi, K., Hosoya, S., 2024. Fostering Sustainable Aquaculture in Tiger Pufferfish Through the Integration of Low Fishmeal Diets and Genomic Selection. Bridging selective breeding and cutting-edge biotechnologies-Transformative Technological Innovations for Strengthening Aquaculture Resilience, Tokyo

[2]Lin, Z., Yoshikawa, S., Hamasaki, M., Kikuchi, K., Hosoya, S., 2023. Low Fishmeal Diet Can Modify Genetic Architecture Underlying Growth Performance and Heterobothriosis Resistance in the Tiger Pufferfish, Takifugu rubripes. 13th Asia Pacific Marine Biotechnology Conference (APMBC), Adelaide.

[3]Lin, Z., Yoshikawa, S., Chuda, H., Kikuchi, K., Hosoya, S., 2021. Harnessing Deep Learning Models and Fish Images to Establish an Automatic Measurement System for Body Size in Genome Prediction. Spring Meeting of JSFS, Tokyo.