林志华:修订间差异
小 (导入1个版本) |
meta>Unknown user 无编辑摘要 |
||
| 第1行: | 第1行: | ||
== '''性别''' == | |||
男 | |||
== '''工作单位''' == | |||
浙江万里学院 | |||
== '''职称/职务''' == | |||
研究员 | |||
== '''主要研究方向''' == | |||
海洋贝类种质资源、繁殖和遗传育种研究,以及健康养殖基础理论和应用技术研究。 | |||
== '''工作年限(从事该领域研究的起始时间)''' == | |||
40年(起始:1985) | |||
== '''论文著作''' == | == '''论文著作''' == | ||
1. | 1. Genome-wide methylome and transcriptome dynamics provide insights into epigenetic regulation of kidney functioning of large yellow croaker (Larimichthys crocea) during low-salinity adaption,Aquaculture,2023,571:739410,SCI一区,通讯作者; | ||
2. | 2. Insight into the genetic basis of ammonia tolerance in razor clam Sinonovacula constricta by genome-wide association study,Aquaculture,2023,569:739351,SCI一区,通讯作者; | ||
3. | 3. Gut microbiome composition likely affects the growth of razor clam Sinonovacula constricta,Aquaculture,2022,550:737847,SCI一区,通讯作者; | ||
4. | 4. Heritability estimates for ammonia resistance and growth-related traits in the razor clam Sinonovacula constricta,Aquaculture,2022,549:737750,SCI一区,通讯作者; | ||
5. | 5. Transcriptomic identification of key genes in Pacific oysters Crassostrea gigas responding to major abiotic and biotic stressors,Fish and Shellfish Immunology,2022,131:1027-1039,SCI一区,通讯作者; | ||
6. | 6. Transcriptome and methylome dynamics in the gills of large yellow croaker (Larimichthys crocea) during low-salinity adaption,Frontiers in Marine Science,2023,10:1082655,SCI一区,通讯作者; | ||
7. | 7. H3K4me3 CUT and Tag and transcriptome analysis reveal the epigenetic regulatory landscape in gill tissue of large yellow croaker (Larimichthys crocea) under low salinity stress,Frontiers in Marine Science,2022,9:906337,SCI一区,通讯作者; | ||
8. | 8. Transcriptomic analysis of gill and hepatopancreas in razor clam (Sinonovacula constricta) exposed to acute ammonia,Frontiers in Marine Science,2022,9:832494,SCI一区,通讯作者; | ||
9. | 9. Identification, Phylogeny and Expressional Profiles of Peptidoglycan Recognition Protein (PGRP) Gene Family in Sinonovacula constricta,Journal of Ocean University of China,2022,21(4):1051-1060,SCI二区,通讯作者; | ||
10. Changes in bacterial communities of Kumamoto oyster larvae during their early development and following Vibrio infection resulting in a mass mortality event,Marine Biotechnology,2022,25(1):30-44,SCI二区,通讯作者。 | 10. Changes in bacterial communities of Kumamoto oyster larvae during their early development and following Vibrio infection resulting in a mass mortality event,Marine Biotechnology,2022,25(1):30-44,SCI二区,通讯作者。 | ||
2025年9月23日 (二) 17:09的版本
性别
男
工作单位
浙江万里学院
职称/职务
研究员
主要研究方向
海洋贝类种质资源、繁殖和遗传育种研究,以及健康养殖基础理论和应用技术研究。
工作年限(从事该领域研究的起始时间)
40年(起始:1985)
论文著作
1. Genome-wide methylome and transcriptome dynamics provide insights into epigenetic regulation of kidney functioning of large yellow croaker (Larimichthys crocea) during low-salinity adaption,Aquaculture,2023,571:739410,SCI一区,通讯作者;
2. Insight into the genetic basis of ammonia tolerance in razor clam Sinonovacula constricta by genome-wide association study,Aquaculture,2023,569:739351,SCI一区,通讯作者;
3. Gut microbiome composition likely affects the growth of razor clam Sinonovacula constricta,Aquaculture,2022,550:737847,SCI一区,通讯作者;
4. Heritability estimates for ammonia resistance and growth-related traits in the razor clam Sinonovacula constricta,Aquaculture,2022,549:737750,SCI一区,通讯作者;
5. Transcriptomic identification of key genes in Pacific oysters Crassostrea gigas responding to major abiotic and biotic stressors,Fish and Shellfish Immunology,2022,131:1027-1039,SCI一区,通讯作者;
6. Transcriptome and methylome dynamics in the gills of large yellow croaker (Larimichthys crocea) during low-salinity adaption,Frontiers in Marine Science,2023,10:1082655,SCI一区,通讯作者;
7. H3K4me3 CUT and Tag and transcriptome analysis reveal the epigenetic regulatory landscape in gill tissue of large yellow croaker (Larimichthys crocea) under low salinity stress,Frontiers in Marine Science,2022,9:906337,SCI一区,通讯作者;
8. Transcriptomic analysis of gill and hepatopancreas in razor clam (Sinonovacula constricta) exposed to acute ammonia,Frontiers in Marine Science,2022,9:832494,SCI一区,通讯作者;
9. Identification, Phylogeny and Expressional Profiles of Peptidoglycan Recognition Protein (PGRP) Gene Family in Sinonovacula constricta,Journal of Ocean University of China,2022,21(4):1051-1060,SCI二区,通讯作者;
10. Changes in bacterial communities of Kumamoto oyster larvae during their early development and following Vibrio infection resulting in a mass mortality event,Marine Biotechnology,2022,25(1):30-44,SCI二区,通讯作者。
