殷效申

一、个人简介

姓名：殷效申

学历：博士研究生

职称：副教授

办公电话：无

邮箱：yinxiaoshen@ouc.edu.cn

二、研究方向

通过数量遗传学和群体遗传学分析，解析水生动物重要性状的遗传基础，并以此指导高产抗逆贝类新品种的培育。

Focusing on quantitative and population genetics and genomics, I am interested in exploring the genetic basis underlying variation in complex, fitness-related traits of aquatic animals to inform the production of resistant, high-yielding, commercial bivalves through breeding.

招生方向(Prospective Students)

1. 群体遗传学研究 (Population genetics and genomics)

相关工作(Relevant Publications)：

① Parallel genetic adaptation amidst a background of changing effective population sizes in   divergent yellow perch (Perca flavescens) populations

② Rapid genetic adaptation to recently colonized environments is driven by genes underlying life history traits

③ Incipient resistance to an effective pesticide results from genetic adaptation and the canalization of gene expression

2. 数量遗传学研究 (Quantitative genetics)

相关工作(Relevant Publications)：

① QTL mapping reveals predominantly nonadditive genetic architecture of heterotic growth traits in yearling Pacific oysters Crassostrea gigas

② Overt and concealed genetic loads revealed by QTL mapping of genotype-dependent viability in the Pacific oyster Crassostrea gigas

③ High-density linkage maps based on genotyping-by-sequencing (GBS) confirm a chromosome-level genome assembly and reveal variation in recombination rate for the Pacific oyster Crassostrea gigas

3. 水产动物育种模型与技术开发与应用

相关工作(Relevant Publications)：

① Bayesian hierarchical modeling of yield in incomplete diallel crosses of the Pacific oyster Crassostrea gigas

② A novel method for in vivo assessment of soft tissue weight in bivalves (under review)

如果你对我的研究方向感兴趣，欢迎你阅读相关工作、确定最喜欢的研究方向、与我取得联系！目前，我主要围绕栉孔扇贝与侏儒蛤开展研究，但我们可以共同探讨更多的可能性！

Please do not hesitate to read relevant publications above, pick your favorite research areas, and contact me via email (yinxiaoshen@ouc.edu.cn). While my current research mainly focuses on Zhikong scallop (Chlamys farreri) and dwarf surf clam (Mulinia lateralis), we can always explore more possibilities together. Let’s do good science!

三、研究成果

(#共同一作 co-first author, *通讯作者 corresponding author)

1. Yin, X.*, C.E. Schraidt, M.M. Sparks, P.T. Euclide, T.J. Hoyt, C.R. Ruetz III, T.O. Höök, M.R. Christie*. 2025. Parallel genetic adaptation amidst a background of changing effective population sizes in divergent yellow perch (Perca flavescens) populations. Proc. R. Soc. B 291:20242339.

2. Yin, X.*, D. Hedgecock. 2025. QTL mapping reveals predominantly nonadditive genetic architecture of heterotic growth traits in yearling Pacific oysters Crassostrea gigas. Aquaculture 596 (2025) 741892.

3. Sparks, M.M., C.E. Schraidt, X. Yin, L.W. Seeb, M.R. Christie. 2023. Rapid genetic adaptation to a novel ecosystem despite a large founder event. Molecular Ecology 33:e17121.

4. Yin, X.*, D. Hedgecock. 2021. Overt and concealed genetic loads revealed by QTL mapping of genotype-dependent viability in the Pacific oyster Crassostrea gigas. Genetics 219, iyab165.

5. Yin, X., A.S. Martinez, M.S. Sepúlveda, M.R. Christie*. 2021. Rapid genetic adaptation to recently colonized environments is driven by genes underlying life history traits. BMC Genomics 22:269.

6. Yin, X.#, A.S. Martinez#, A. Perkins, M.M. Sparks, A.M. Harder, J.R. Willoughby, M.S. Sepúlveda, M.R. Christie*. 2021. Incipient resistance to an effective pesticide results from genetic adaptation and the canalization of gene expression. Evolutionary Applications 14:847-859.

7. Yin, X.*, A. Arias-Pérez, T.H. Kitapci, D. Hedgecock. 2020. High-density linkage maps based on genotyping-by-sequencing (GBS) confirm a chromosome-level genome assembly and reveal variation in recombination rate for the Pacific oyster Crassostrea gigas. G3-Genes Genomes Genetics 10:4691-4705.

8. Yin, X.*, D. Hedgecock. 2019. Bayesian hierarchical modeling of yield in incomplete diallel crosses of the Pacific oyster Crassostrea gigas. Aquaculture 510:43-50.