Projects per year
I'm an evolutionary biologist interested in how natural selection, in combination with other evolutionary forces, creates the extraordinary diversity we see in nature. I’m also interested in how a knowledge of evolutionary processes can be used to address important societal challenges, such as preventing spread of agricultural pests and conserving biodiversity. Details of my research can be found on my personal research website, and a full list of publications can be found on my Google Scholar page.
2016-: BBSRC Future Leader Fellow, University of East Anglia
2015-2016: EGI Research fellow, University of Oxford
2012-2014: NWO Rubicon Research fellow, University of Groningen
2008-2012: PhD, University of East Anglia
2005-2008: BSc (Hons) Ecology (First Class) Biological Sciences, University of East Anglia
Key Research Interests and Expertise
My research uses a combination of DNA sequencing, experimental evolution and natural population sampling to understand complex evolutionary and ecological phenomena. I am currently involved in three, broad projects:
1. ‘Evolve and resequence’ experiments in beetle pests
I have recently been awarded a BBSRC Future Leader Fellowship to use experimental evolution and whole-genome sequencing to understand the genetic basis of thermal adaptation in red flour beetles. This work, in collaboration with Matt Gage at UEA, involves exposing beetle populations to different thermal regimes in the lab over many generations. Then, using whole-genome sequencing and archived samples, we aim to identify key genetic regions involved in adaptation to temperature, and observe how the genome evolves in response to natural selection, in real time.
2. Ecological genomics in wild bird populations
In collaboration with Jon Slate (Sheffield), Ben Sheldon (Oxford), Mirte Bosse and Marcel Visser (Wageningen) and others, I am using genomic approaches to understand evolutionary history and ecological adaptation in great tits (part of the ‘Great Tit HapMap project‘). Using thousands of samples, all genotyped at ~500K SNP markers, we are quantifying population structure, reconstructing evolutionary history, and identifying regions of the genome under selection in one of the most widely studied vertebrates in the world.
3. Candidate gene studies in island birds
With David Richardson and Claire Armstrong (UEA) and Juan Carlos Illera (Oviedo), I have been using neutral markers and candidate gene approaches to understand population history and adaptation in island bird species (Berthelot’s pipit, Seychelles warbler). We have largely focussed on key genes of the immune system (e.g. MHC, TLRs), but are now using genomic methods (exon capture) to understand adaptation at many functional gene classes. We aim to use information gained from genetic data to inform conservation.
Specific post-doc and PhD opportunities will be posted on my website. I am keen to discuss opportunities for hosting post-docs and fellows interested in evolutionary biology and population genetics. Please get in touch if you wish to discuss ideas. I am also happy to chat about PhD opportunities, and can help with funding applications.
- Peer review college member - British Ecological Society
- Grant reviewer - BBSRC, Leverhulme Trust, Ontario Research Fund, Royal Society of New Zealand, Czech Science Foundation
- Communications Officer, School of Biological Sciences
- NERC and BBSRC sift panel member
Dive into details
Select a country/territory to view shared publications and projects
1/10/17 → 30/09/21
Brown, T. J., Spurgin, L. G., Dugdale, H. L., Komdeur, J., Burke, T. & Richardson, D. S., 5 Jul 2021, In : Molecular Ecology.
Research output: Contribution to journal › ArticleOpen AccessFile
Comparative genomics analyses indicate differential methylated amine utilization trait within members of the genus GemmobacterKröber, E., Cunningham, M. R., Peixoto, J., Spurgin, L., Wischer, D., Kruger, R. & Kumaresan, D., Apr 2021, In : Environmental Microbiology Reports. 13, 2, p. 195-208 14 p.
Research output: Contribution to journal › ArticleOpen AccessFile1 Citation (Scopus)4 Downloads (Pure)
Leftwich, P. T., Spurgin, L. G., Harvey-Samuel, T., Thomas, C. J. E., Paladino, L. C., Edgington, M. P. & Alphey, L., 15 Feb 2021, In : Philosophical Transactions of the Royal Society B: Biological Sciences. 376, 1818
Research output: Contribution to journal › ArticleOpen AccessFile5 Downloads (Pure)
Genomic variation, population history and within-archipelago adaptation between island bird populationsMartin, C. A., Armstrong, C., Illera, J-C., Emerson, B. C., Richardson, D. S. & Spurgin, L. G., Feb 2021, In : Royal Society Open Science. 8, 2, 201146.
Research output: Contribution to journal › ArticleOpen AccessFile2 Downloads (Pure)
Spurgin, L. G., Velde, M., Fairfield, E. A., Komdeur, J., Burke, T., Richardson, D. S. & Dugdale, H. L., 15 Feb 2021, In : Molecular Ecology.
Research output: Contribution to journal › ArticleOpen AccessFile2 Citations (Scopus)4 Downloads (Pure)
Data from: Genomic associations with bill length and disease reveal drift and selection across island bird populations
Armstrong, C. (Creator), S Richardson, D. (Creator), Hipperson, H. (Creator), Horsburgh, G. J. (Creator), Kuepper, C. (Creator), Percival-Alwyn, L. (Creator), Clark, M. (Creator), Burke, T. (Creator) & Spurgin, L. (Creator), Dryad data repository, 11 Jan 2018
Data from: Landscape-scale variation in an anthropogenic factor shapes immune gene variation within a wild population
Data from: Pre- and postcopulatory sexual selection favor aggressive, young males in polyandrous groups of red junglefowl