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An integrated study of continental-scale colonization of the Eurasian Tree Sparrow

The global warming affects the environmental conditions for all species on Earth. While some can cope with this, others run the risk of local or global extinction. To better understand how wild species adapt to environmental change is a vital challenge for evolutionary genetics, ecology, and conservation biology.

Forskningsområden: Bioinformatik och genetik

Forskningsämnen: Cellbiologi & genetik, Evolution, Fenotyper, Klimatförändringar, Transcriptomics

Project overview

Project period: 2022 - Ongoing

Participating departments from the museum: Department of Bioinformatics and Genetics

Human-induced activities are the primary drivers of environmental change and global biodiversity loss in the Anthropocene. As the effects of human activities become more profound, it is of great importance to understand how organisms respond to changes in the environment. Identifying what factors that drive adaptation can be made by analysing genomic and phenotypic variation in a single species with a continental-wide distribution.

Project description

The Eurasian Tree Sparrow (Passer montanus), a well-known human commensal bird, is distributed across Eurasia, as well as in parts of United States and Australia to where it was introduced in the 19th century. The tree sparrow occurs in a variety of environments and is locally adapted to vastly different ecological niches. In the project, I apply an integrative approach of comparative genomics, transcriptomics and phenotypic changes to study these adaptations at a continental scale.

In an earlier project, I have successfully identified genomic mechanisms behind observed differences in body shape, beak shape and muscle phenotypes of tree sparrows living at very high elevations (>3000 m a.s.l.) with those in individuals living at low elevations. This work is now expanded to include tree sparrows from all parts of its distribution. I thus have sequenced genomes of more than 400 tree sparrows sampled across Eurasia, as well as in United States and Australia.

By leveraging a chromosome-level, high-quality genome of the tree sparrow, I am especially focusing on the relative roles of human commensalism, environmental heterogeneity and human introduction in genetic adaptation, transcriptomic regulation and phenotypic change. Research on this unique study system provides novel insights into how animals respond to human-induced environmental changes, and, even more importantly, the mechanisms underlying why some species adapt more successfully than others.

A schematic plot showing project design, research topics and methods.

A schematic plot showing project design, research topics and methods.

Funding

  • Swedish Research Council
  • The National Science Foundation of China

Selected publications

  • Chen, Y., Jiang, Z., Fan, P., Ericson, P. G. P., Song, G., Luo, X., Lei, F. & Qu, Y. (2022). The combination of genomic offset and niche modelling provides insights into climate change-driven vulnerability. Nature Communications, 13, doi:10.1038/s41467-022-32546-z Länk till annan webbplats.
  • Qu, Y., Chen, C., Chen, X., Hao, Y., She, H., Wang, M., Ericson, P. G. P., Lin, H., Cai, T., Song, G., Ma, C., Zhang, H., Li, J., Liang, L., Wu, T., Zhao, J., Gao, Q., Zhang, G., Zhai, W., Zhang, C., Zhang, Y. & Lei, F. (2021). The evolution of ancestral and species-specific adaptations in snowfinches at the Qinghai-Tibet Plateau. Proceedings of the National Academy of Sciences, USA, 118, e2012398118. doi:10.1073/pnas.2012398118 Länk till annan webbplats.
  • Ericson, P. G. P., Irestedt, M., Nylander, J. A. A., Christidis, L., Joseph, L. & Qu, Y. (2020). Parallel evolution of bower-building behavior in two groups of bowerbirds suggested by phylogenomics. Systematic Biology, 69, ss. 820-829. doi:10.1093/sysbio/syaa040 Länk till annan webbplats.
  • Qu, Y., Chen, C., Xiong, Y., She, H., Zhang, Y., Cheng, Y., DuBay, S., Li, D., Ericson, P. G. P., Hao, Y., Wang, H., Zhao, H., Song, G., Zhang, H., Zhang, C., Yang, T., Liang, L., Wu, T., Zhao, J., Gao. Q., Zhai, W. & Lei, F. (2019). Rapid phenotypic evolution with shallow genomic differentiation during early stages of high elevation adaptation in Eurasian Tree Sparrows. National Science Review, 7, ss. 113-127. doi:10.1093/nsr/nwz138 Länk till annan webbplats.
  • Hao, Y., Xiong, Y., Cheng, Y., Song, G., Jia, C., Qu, Y. & Lei, F. (2019). Comparative transcriptomics of 3 high-altitude passerine birds and their low-altitude relatives. Proceedings of the National Academy of Sciences, USA, 116, ss. 11851-11856. doi:10.1073/pnas.1819657116 Länk till annan webbplats.
  • Qu, Y., Tian, S., Han, N., Zhao, H., Gao, B., Fu, J., Cheng, Y., Song, G., Ericson, P. G. P., Wang, D., Quan, Q., Jiang, Z., Li, R., Lei, F. & Zhang, Y. (2015). Genetic responses to seasonal variation in altitudinal stress: whole-genome resequencing of great tit in eastern Himalayas. Scientific Reports, 5, 14256. doi:10.1038/srep14256 Länk till annan webbplats.
  • Qu, Y., Zhao, H. W., Han, N., Zhou, G., Song, G., Gao, B., Tian, S., Zhang, J., Zhang, R., Meng, X., Zhang, Y., Zhang, Y., Zhu, Y., Wang, W., Lambert, D., Ericson, P. G. P., Subramanian, S., Yeung, C., Zhu, H., Jiang, Z., Li, R. & Lei, F. (2013). Ground tit genome reveals avian adaptation to living at high altitudes in the Tibetan plateau. Nature Communications, 4, 2071. doi:10.1038/ncomms3071 Länk till annan webbplats.

Project participants

External participants

  • Institute of Zoology, Chinese Academy of Sciences, China
  • Heibei Normal University, China

Project manager

Yanhua Qu

Forskare

Bioinformatik och genetik

Epost-ikon yanhua.qu@nrm.se

Project member

Per Ericson

Professor

Bioinformatik och genetik

Epost-ikon per.ericson@nrm.se

Forskningsområden: Bioinformatik och genetik

Forskningsämnen: Cellbiologi & genetik, Evolution, Fenotyper, Klimatförändringar, Transcriptomics

Innehållsansvarig: Lisa Sundström