Announcements

Researchers of the Estonian University of Life Sciences involved in publishing silver birch (Betula pendula) genome

A research team led by Professors Jarkko Salojärvi and Jaakko Kangasjärvi (Dept. Biosciences, University of Helsinki, Finland), involving multiple partners from research institutions in Finland, Estonia, UK, and USA published the birch genome. Two researchers from the Estonian University of Life Sciences, Dr. Leila Pazouki and Prof. Ülo Niinemets, were involved in this pioneering research.

Silver birch is an extremely wide-spread Eurasian tree, often dominating temperate and boreal forests. Due to high growth rates and high-quality timber, it is the main tree species for commercial forestry in northern countries. Despite its high commercial value, the genome of silver birch had not been sequenced yet.

Due to its wide geographic dispersal, populations of this plant species are and have been strongly affected by environmental changes. Particularly, temperature is the main factor affecting its growth and development. At present, temperature has increased more than 1.5 °C in several birch habitats, and a warming of 4–11 °C is predicted to be reached by the end of current century. To understand how future populations of forest trees may respond to climate change, it is essential to uncover past and present signatures of molecular adaptation in their genomes.

In this study, 80 individuals of B. pendula were sequenced. Sampling was done through Finland, Germany, Norway, Ireland, and Siberia. These 80 sequenced genomes allowed the team to identify several key mutations important for understanding the environmental adaptation of birch and also serve as relevant targets for tree breeding. Such primary mutations may affect growth and development of birth trees and the way they respond to light at different latitudes and longitudes and under varies environmental conditions.

As very few tree genomes have been fully sequenced, this study provides particularly valuable information for genome structure and evolution of long-living plants such as trees. Furthermore, this research is expected to serve as a springboard for more efficient breeding of birch towards achieving higher yield and timber quality in different environments. As birch trees have local adaptations to site climates, understanding these natural adaptations will provide a major means for genetic engineering and forest biotechnology studies.

The study was published in the journal Nature Genetics.

For more information “Genome sequencing and population genomic analyses provide insights into the adaptive landscape of silver birch. Nature Genetics 2017” http://www.nature.com/ng/journal/vaop/ncurrent/full/ng.3862.html