Abstract
Key messageThe investigation provides initial knowledge on the distribution and evolution of the high and low methyl salicylate-producing trait in the Betula genus. Mislabelled birch species could be identified and removed.The genus Betula is the largest group of ecologically and economically dominant perennial woody plants in subalpine forests. The taxonomy of Betula is complex due to an extensive history of hybridization and periodic introgression events among the species. Although almost all land plants including birches produce methyl salicylate (MeSA) as a signaling molecule and in response to stress (“low MeSA producer”), some birch species produce high amounts of MeSA in the leaves and bark (“high MeSA producer”). Unfortunately, the evolution of high levels of MeSA production in the genus Betula remains unclear. The salicylic acid-binding protein 2 (SABP2) and salicylic acid methyltransferase (SAMT) genes involved in MeSA biosynthesis were incorporated into this study to examine the interspecific relationship of high and low MeSA-producing birches. Additionally, eight chloroplast and three nuclear regions were included to evaluate their potential application in species determination. The analysis resulted in 25 and 61 nucleotide variations, respectively, which allowed for a visualization of the genetic architecture in the 18 Betula species investigated. The high MeSA-producing B. lenta, B. grossa, and B. alleghaniensis formed the basal clade in the phylogenetic analysis, thus revealing their ancestral status, and the network analysis postulates that the diploid B. lenta is one of the ancestors of the genus Betula. The results indicate that the ability to produce high levels of MeSA that were initially present in the genus has been lost several times during its evolution. Placing species of the subgenus Acuminata alongside the subgenus Betula, together with a fragrance analysis, questions their ability to produce high levels of MeSA.
Highlights
Birches (Betula L., Betulaceae) are ecologically important trees and shrubs that are widely distributed throughout the Northern Hemisphere (Furlow 1990)
The methyl salicylate (MeSA) fragrance comparison analysis resulted in high (B. grossa, B. lenta and B. alleghaniensis), intermediate (B. maximowicziana, B. medwediewii) and low MeSA producers
The analysis showed that B. costata produced the MeSA fragrance, while B. luminifera, B. alnoides and B. globispica did not produce any MeSA that could unanimously be recognized by the human nose (Supplementary Table 1)
Summary
Birches (Betula L., Betulaceae) are ecologically important trees and shrubs that are widely distributed throughout the Northern Hemisphere (Furlow 1990). They diverged from other genera of the Betulaceae family around 75 million years ago (Bina et al 2016). Ashburner and McAllister (2013) proposed the latest classification with four subgenera and eight sections, thereby substantially supporting the previous categorization (Skvortsov 2002) The same author suggested that the subsection Costatae required reconsideration (Winkler 1904). Ashburner and McAllister (2013) proposed the latest classification with four subgenera and eight sections, thereby substantially supporting the previous categorization (Skvortsov 2002)
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