Microscopical palynology: Birch woodland expansion and species hybridisation coincide with periods of climate warming during the Holocene epoch in Iceland

Introgressive hybridisation between arctic dwarf birch (Betula nana) and European downy birch (B. pubescens) is relatively common in natural woodlands in Iceland. As dwarf birch is a diploid species and downy tree birch a tetraploid species, their hybrids are triploid. In the introgression process,...

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Published in:Journal of microscopy (Oxford) 2023-07, Vol.291 (1), p.128-141
Main Authors: Anamthawat‐Jónsson, Kesara, Karlsdóttir, Lilja, Thórsson, Ægir Thór, Hallsdóttir, Margrét
Format: Article
Language:English
Subjects:
Betula
Deglaciation
Diploids
downy birch
dwarf birch
Fossil pollen
Holocene
Hybridization
Hybrids
Meiosis
Northern Hemisphere
palaeopalynology
Palynology
Peat
Pollen
Pores
Radiocarbon dating
Radiometric dating
Sediments
Species
Tetraploidy
triploid hybrid
Woodlands
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Summary:Introgressive hybridisation between arctic dwarf birch (Betula nana) and European downy birch (B. pubescens) is relatively common in natural woodlands in Iceland. As dwarf birch is a diploid species and downy tree birch a tetraploid species, their hybrids are triploid. In the introgression process, triploid hybrids, which are partially fertile, can backcross with the parental species, producing progenies comprising introgressed diploid, triploid and tetraploid plants. Triploid plants produce both normal triporate pollen (with three pores) and abnormal, aborted pollen, due to dysfunctional meiosis. The type of pollen abnormality that can be detected and quantified is non‐triporate pollen (with four or more pores in the pollen wall). We therefore used the presence of non‐triporate pollen as a marker to trace birch hybridisation in the past. In the current study we examined fossil pollen in samples from Holocene sediments from three locations: Grímsnes (SW), Eyjafjördur (N) and Thistilsfjördur (NE Iceland). All three peat monoliths had the starting age of 10.3 cal. ka BP. Ages were calibrated based on known tephra layers and by radiocarbon dating. The size of Betula pollen grains was measured, and the species proportions calculated from size. Non‐triporate grains were detected in samples from all three locations and throughout the Holocene, but with different frequencies. The peaks of intense hybridisation followed birch woodland expansion in two major periods of the Holocene, both coinciding with a warming of climate. The first period occurred in the Early Holocene, around 9.5–7 cal. ka BP, when the climate warmed rapidly after deglaciation. The second period occurred around 5–3.5 cal. ka BP, well within the mid‐Holocene Northern Hemisphere warming. A new wave of birch hybridisation appears to have started in the last few decades as the climate has warmed. Birch woodlands are likely to become more widespread. Introgressed shrub birch is likely to be more competitive over dwarf birch. LAY DESCRIPTION We microscopically examined birch (Betula) pollen in samples from peat sediments extracted from three geographically diverse locations in Iceland and throughout the Holocene epoch, which began 10,000 years ago. By measuring the size of individual pollen grains, we were able to differentiate pollen of the shrub‐like downy birch (B. pubescens) from its closely related dwarf birch species (B. nana). The results revealed an establishment and a rapid expansion of birc
ISSN:0022-2720
1365-2818
DOI:10.1111/jmi.13175