Call number:
AWI Bio-22-95014
Description / Table of Contents:
The deciduous needle tree larch (Larix Mill.) covers more than 80% of the Asian boreal forests. Only a few Larix species constitute the vast forests and these species differ markedly in their ecological traits, most importantly in their ability to grow on and stabilize underlying permafrost. The pronounced dominance of the summergreen larches makes the Asian boreal forests unique, as the rest of the northern hemisphere boreal forests is almost exclusively dominated by evergreen needle-leaf forests. Global warming is impacting the whole world but is especially pronounced in the arctic and boreal regions. Although adapted to extreme climatic conditions, larch forests are sensitive to varying climatic conditions. By their sheer size, changes in Asian larch forests as range shifts or changes in species composition and the resulting vegetation-climate feedbacks are of global relevance. It is however still uncertain if larch forests will persist under the ongoing warming climate or if they will be replaced by evergreen forests. It is therefore of great importance to understand how these ecosystems will react to future climate warmings and if they will maintain their dominance. One step in the better understanding of larch dynamics is to study how the vast dominant forests developed and why they only established in northern Asia. A second step is to study how the species reacted to past changes in the climate.
The first objective of this thesis was to review and identify factors promoting Asian larch dominance. I achieved this by synthesizing and comparing reported larch occurrences and influencing components on the northern hemisphere continents in the present and in the past. The second objective was to find a possibility to directly study past Larix populations in Siberia and specifically their genetic variation, enabling the study of geographic movements. For this, I established chloroplast enrichment by hybridization capture from sedimentary ancient DNA (sedaDNA) isolated from lake sediment records. The third objective was to use the established method to track past larch populations, their glacial refugia during the Last Glacial Maximum (LGM) around 21,000 years before present (ka BP), and their post-glacial migration patterns.
To study larch promoting factors, I compared the present state of larch species ranges, areas of dominance, their bioclimatic niches, and the distribution on different extents and thaw depths of permafrost. The species comparison showed that the bioclimatic niches greatly overlap between the American and Asian species and that it is only in the extremely continental climates in which only the Asian larch species can persist. I revealed that the area of dominance is strongly connected to permafrost extent but less linked to permafrost seasonal thaw depths. Comparisons of the paleorecord of larch between the continents suggest differences in the recolonization history. Outside of northern Asia and Alaska, glacial refugial populations of larch were confined to the southern regions and thus recolonization could only occur as migration from south to north. Alaskan larch populations could not establish wide-range dominant forest which could be related to their own genetically depletion as separated refugial population. In Asia, it is still unclear whether or not the northern refugial populations contributed and enhanced the postglacial colonization or whether they were replaced by populations invading from the south in the course of climate warming. Asian larch dominance is thus promoted partly by adaptions to extremely continental climates and by adaptations to grow on continuous permafrost but could be also connected to differences in glacial survival and recolonization history of Larix species.
Except for extremely rare macrofossil findings of fossilized cones, traditional methods to study past vegetation are not able to distinguish between larch species or populations. Within the scope of this thesis, I therefore established a method to retrieve genetic information of past larch populations to distinguish between species. Using the Larix chloroplast genome as target, I successfully applied the method of DNA target enrichment by hybridization capture on sedaDNA samples from lake records and showed that it is able to distinguish between larch species. I then used the method on samples from lake records from across Siberia dating back up to 50 ka BP. The results allowed me to address the question of glacial survival and post-glacial recolonization mode in Siberian larch species. The analyzed pattern showed that LGM refugia were almost exclusively constituted by L. gmelinii, even in sites of current L. sibirica distribution. For included study sites, L. sibirica migrated into its extant northern distribution area only in the Holocene. Consequently, the post-glacial recolonization of L. sibirica was not enhanced by northern glacial refugia. In case of sites in extant distribution area of L. gmelinii, the absence of a genetic turn-over point to a continuous population rather than an invasion of southern refugia. The results suggest that climate has a strong influence on the distribution of Larix species and that species may also respond differently to future climate warming. Because species differ in their ecological characteristics, species distribution is also relevant with respect to further feedbacks between vegetation and climate.
With this thesis, I give an overview of present and past larch occurrences and evaluate which factors promote their dominance. Furthermore, I provide the tools to study past Larix species and give first important insights into the glacial history of Larix populations.
Type of Medium:
Dissertations
Pages:
x, 121 Seiten
,
Illustrationen
URL:
https://doi.org/10.25932/publishup-55878
URN:
urn:nbn:de:kobv:517-opus4-558782
DOI:
10.25932/publishup-55878
Language:
English
Note:
Dissertation, Universität Potsdam, 2022
,
Table of Contents
Summary
Deutsche Zusammenfassung
Table of Contents
1 Introduction
1.1 Larix forests in a changing climate
1.2 The genus Larix
1.3 Larix distribution in the world and their dominance in northern Asia
1.4 Methods to study past species dynamics
1.4.1 Modern genetic marker studies
1.4.2 Lake sediments as archives of the past
1.4.3 Pollen and macrofossils
1.4.4 Metabarcoding of sedimentary ancient DNA
1.4.5 Metagenomic shotgun sequencing
1.4.6 Target enrichment by hybridization capture
1.5 Thesis Objectives
1.6 Thesis outline & author contributions
2 Manuscript I
2.1 Abstract
2.2 Introduction
2.3 Material and methods
2.3.1 Bioclimatic limits
2.3.2 Pollen, macrofossil, and DNA datasets
2.3.3 Ice sheets
2.4 Results
2.4.1 Bioclimatic limits of Larix and its distribution on permafrost
2.4.2 Glacial occurrence patterns of Larix
2.5 Discussion
2.5.1 Are differences in species bioclimatic limits responsible for disparity in Larix distribution across continents?
2.5.2 Do high latitude glacial refugia guarantee larch dominance?
2.5.3 What role does postglacial migration play in larch dominance?
2.5.4 Fire as an additional factor
2.5.5 Outlook
2.6 Conclusion
2.7 Acknowledgements
2.8 Author contributions
2.9 References
3 Manuscript II
3.1 Abstract
3.2 Introduction
3.3 Methods
3.3.1 Sample material
3.3.2 Laboratory work
3.3.3 Data analysis
3.4 Results
3.4.1 Overview of the shotgun and hybridization capture data sets
3.4.2 Ancient DNA authenticity
3.4.3 Retrieval of the Larix chloroplast genome
3.5 Discussion
3.5.1 Taxonomic classification—conservative approach results in low numbers of assignment
3.5.2 Target enrichment success—Larix reads increased by orders of magnitude along with other taxonomic groups
3.5.3 Complete retrieval of ancient Larix chloroplast genomes
3.5.4 Larix sibirica variants present over time
3.5.5 Larch forest decline over the last 7000 years
3.6 Conclusion
3.7 Acknowledgments
3.8 Author contributions
3.9 References
4 Manuscript III
4.1 Abstract
4.2 Introduction
4.3 Results & Discussion
4.3.1 Chloroplast and repetitive DNA enrichment in the sedaDNA samples
4.3.2 A wider pre-glacial distribution of L. sibirica
4.3.3 Larix gmelinii formed northern LGM refugia across Siberia
4.3.4 Postglacial colonization history - differences among larch species
4.3.5 Environment likely plays a more important role than biogeography
4.4 Conclusion
4.5 Material & methods
4.5.1 Sample material
4.5.2 Sequence data analysis
4.6 Data availability
4.7 Acknowledgments
4.8 Author contributions
4.9 References
5 Discussion and synthesis
5.1 Hybridization capture is a well-suited method to study ancient species dynamics
5.1.1 Advantages and limitations of shotgun sequencing
5.1.2 Successful hybridization capture enrichment using chloroplast DNA
5.1.3 Challenges in single-copy target enrichment
5.1.4 Limitations and potentials to improve sedaDNA capture studies
5.2 Factors promoting Asian larch dominance
5.3 Drivers of Larix species distribution
5.3.1 Implications for larch forests under climate warming
5.4 Conclusion
5.5 Outlook
6 References
7 Appendix
7.1 Appendix to manuscript I
7.2 Appendix to manuscript II
7.3 Appendix to manuscript III
7.3.1 Material and Methods
7.3.2 Additional Results & Discussions
7.3.3 References
Acknowledgements
Eidesstattliche Erklärung
Location:
AWI Reading room
Branch Library:
AWI Library
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