Rapid responses of high-mountain vegetation to early Holocene environmental changes in the Swiss Alps
1 The Early Holocene sediment of a lake at tree line (Gouillé Rion, 2343 m a.s.l.) in the Swiss Central Alps was sampled for plant macrofossils. Thin (0.5 cm) slices, representing time intervals of c. 50 years each from 11 800 to 7800 cal. year bp, were analysed and the data compared with independen...
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| Online Access: | https://dx.doi.org/10.7892/boris.73240 http://boris.unibe.ch/73240/ |
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ftdatacite:10.7892/boris.73240 2023-05-15T16:02:44+02:00 Rapid responses of high-mountain vegetation to early Holocene environmental changes in the Swiss Alps Boltshauser-Kaltenrieder, Petra Tinner, Willy 2005 application/pdf https://dx.doi.org/10.7892/boris.73240 http://boris.unibe.ch/73240/ en eng Blackwell info:eu-repo/semantics/restrictedAccess 580 Plants Botany CreativeWork article 2005 ftdatacite https://doi.org/10.7892/boris.73240 2021-11-05T12:55:41Z 1 The Early Holocene sediment of a lake at tree line (Gouillé Rion, 2343 m a.s.l.) in the Swiss Central Alps was sampled for plant macrofossils. Thin (0.5 cm) slices, representing time intervals of c. 50 years each from 11 800 to 7800 cal. year bp, were analysed and the data compared with independent palaeoclimatic proxies to study vegetational responses to environmental change. 2 Alpine plant communities (e.g. with Salix herbacea) were established at 11 600–11 500 cal. year bp, when oxygen-isotope records showed that temperatures increased by c. 3–4 °C within decades. Larix decidua trees reached the site at c. 11 350 cal. year bp, probably in response to further warming by 1–2 °C. Forests dominated by L. decidua persisted until 9600 cal. year bp, when Pinus cembra became more important. 3 The dominance of Larix decidua for two millennia is explained by dry summer conditions, and possibly low winter temperatures, which favoured it over the late-successional Pinus cembra. Environmental conditions were a result of variations in the earth's orbit, leading to a maximum of summer and a minimum of winter solar radiation. Other heliophilous and drought-adapted species, such as Dryas octopetala and Juniperus nana, could persist in the open L. decidua forests, but were out-competed when the shade-tolerant P. cembra expanded. 4 The relative importance of Larix decidua decreased during periods of diminished solar radiation at 11 100, 10 100 and 9400 cal. year bp. Stable concentrations of L. decidua indicate that these percentage oscillations were caused by temporary increases of Pinus cembra, Dryas octopetala and Juniperus nana that can be explained by increases in moisture and/or decreases in summer temperature. 5 The final collapse of Larix decidua at 8400 cal. year bp was possibly related to abrupt climatic cooling as a consequence of a large meltwater input to the North Atlantic. Similarly, the temporary exclusion of Pinus cembra from tree line at 10 600–10 200 cal. year bp may be related to slowing down of thermohaline circulation at 10 700–10 300 cal. year bp. 6 Our results show that tree line vegetation was in dynamic equilibrium with climate, even during periods of extraordinarily rapid climatic change. They also imply that forecasted global warming may trigger rapid upslope movements of the tree line of up to 800 m within a few decades or centuries at most, probably inducing large-scale displacements of plant species as well as irrecoverable biodiversity losses. Article in Journal/Newspaper Dryas octopetala North Atlantic Salix herbacea DataCite Metadata Store (German National Library of Science and Technology) |
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Open Polar |
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DataCite Metadata Store (German National Library of Science and Technology) |
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ftdatacite |
| language |
English |
| topic |
580 Plants Botany |
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580 Plants Botany Boltshauser-Kaltenrieder, Petra Tinner, Willy Rapid responses of high-mountain vegetation to early Holocene environmental changes in the Swiss Alps |
| topic_facet |
580 Plants Botany |
| description |
1 The Early Holocene sediment of a lake at tree line (Gouillé Rion, 2343 m a.s.l.) in the Swiss Central Alps was sampled for plant macrofossils. Thin (0.5 cm) slices, representing time intervals of c. 50 years each from 11 800 to 7800 cal. year bp, were analysed and the data compared with independent palaeoclimatic proxies to study vegetational responses to environmental change. 2 Alpine plant communities (e.g. with Salix herbacea) were established at 11 600–11 500 cal. year bp, when oxygen-isotope records showed that temperatures increased by c. 3–4 °C within decades. Larix decidua trees reached the site at c. 11 350 cal. year bp, probably in response to further warming by 1–2 °C. Forests dominated by L. decidua persisted until 9600 cal. year bp, when Pinus cembra became more important. 3 The dominance of Larix decidua for two millennia is explained by dry summer conditions, and possibly low winter temperatures, which favoured it over the late-successional Pinus cembra. Environmental conditions were a result of variations in the earth's orbit, leading to a maximum of summer and a minimum of winter solar radiation. Other heliophilous and drought-adapted species, such as Dryas octopetala and Juniperus nana, could persist in the open L. decidua forests, but were out-competed when the shade-tolerant P. cembra expanded. 4 The relative importance of Larix decidua decreased during periods of diminished solar radiation at 11 100, 10 100 and 9400 cal. year bp. Stable concentrations of L. decidua indicate that these percentage oscillations were caused by temporary increases of Pinus cembra, Dryas octopetala and Juniperus nana that can be explained by increases in moisture and/or decreases in summer temperature. 5 The final collapse of Larix decidua at 8400 cal. year bp was possibly related to abrupt climatic cooling as a consequence of a large meltwater input to the North Atlantic. Similarly, the temporary exclusion of Pinus cembra from tree line at 10 600–10 200 cal. year bp may be related to slowing down of thermohaline circulation at 10 700–10 300 cal. year bp. 6 Our results show that tree line vegetation was in dynamic equilibrium with climate, even during periods of extraordinarily rapid climatic change. They also imply that forecasted global warming may trigger rapid upslope movements of the tree line of up to 800 m within a few decades or centuries at most, probably inducing large-scale displacements of plant species as well as irrecoverable biodiversity losses. |
| format |
Article in Journal/Newspaper |
| author |
Boltshauser-Kaltenrieder, Petra Tinner, Willy |
| author_facet |
Boltshauser-Kaltenrieder, Petra Tinner, Willy |
| author_sort |
Boltshauser-Kaltenrieder, Petra |
| title |
Rapid responses of high-mountain vegetation to early Holocene environmental changes in the Swiss Alps |
| title_short |
Rapid responses of high-mountain vegetation to early Holocene environmental changes in the Swiss Alps |
| title_full |
Rapid responses of high-mountain vegetation to early Holocene environmental changes in the Swiss Alps |
| title_fullStr |
Rapid responses of high-mountain vegetation to early Holocene environmental changes in the Swiss Alps |
| title_full_unstemmed |
Rapid responses of high-mountain vegetation to early Holocene environmental changes in the Swiss Alps |
| title_sort |
rapid responses of high-mountain vegetation to early holocene environmental changes in the swiss alps |
| publisher |
Blackwell |
| publishDate |
2005 |
| url |
https://dx.doi.org/10.7892/boris.73240 http://boris.unibe.ch/73240/ |
| genre |
Dryas octopetala North Atlantic Salix herbacea |
| genre_facet |
Dryas octopetala North Atlantic Salix herbacea |
| op_rights |
info:eu-repo/semantics/restrictedAccess |
| op_doi |
https://doi.org/10.7892/boris.73240 |
| _version_ |
1766398417356980224 |