Reconstructing past atmospheric circulation changes using oxygen isotopes in lake sediments from Sweden

Jonsson, Christina E.; Andersson, Sara; Rosqvist, Gunhild; Leng, Melanie J.

doi:10.5194/cp-6-49-2010

Cited by 38 publications

(11 citation statements)

References 98 publications

(146 reference statements)

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“…For high-latitude lakes not sensitive to evaporation, the δ 18 O of carbonates, diatoms, or cellulose can be used as a proxy for past changes in the δ 18 O of precipitation (Leng and Marshal, 2004;Jonsson et al, 2010). The δ 18 O of precipitation preserved in glacier ice from this region is generally used as a proxy for palaeotemperature (Vinther et al, 2010) but in some areas (e.g.…”

Section: Atmospheric Circulationmentioning

confidence: 99%

Arctic Holocene proxy climate database – new approaches to assessing geochronological accuracy and encoding climate variables

et al. 2014

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Abstract. We present a systematic compilation of previously published Holocene proxy climate records from the Arctic. We identified 170 sites from north of 58° N latitude where proxy time series extend back at least to 6 cal ka (all ages in this article are in calendar years before present – BP), are resolved at submillennial scale (at least one value every 400 ± 200 years) and have age models constrained by at least one age every 3000 years. In addition to conventional metadata for each proxy record (location, proxy type, reference), we include two novel parameters that add functionality to the database. First, "climate interpretation" is a series of fields that logically describe the specific climate variable(s) represented by the proxy record. It encodes the proxy–climate relation reported by authors of the original studies into a structured format to facilitate comparison with climate model outputs. Second, "geochronology accuracy score" (chron score) is a numerical rating that reflects the overall accuracy of 14C-based age models from lake and marine sediments. Chron scores were calculated using the original author-reported 14C ages, which are included in this database. The database contains 320 records (some sites include multiple records) from six regions covering the circumpolar Arctic: Fennoscandia is the most densely sampled region (31% of the records), whereas only five records from the Russian Arctic met the criteria for inclusion. The database contains proxy records from lake sediment (60%), marine sediment (32%), glacier ice (5%), and other sources. Most (61%) reflect temperature (mainly summer warmth) and are primarily based on pollen, chironomid, or diatom assemblages. Many (15%) reflect some aspect of hydroclimate as inferred from changes in stable isotopes, pollen and diatom assemblages, humification index in peat, and changes in equilibrium-line altitude of glaciers. This comprehensive database can be used in future studies to investigate the spatio-temporal pattern of Arctic Holocene climate changes and their causes. The Arctic Holocene data set is available from NOAA Paleoclimatology.

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Section: Atmospheric Circulationmentioning

confidence: 99%

Arctic Holocene proxy climate database – new approaches to assessing geochronological accuracy and encoding climate variables

et al. 2014

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“…Existing research for example, encompassing both high and low latitude regions, has been marked by investigations using diatom δ 15 N and δ 30 Si to study the role of the Southern Ocean biological pump and silicic acid leakage in regulating atmospheric CO 2 over glacial-interglacial cycles (Beucher et al, 2007). Similarly, the use of diatom δ 18 O has led to the detection of hydrological changes in both Africa and Scandinavia (Barker et al, 2007;Jonsson et al, 2010) while diatom Zn/Si ratios are beginning to be developed as proxies in both marine and non-marine settings (Hendry and Rickaby, 2008;Jaccard et al, 2009).…”

Section: Implications For Palaeoclimatic Researchmentioning

confidence: 99%

Application of Fourier Transform Infrared Spectroscopy (FTIR) for assessing biogenic silica sample purity in geochemical analyses and palaeoenvironmental research

Swann

Patwardhan

2011

Clim. Past

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Abstract. The development of a rapid and non-destructive method to assess purity levels in samples of biogenic silica prior to geochemical/isotope analysis remains a key objective in improving both the quality and use of such data in environmental and palaeoclimatic research. Here a Fourier Transform Infrared Spectroscopy (FTIR) mass-balance method is demonstrated for calculating levels of contamination in cleaned sediment core diatom samples from Lake Baikal, Russia. Following the selection of end-members representative of diatoms and contaminants in the analysed samples, a mass-balance model is generated to simulate the expected FTIR spectra for a given level of contamination. By fitting the sample FTIR spectra to the modelled FTIR spectra and calculating the residual spectra, the optimum best-fit model and level of contamination is obtained. When compared to X-ray Fluorescence (XRF) the FTIR method portrays the main changes in sample contamination through the core sequence, permitting its use in instances where other, destructive, techniques are not appropriate. The ability to analyse samples of < 1 mg enables, for the first time, routine analyses of small sized samples. Discrepancies between FTIR and XRF measurements can be attributed to FTIR end-members not fully representing all contaminants and problems in using XRF to detect organic matter external to the diatom frustule. By analysing samples with both FTIR and XRF, these limitations can be eliminated to accurately identify contaminated samples. Future, routine use of these techniques in palaeoenvironmental research will therefore significantly reduce the number of erroneous measurements and so improve the accuracy of biogenic silica/diatom based climate reconstructions.

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“…BP) (Figure 2). The timing of this change is consistent with a southward migration of polar waters and the associated movement of prevailing westerly airflow over northern Europe from a more northerly location (Bakke et al, 2008;Bond et al, 2001;Jonsson et al, 2010;Turney et al, 2005).…”

Section: Investigating Climate Change As a Driver Of Bronze Age Abandmentioning

confidence: 68%

“…Through the Holocene, collapses in tree populations appear to coincide with coherent millennial-scale changes in marine sediment ice-rafted debris content and the polar vortex over the North Atlantic (Bakke et al, 2008;Bond et al, 2001;Jonsson et al, 2010;Turney et al, 2005), suggesting the same centennial-scale hydrological conditions associated with wider North Atlantic change (Bond et al, 2001;Daley and Barber, 2012;Langdon and Barber, 2005;Trouet et al, 2012). Importantly, historical records and reconstructions of climate over the past millennium (Hurrell, 1995;Luterbacher et al, 2010) suggest shifts in the North Atlantic Oscillation led to low frequency circulation changes across the greater North Atlantic region, resulting in antiphase moisture delivery across Europe and the Mediterranean.…”

Section: Investigating Climate Change As a Driver Of Bronze Age Abandmentioning

confidence: 99%

Extreme wet conditions coincident with Bronze Age abandonment of upland areas in Britain

et al. 2016

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Abandonment of farming systems on upland areas in southwest Britain during the Late Bronze Age -some 3000 years ago -is widely considered a 'classic' demonstration of the impact of deteriorating climate on the vulnerability of populations in such marginal environments. Here we test the hypothesis that climate change drove the abandonment of upland areas by developing new chronologies for human activity on upland areas during the Bronze Age across southwest Britain (Dartmoor, Exmoor and Bodmin Moor). We find Bronze Age activity in these areas spanned 3900 to 2950 calendar years ago with abandonment by 2900 calendar years ago. Holocene Irish bog and lake oak tree populations provide evidence of major shifts in hydroclimate across the British Isles, coincident with ice rafted debris layers recognized in North Atlantic marine sediments, indicating significant changes in the latitude and intensity of zonal atmospheric circulation across the region. We observe abandonment of upland areas in southwest Britain coinciding with a sustained period of extreme wet conditions that commenced 3100 calendar years ago. Our results are consistent with the view that climate change increased the vulnerability of these early farming communities and led to a less intensive use of such marginal environments across Britain.

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Reconstructing past atmospheric circulation changes using oxygen isotopes in lake sediments from Sweden

Cited by 38 publications

References 98 publications

Arctic Holocene proxy climate database – new approaches to assessing geochronological accuracy and encoding climate variables

Arctic Holocene proxy climate database – new approaches to assessing geochronological accuracy and encoding climate variables

Application of Fourier Transform Infrared Spectroscopy (FTIR) for assessing biogenic silica sample purity in geochemical analyses and palaeoenvironmental research

Extreme wet conditions coincident with Bronze Age abandonment of upland areas in Britain

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