Persistent millennial-scale shifts in moisture regimes in western Canada during the past six millennia

Cumming, Brian F.; Laird, Kathleen R.; Bennett, Joseph; Smol, John P.; Salomon, Anne K.

doi:10.1073/pnas.252603099

Cited by 43 publications

(29 citation statements)

References 38 publications

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“…For example, diatom inferences from British Columbia (western Canada) show a distinct shift to drier conditions and lower water levels ca. A.D. 700 (32). In addition, this shift corresponds closely to a sharp decline in ice-rafting debris in the North Atlantic ca.…”

Section: Discussionmentioning

confidence: 68%

“…Together, these patterns suggest that some large-scale climatic shifts may be a common phenomenon, which may reoccur over longer time frames. For example, millennial-scale shifts over at least the past 5,500 years, between sustained periods of wetter and drier conditions, occurring approximately every 1,220 years, have been reported from western Canada (32). The striking correspondence of these shifts to large changes in fire frequencies, inferred from two sites several hundreds of kilometers to the southwest in the mountain hemlock zone of southern British Columbia (39), suggests that these millennial-scale dynamics are linked and operate over wide spatial scales.…”

Section: Discussionmentioning

confidence: 99%

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Lake sediments record large-scale shifts in moisture regimes across the northern prairies of North America during the past two millennia

Laird

Cumming

Wunsam

et al. 2003

Proc. Natl. Acad. Sci. U.S.A.

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152

121

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Six high-resolution climatic reconstructions, based on diatom analyses from lake sediment cores from the northern prairies of North America, show that shifts in drought conditions on decadal through multicentennial scales have prevailed in this region for at least the last two millennia. The predominant broad-scale pattern seen at all sites is a major shift in moisture regimes from wet to dry, or vice versa (depending on location), that occurred after a period of relative stability. These large-scale shifts at the different sites exhibit spatial coherence at regional scales. The three Canadian sites record this abrupt shift between anno Domini 500 and 800, and subsequently conditions become increasingly variable. All three U.S. sites underwent a pronounced change, but the timing of this change is between anno Domini 1000 and 1300, thus later than in all of the Canadian sites. The mechanisms behind these patterns are poorly understood, but they are likely related to changes in the shape and location of the jet stream and associated storm tracks. If the patterns seen at these sites are representative of the region, this observed pattern can have huge implications for future water availability in this region. Drought is a recurring natural feature of climate that has had dramatic environmental, economic, and social impacts on modern (1) and ancient (2) civilizations. Decade-to centuryscale episodes of prolonged drought or high rainfall have been recorded from North America in continental archives as diverse as tree rings (3), tree stumps (4), lake sediments (5), and river deposits (6, 7). The prairie region of North America is particularly susceptible to extreme droughts (8). However, few highresolution proxy records of climate exist from the prairies. Tree-ring records on the prairies typically are spatially limited to wooded areas at the periphery of the prairies (9) and temporally limited to, at best, Ϸ500 years (10). Sediments from closed-basin lakes can provide high-temporal-resolution paleoclimatic information from prairie regions for much longer periods.Here we provide evidence from high-resolution (subdecadal to decadal) sediment core records from six lakes on the Canadian and northern U.S. prairies (Fig. 1). All of the sites indicate that shifts in drought regimes have been a prevalent feature of this region, occurring on decadal through multicentennial scales. Inferred changes in climatic conditions over the past two millennia are based on analysis of diatom assemblages preserved in sediment cores, a commonly used technique for tracking past climatic conditions (11). Our focus here is on long-term dynamics and broad-scale similarities among the lake records. This approach is in part undertaken because of the inherent difficulties of comparing short-term dynamics across records constrained by carbon-dated chronologies. Materials and MethodsDiatom Inferences. Diatom remains in sediment cores from six lakes were used to reconstruct variables influenced by climatic conditions. Diatom-inferred salinity estimat...

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Section: Discussionmentioning

confidence: 68%

Section: Discussionmentioning

confidence: 99%

Lake sediments record large-scale shifts in moisture regimes across the northern prairies of North America during the past two millennia

Laird

Cumming

Wunsam

et al. 2003

Proc. Natl. Acad. Sci. U.S.A.

Self Cite

152

121

View full text Add to dashboard Cite

show abstract

“…This signal appears less marked in the tropics (Horn and Sanford 1992;Turcq et al 1998) and in other mid-latitude regimes, such as in eastern Canada (Carcaillet et al 2001) and New Zealand (Molloy et al 1963). Cumming et al (2002) reported on persistent millennial-scale effects on moisture availability recorded at Big Lake, BC, in the semi-arid Cariboo region, some 500 km south of the Bear Lake site. It is also important to note recent studies, such as those of cyclic variations in an Alaskan lake, reported by Hu et al (2003), which suggest millennial-scale periodicity.…”

Section: Discussionmentioning

confidence: 99%

Over 16,000 Years of Fire Frequency Determined from AMS Radiocarbon Dating of Soil Charcoal in an Alluvial Fan at Bear Flat, Northeastern British Columbia

Jull

Geertsema²

2006

Radiocarbon

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ABSTRACT. We present results of radiocarbon dating of charcoal from paleosols and buried charcoal horizons in a unique sequence, which potentially records the last 36,000 yr, from a fan at Bear Flat, British Columbia (BC) (56°16′51″N, 121°13′39″W). Evidence for forest-fire charcoal is found over the last 13,500 ± 110 14 C yr before present (BP) or 16,250 ± 700 cal BP. The study area is located east of the Rocky Mountains in an area that was ice-free at least 13,970 ± 170 14 C yr BP (17,150 cal BP) ago. The latest evidence of fire is during the Medieval Warm Period (MWP). The charcoal ages show a periodicity in large fires on a millennial scale through the Holocene-an average of 4 fires per thousand years. Higher fire frequencies are observed between 2200 to 2800 cal BP, ~5500 and ~6000 cal BP, ~7500 to 8200 cal BP, and 9000 to 10,000 cal BP. These intervals also appear to be times of above-average aggradation of the fan. We conclude that fire frequency is related to large-scale climatic events on a millennial time scale.

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“…A growing body of evidence suggests that during the Holocene the climate of Pacific North America (PNAM) underwent periodic regime shifts (Bond et al 1997;Cumming et al 2002) and that these shifts were reflected in glacial mass balance adjustments throughout the western North American cordillera (Denton and Karlén 1973;Dyurgerov and Meier 2000). There is currently considerable interest in reconstructing the timing and extent of alpine glacier fluctuations and associated mass balance adjustments throughout the Holocene as a means to place ongoing climatic changes into a longer temporal context.…”

Section: Introductionmentioning

confidence: 99%

Dendroglaciological evidence for Holocene glacial advances in the Todd Icefield area, northern British Columbia Coast Mountains

Jackson¹,

Laxton²,

Smith³

2008

Can. J. Earth Sci.

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Persistent millennial-scale shifts in moisture regimes in western Canada during the past six millennia

Cited by 43 publications

References 38 publications

Lake sediments record large-scale shifts in moisture regimes across the northern prairies of North America during the past two millennia

Lake sediments record large-scale shifts in moisture regimes across the northern prairies of North America during the past two millennia

Over 16,000 Years of Fire Frequency Determined from AMS Radiocarbon Dating of Soil Charcoal in an Alluvial Fan at Bear Flat, Northeastern British Columbia

Dendroglaciological evidence for Holocene glacial advances in the Todd Icefield area, northern British Columbia Coast Mountains

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