Holocene vegetation, fire and climate history of the Sawtooth Range, central Idaho, USA

Whitlock, Cathy; Briles, Christy E.; Fernandez, Matias; Gage, Joshua

doi:10.1016/j.yqres.2010.08.013

Cited by 36 publications

(47 citation statements)

References 53 publications

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“…Other paleoenvironmental data from the northern Rocky Mountain region suggest early-Holocene conditions that were warmer than at present, although effective moisture levels at this time were higher than in the middle Holocene (Whitlock and Brunelle, 2006;Power et al, 2011;Whitlock et al, 2011). For example, pollen records from high-elevation sites indicate an upslope expansion of low-elevation taxa in the northern Rocky Mountains (e.g., Pseudotsuga and Chenopodiaceae) in the early Holocene (Whitlock and Brunelle, 2006) and those from low-elevation sites show relatively open forest conditions (Power et al, 2011;Whitlock et al, 2011).…”

mentioning

confidence: 77%

“…The transition to more open vegetation in Yellowstone after 8000 cal years broadly coincides with maximum aridity at many locations in the Rocky Mountains and mid-continent (e.g., see Bartlein and Whitlock, 1993;Whitlock and Brunelle, 2006;Williams et al, 2009;Shuman et al, 2010;Grimm et al, 2011). In the northern Rocky Mountains, well-developed grassland and open parkland, high fire activity, and low lake levels characterized low elevations (MacDonald, 1989;Brunelle et al, 2005;Stone and Fritz, 2006;Shuman et al, 2009;Power et al, 2011;Whitlock et al, 2011). The Rocky Mountain pattern is an interesting contrast to records from the Pacific Northwest, which register cooler effectively wetter conditions after 7000 cal yr BP (Whitlock and Brunelle, 2006;Barron and Anderson, 2011).…”

Section: Middle Holocene (8000-3000 Cal Yr Bp)mentioning

confidence: 92%

“…For example, pollen records from high-elevation sites indicate an upslope expansion of low-elevation taxa in the northern Rocky Mountains (e.g., Pseudotsuga and Chenopodiaceae) in the early Holocene (Whitlock and Brunelle, 2006) and those from low-elevation sites show relatively open forest conditions (Power et al, 2011;Whitlock et al, 2011). Warm humid summer conditions in the early Holocene are broadly registered throughout the Rockies and Great Plains (e.g., Fall, 1997;Shuman et al, 2010;Williams et al, 2010;Anderson, 2011;Grimm et al, 2011;Jiménez-Moreno et al, 2011;Minckley et al, 2011;Whitlock et al, 2011;Briles et al, 2012) and ascribed to higher-than-present summer insolation and its attendant effects on regional climate.…”

mentioning

confidence: 99%

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Holocene seasonal variability inferred from multiple proxy records from Crevice Lake, Yellowstone National Park, USA

Whitlock

Dean

Fritz

et al. 2012

Palaeogeography, Palaeoclimatology, Palaeoecology

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Stone, Jeffery R.; Power, Mitchell J.; Rosenbaum, Joseph R.; Pierce, Kenneth L.; and Bracht-Flyr, Brandi B., "Holocene seasonal variability inferred from multiple proxy records from Crevice Lake, Yellowstone National Park, USA" (2012 A 9400-yr-old record from Crevice Lake, a semi-closed alkaline lake in northern Yellowstone National Park, was analyzed for pollen, charcoal, geochemistry, mineralogy, diatoms, and stable isotopes to develop a nuanced understanding of Holocene environmental history in a region of northern Rocky Mountains that receives both summer and winter precipitation. The limited surface area, conical bathymetry, and deep water (> 31 m) of Crevice Lake create oxygen-deficient conditions in the hypolimnion and preserve annually laminated sediment (varves) for much of the record. Pollen data indicate that the watershed supported a closed Pinus-dominated forest and low fire frequency prior to 8200 cal yr BP, followed by open parkland until 2600 cal yr BP, and open mixed-conifer forest thereafter. Fire activity shifted from infrequent standreplacing fires initially to frequent surface fires in the middle Holocene and stand-replacing events in recent centuries. Low values of δ 18O suggest high winter precipitation in the early Holocene, followed by steadily drier conditions after 8500 cal yr BP. Carbonate-rich sediments before 5000 cal yr BP imply warmer summer conditions than after 5000 cal yr BP. High values of molybdenum (Mo), uranium (U), and sulfur (S) indicate anoxic bottom-waters before 8000 cal yr BP, between 4400 and 3900 cal yr BP, and after 2400 cal yr BP. The diatom record indicates extensive water-column mixing in spring and early summer through much of the Holocene, but a period between 2200 and 800 cal yr BP had strong summer stratification, phosphate limitation, and oxygen-deficient bottom waters. Together, the proxy data suggest wet winters, protracted springs, and warm effectively wet summers in the early Holocene and less snowpack, cool springs, warm dry summers in the middle Holocene. In the late Holocene, the region and lake experienced extreme changes in winter, spring, and summer conditions, with particularly short springs and dry summers and winters during the Roman Warm Period (~2000 cal yr BP) and Medieval Climate Anomaly (1200-800 cal yr BP). Long springs and mild summers occurred during the Little Ice Age, and these conditions persist to the present. Although the proxy data indicate effectively wet summer conditions in the early Holocene and drier conditions in the middle and late Holocene, none point specifically to changes in summer precipitation as the cause. Instead, summer conditions were governed by multi-seasonal controls on effective moisture that operated over multiple time scales.

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mentioning

confidence: 77%

Section: Middle Holocene (8000-3000 Cal Yr Bp)mentioning

confidence: 92%

mentioning

confidence: 99%

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Holocene seasonal variability inferred from multiple proxy records from Crevice Lake, Yellowstone National Park, USA

Whitlock

Dean

Fritz

et al. 2012

Palaeogeography, Palaeoclimatology, Palaeoecology

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“…Historical fire regimes in the region can be broadly characterized as ranging from relatively infrequent, stand-replacing fire in high-elevation forests and some sagebrush communities, to relatively frequent low-to mixed-severity fire in lower elevation forests . However, variability in climate and periodic widespread mortality from forest pathogens also influenced forest conditions and fire regimes over time (Pierce et al 2004, Brunelle et al 2008, Baker 2009, Whitlock et al 2011.…”

Section: Methodsmentioning

confidence: 99%

Potential influence of wildfire in modulating climate-induced forest redistribution in a central Rocky Mountain landscape

Campbell

Shinneman

2017

Ecol Process

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Introduction: Climate change is expected to impose significant tension on the geographic distribution of tree species. Yet, tree species range shifts may be delayed by their long life spans, capacity to withstand long periods of physiological stress, and dispersal limitations. Wildfire could theoretically break this biological inertia by killing forest canopies and facilitating species redistribution under changing climate. We investigated the capacity of wildfire to modulate climate-induced tree redistribution across a montane landscape in the central Rocky Mountains under three climate scenarios (contemporary and two warmer future climates) and three wildfire scenarios (representing historical, suppressed, and future fire regimes). Methods: Distributions of four common tree species were projected over 90 years by pairing a climate niche model with a forest landscape simulation model that simulates species dispersal, establishment, and mortality under alternative disturbance regimes and climate scenarios. Results: Three species (Douglas-fir, lodgepole pine, subalpine fir) declined in abundance over time, due to climate-driven contraction in area suitable for establishment, while one species (ponderosa pine) was unable to exploit climate-driven expansion of area suitable for establishment. Increased fire frequency accelerated declines in area occupied by Douglas-fir, lodgepole pine, and subalpine fir, and it maintained local abundance but not range expansion of ponderosa pine.

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“…As the development of pedogenesis under forest cover may have favoured a mineral magnetic increase in soils (de Jong et al, 1998), low MS recorded in sediments is to be expected during phases of stabilised vegetated slopes (Whitlock et al, 2011), while increased magnetic concentrations may be related to changes in sediment sources and to erosive processes of soils (Dearing et al, 1996;de Jong et al, 1998;Vannière et al, 2003;Cruise et al, 2009). Nevertheless, when ferrimagnetic mineral concentration is low (magnetite and maghaemite), the value of MS may be largely influenced by diamagnetic minerals (quartz, carbonates) (Thompson and Oldfield, 1986).…”

Section: Core Sampling and Sedimentologymentioning

confidence: 99%

Pollen-based reconstruction of Holocene vegetation and climate in southern Italy: the case of Lago Trifoglietti

et al. 2012

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Abstract.A high-resolution pollen record from Lago Trifoglietti in Calabria (southern Italy) provides new insights into the paleoenvironmental and palaeoclimatic changes which characterise the Holocene period in the southern Italy. The chronology is based on 11 AMS radiocarbon dates from terrestrial organic material. The Holocene history of the vegetation cover shows the persistence of an important and relatively stable Fagus forest present over that entire period, offering a rare example of a beech woodstand able to withstand climate changes for more than 11 000 yr. Probably in relation with early Holocene dry climate conditions which af-

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Holocene vegetation, fire and climate history of the Sawtooth Range, central Idaho, USA

Cited by 36 publications

References 53 publications

Holocene seasonal variability inferred from multiple proxy records from Crevice Lake, Yellowstone National Park, USA

Holocene seasonal variability inferred from multiple proxy records from Crevice Lake, Yellowstone National Park, USA

Potential influence of wildfire in modulating climate-induced forest redistribution in a central Rocky Mountain landscape

Pollen-based reconstruction of Holocene vegetation and climate in southern Italy: the case of Lago Trifoglietti

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