Matthew E. Kirby scite author profile

The influence of the Laurentian Great Lakes on the climate of surrounding regions is significant, especially in leeward settings where lake-effect snowfall occurs. Heavy lake-effect snow represents a potential natural hazard and plays important roles in winter recreational activities, agriculture, and regional hydrology. Changes in lake-effect snowfall may represent a regional-scale manifestation of hemispheric-scale climate change, such as that associated with global warming. This study examines records of snowfall from several lake-effect and non-lake-effect sites throughout most of the twentieth century in order to 1) determine whether differences in snowfall trends exist between these settings and 2) offer possible linkages between lake-effect snow trends and records of air temperature, water temperature, and ice cover. A new, historic record of oxygen isotope [␦ 18 O ] data from the sediments of three eastern Finger Lakes in central New York is presented as a means (CaCO ) 3 of independently assessing changes in Great Lakes lake-effect snowfall. Results reveal a statistically significant increasing trend in snowfall for the lake-effect sites, whereas no trend is observed in the non-lake-effect settings. The Finger Lake oxygen isotope record reflects this increase in lake-effect snow through a statistically significant trend toward lower ␦ 18 O values. Records of air temperature, water temperature, and lake ice suggest that (CaCO ) 3 the observed lake-effect snow increase during the twentieth century may be the result of warmer Great Lakes surface waters and decreased ice cover, both of which are consistent with the historic upward trend in Northern Hemispheric temperature due to global warming. Given projected increases in future global temperature, areas downwind of the Great Lakes may experience increased lake-effect snowfall for the foreseeable future.

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Latest Pleistocene to Holocene hydroclimates from Lake Elsinore, California

Kirby

Feakins

Bonuso

et al. 2013

Quaternary Science Reviews

123

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A Holocene record of Pacific Decadal Oscillation (PDO)-related hydrologic variability in Southern California (Lake Elsinore, CA)

et al. 2010

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High-resolution terrestrial records of Holocene climate from Southern California are scarce. Moreover, there are no records of Pacific Decadal Oscillation (PDO) variability, a major driver of decadal to multi-decadal climate variability for the region, older than 1,000 years. Recent research on Lake Elsinore, however, has shown that the lake's sediments hold excellent potential for paleoenvironmental analysis and reconstruction. New 1-cm contiguous grain size data reveal a more complex Holocene climate history for Southern California than previously recognized at the site. A modern comparison between the twentieth century PDO index, lake level change, San Jacinto River discharge, and percent sand suggests that sand content is a reasonable, qualitative proxy for PDO-related, hydrologic variability at both multi-decadal-to-centennial as well as event (i.e. storm) timescales. A depositional model is proposed to explain the sand-hydrologic proxy. The sand-hydrologic proxy data reveal nine centennial-scale intervals of wet and dry climate throughout the Holocene. Percent total sand values [1.5 standard deviation above the 150-9,700 cal year BP average are frequent between 9,700 and 3,200 cal year BP (n = 41), but they are rare from 3,200 to 150 cal year BP (n = 6). This disparity is interpreted as a change in the frequency of exceptionally wet (high discharge) years and/or changes in large storm activity. A comparison to other regional hydrologic proxies (10 sites) shows more then

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Insolation forcing of Holocene climate change in Southern California: a sediment study from Lake Elsinore

et al. 2007

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Tropical Pacific forcing of Late-Holocene hydrologic variability in the coastal southwest United States

Kirby¹,

Feakins²,

Hiner³

et al. 2014

Quaternary Science Reviews

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A 9170-year record of decadal-to-multi-centennial scale pluvial episodes from the coastal Southwest United States: a role for atmospheric rivers?

Kirby¹,

Zimmerman²,

Patterson³

et al. 2012

Quaternary Science Reviews

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Late Quaternary Detrital Carbonate (Dc-) Layers in Baffin Bay Marine Sediments (67°–74°n): Correlation With Heinrich Events in the North Atlantic?

Andrews¹,

Kirby²,

Aksu

et al. 1998

Quaternary Science Reviews

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A Heinrich‐like event, H‐0 (DC‐0): Source(s) for detrital carbonate in the North Atlantic during the Younger Dryas Chronozone

Andrews¹,

Jennings²,

Kerwin³

et al. 1995

Paleoceanography

119

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In the North Atlantic we define H‐0 as a Heinrich‐like event which occurred during the Younger Dryas chron. On the SE Baffin shelf prior to 11 ka, surface water productivity was reasonably high, as measured by the numbers of diatom and planktic foraminifera per gram, but an abrupt increase in detrital carbonate (DC‐0 event) (from approximately 15% up to 50% carbonate by weight) occurred at 11 ± 14C ka and continued to circa 10 ka. These deposits, 2–6 m thick, are dominated by detrital calcite and silt‐ and clay‐sized sediments. During this event (DC‐0/H‐0), ice extended onto the inner shelf but did not reach the shelf break and probably originated from a center over Labrador‐Ungava. As a consequence, the pattern of ice‐rafted debris and sediment provenance shown by H‐O in the North Atlantic is different from that during H‐1 (14.5 ka) or H‐2 (20 ka) when the ice sheet extended along the axis of Hudson Strait and may have reached the shelf break; for example, there is no concrete evidence for DC‐O is cores on the floor of the Labrador Sea due east of Hudson Strait (HU75‐55,‐56), but H‐O has been noted in cores off Newfoundland and west of Ireland. A coeval carbonate event to DC‐0, but this one dominated by dolomite, occurs in HU82‐SU5 on the west side of Davis Strait with a source either from northern Baffin Bay or Cumberland Sound. Although other sources for North Atlantic detrital carbonate cannot be totally excluded, our evidence suggests that H‐0 represents the expression of glaciological instability of the Laurentide Ice Sheet within the general region of Hudson Strait and probably to the north (Cumberland Sound and northernmost Baffin Bay). There is one younger DC event, dated circa 8.4 ka, present in sediments along the Labrador margin and in Hudson Strait, which represents the final collapse of the ice sheet within Hudson Strait and Hudson Bay.

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Matthew E. Kirby

Increasing Great Lake–Effect Snowfall during the Twentieth Century: A Regional Response to Global Warming?

Latest Pleistocene to Holocene hydroclimates from Lake Elsinore, California

A Holocene record of Pacific Decadal Oscillation (PDO)-related hydrologic variability in Southern California (Lake Elsinore, CA)

Insolation forcing of Holocene climate change in Southern California: a sediment study from Lake Elsinore

Tropical Pacific forcing of Late-Holocene hydrologic variability in the coastal southwest United States

A 9170-year record of decadal-to-multi-centennial scale pluvial episodes from the coastal Southwest United States: a role for atmospheric rivers?

Late Quaternary Detrital Carbonate (Dc-) Layers in Baffin Bay Marine Sediments (67°–74°n): Correlation With Heinrich Events in the North Atlantic?

A Heinrich‐like event, H‐0 (DC‐0): Source(s) for detrital carbonate in the North Atlantic during the Younger Dryas Chronozone

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