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2. Moraines and late-glacial stratigraphy in central Lake Superior

Author

Thomas C. Johnson, Andy Breckenridge, Nigel J. Wattrus, Lucas K. Zoet, and Steven M. Colman

Subjects
geography, geography.geographical_feature_category, Varve, Iceberg, Paleontology, Arts and Humanities (miscellaneous), Moraine, Outwash plain, General Earth and Planetary Sciences, Glacial period, Ice sheet, Glacial lake, Meltwater, Geology, Earth-Surface Processes
Abstract

Seismic-reflection surveys of the Isle Royale sub-basin, central Lake Superior, reveal two large end moraines and associated glacial sediments deposited during the last cycle of the Laurentide Ice Sheet in the basin. The Isle Royale moraines directly overlie bedrock and are cored with dense, acoustically massive till intercalated down-ice with acoustically stratified outwash. Till and outwash are overlain by glacial varves, a lower red unit and an upper gray unit.The maximum extent of late Younger Dryas-age readvance into the western Lake Superior basin is uncertain, but it was probably controlled by both ice dynamics and climate. Our data indicate that during retreat from the maximum, the ice paused just long enough to construct the outer of the two moraines, >100 m high, and then retreated to the inner moraine, during which time most of the lower glacial-lacustrine sequence (red varves) was deposited. Retreat from the inner moraine coincided with a marked flux of icebergs at the calving margin and a change to gray varves. Rapid retreat may be related to both an influx of meltwater from Glacial Lake Agassiz about 10,500 cal yr BP and retreat of the calving margin down an adverse slope into the Isle Royale sub-basin.

Published
2020

3. The Mighty Susquehanna—Extreme Floods in Eastern North America During the Past Two Millennia

Author

Marci E. Marot, Debra A. Willard, Robert L. Korty, Meagan Cantwell, Clifford W. Heil, Liviu Giosan, Steven M. Colman, Thomas M. Cronin, Michael R. Toomey, and Jeffrey P. Donnelly

Subjects
East coast, Holocene, east coast, 010504 meteorology & atmospheric sciences, Flood myth, river, Chesapeake, hurricane, flood, 15. Life on land, 010502 geochemistry & geophysics, 01 natural sciences, Archaeology, Geophysics, Geography, 13. Climate action, General Earth and Planetary Sciences, 0105 earth and related environmental sciences
Abstract

The hazards posed by infrequent major floods to communities along the Susquehanna River and the ecological health of Chesapeake Bay remain largely unconstrained due to the short length of streamgage records. Here we develop a history of high‐flow events on the Susquehanna River during the late Holocene from flood deposits contained in MD99‐2209, a sediment core recovered in 26 m of water from Chesapeake Bay near Annapolis, Maryland, USA. We identify coarse‐grained deposits left by Hurricane Agnes (1972) and the Great Flood of 1936, as well as during three intervals that predate instrumental flood records (~1800‐1500, 1300‐1100 and 400‐0 CE). Comparison to sedimentary proxy data (pollen and ostracode Mg/Ca ratios) from the same core site indicate that prehistoric flooding on the Susquehanna often accompanied cooler‐than‐usual winter/spring temperatures near Chesapeake Bay—typical of negative phases of the North Atlantic Oscillation and conditions thought to foster hurricane landfalls along the East Coast. Plain Language Summary Despite the vulnerability of many mid‐Atlantic cities to flooding, including Washington D.C., few long‐term records exist to assess the risks posed by extreme, infrequent, storm events. Here we document recent and prehistoric floods on the Susquehanna River, which has the largest watershed on the U.S. Eastern Seaboard, using sediment cores collected from Chesapeake Bay. Our analysis finds that much of the Susquehanna's observed centennial‐millennial scale flood variability may be driven by the frequency of hurricane landfalls along the U.S. East Coast.

Published
2019

4. Late-Quaternary dynamics and palaeoclimatic implications of an alluvial fan-lake system on the southern Alxa Plateau, NW China

Author

Jinhua Du, Zhanfang Hou, Steven M. Colman, Shi-Yong Yu, and Ji Shen

Subjects
Marine isotope stage, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Alluvial fan, Last Glacial Maximum, 010502 geochemistry & geophysics, 01 natural sciences, Sedimentary depositional environment, Aggradation, Sedimentary rock, Alluvium, Physical geography, Quaternary, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

Alluvial fan-lake complexes are common in the piedmont zone of mountains on the southern Alxa Plateau, NW China. Interconnected by the erosional and depositional processes, they can be treated as a typical source-to-sink system. Yet the dynamics of these coupled sedimentary systems during the Late Quaternary is poorly understood. For example, radiocarbon dating of alluvial fans and elevated shoreline features of megalakes in this area usually yields numerical ages in radical contradiction to those obtained using the optically stimulated luminescence (OSL) method. Resolving this controversy of timing of the alluvial fan-lake systems is important for understanding the driving mechanisms of climatic and environmental changes in this ecological vulnerable area. The Yabulai alluvial fan-lake system is an exceptional example for tackling this issue. Here we provide numerical ages from three sites to better understand the dynamics of this sedimentary system during the last interglacial-glacial cycle. Our results, when compared with palaeoclimate proxy records, suggest that the fan-lake system was highly regulated by the East Asian summer monsoon and it has experienced four stages of remarkable changes. Debris flow processes were active and lake level was ~30 m higher than that of today during Marine Isotope Stage (MIS) 5. A gradual decrease in the aggradation rate of the alluvial fan along with lake-level fall occurred during MIS 4–3, which was followed by a period of intensive wind erosion corresponding to the Last Glacial Maximum. Postglacial growth of the alluvial fan slowed down substantially and small-scale lake-level fluctuations occurred in the foreland basin. The desiccation of megalakes during recent times suggests that the East Asian summer monsoon may have retreated from this area as semi-arid climate emerged.

Published
2019

6. Sedimentary architecture of the southern basin of Lake of the Woods, Minnesota and its relation to Lake Agassiz history and Holocene environmental change

Author

Devin D. Hougardy and Steven M. Colman

Subjects
010506 paleontology, Structural basin, 010502 geochemistry & geophysics, 01 natural sciences, Unconformity, Paleontology, Tectonic uplift, Arts and Humanities (miscellaneous), Deglaciation, General Earth and Planetary Sciences, Sedimentary rock, Glacial lake, Holocene, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes, Marine transgression
Abstract

Lake of the Woods (LOTW) is a large, complex lake basin once occupied by glacial Lake Agassiz. High-resolution seismic-reflection profiles and cores in the shallow, open southern basin of LOTW reveal a sedimentary architecture comprising four lacustrine units separated by three low-stand unconformities. These units represent several phases of Lake Agassiz and its changing configuration. One unconformity marks the Moorhead low phase and another marks the separation of LOTW from Lake Agassiz, perhaps ~10 cal ka BP, as the level of the latter fell, but before final drainage of Agassiz. Initially, the separate Holocene lake in the southern basin was broad and shallow, sometimes marshy or dry. Shortly after 8 cal ka BP, the southern basin dried up completely, despite the progressive rise of the northern outlet of the lake due to differential isostatic uplift. The resulting hiatus is related to the well-documented mid-Holocene arid interval in central North America. A return to wetter conditions in the late Holocene caused the southern basin of LOTW to refill since about 3800 cal yr BP. Late Holocene sediments have accumulated slightly asymmetrically in the basin, possible due to continued southward transgression of the lake as a result of isostatic tilting.

Published
2018

7. Changes in dominant moisture sources and the consequences for hydroclimate on the northeastern Tibetan Plateau during the past 32 kyr

Author

Jiangtao Zhao, Steven C. Clemens, Steven M. Colman, Carrie Morrill, Elizabeth K. Thomas, Yongsong Huang, and Pamela Wegener

Subjects
Archeology, Global and Planetary Change, geography, Plateau, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Geology, Westerlies, 010502 geochemistry & geophysics, Monsoon, 01 natural sciences, Climatology, Paleoclimatology, Glacial period, Younger Dryas, Precipitation, Ecology, Evolution, Behavior and Systematics, Holocene, 0105 earth and related environmental sciences
Abstract

Lake Qinghai, located on the northeastern Tibetan Plateau north of the modern maximum summer monsoon extent, is well situated to record northward advances of the summer monsoon. Existing paleoclimate records contain conflicting evidence for the timing of summer monsoon advance into this region: an early arrival pre-Younger Dryas or a late arrival at the beginning of the Holocene. A 30-kyr-long leaf wax hydrogen isotope ( n -alkanoic acid, δ 2 H wax ) record from Lake Qinghai helps to address this discrepancy by elucidating changes in the three main moisture sources in this region: southerly (summer monsoon), northwesterly, and local precipitation. Lake Qinghai δ 2 H wax indicates that the arid glacial period was dominated by northwesterly moisture. Extremely arid conditions prevailed from 15 to 14 ka, likely because westerly winds were weakening and the summer monsoon had not yet reached this region. This arid period ended by 13.6 ka when small amounts of summer monsoon precipitation reached Lake Qinghai. Summer monsoon moisture subsequently retreated off of the northeastern Tibetan Plateau during the Younger Dryas and re-advanced in the early Holocene. Summer monsoon precipitation decreased progressively throughout the Holocene in response to decreasing summer insolation, and the modern northwesterly- and local-dominated moisture regime was attained ca. 2.6 ka. Lake Qinghai δ 2 H wax demonstrates that the summer monsoon extent was dynamic during the past 30 kyr, responding dramatically to insolation and North Atlantic circulation changes. Moreover, Lake Qinghai δ 2 H wax demonstrates that local and northwesterly air masses are important moisture sources to the northeastern Tibetan Plateau, and should be considered when reconstructing past hydroclimate in this region.

Published
2016

8. BEMMA: A Hierarchical Bayesian End-Member Modeling Analysis of Sediment Grain-Size Distributions

Author

Shi-Yong Yu, Steven M. Colman, and Linxiong Li

Subjects
010506 paleontology, Sequence, Markov chain, Monte Carlo method, Bayesian probability, Sorting, 010502 geochemistry & geophysics, 01 natural sciences, Mathematics (miscellaneous), Distribution (mathematics), Margin (machine learning), Statistics, General Earth and Planetary Sciences, Sediment transport, Algorithm, Geology, 0105 earth and related environmental sciences
Abstract

Sediment grain-size distributions provide rich information about sedimentary dynamics and potentially about environmental and climatic changes. However, entrainment, transport, and deposition, as a sequence of sorting process, modify original grain-size distributions of source materials, thereby resulting in complex distribution forms that are commonly multimodal and asymmetrical. However, neither traditional descriptive statistics nor curving fitting methods are able to address this complexity fully. End-member modeling analysis, essentially based on polytope expansion, stands out as a flexible and robust method for the unmixing of sediment grain-size distributions. Yet there are still several key issues that remain unresolved. Here a hierarchical Bayesian end-member modeling analysis of grain-size distributions, fully subject to the non-negative and unit-sum constraints on the distributions, is presented. Within the Bayesian framework, the number of end members, as well as the end-member spectra and fractions can be inferred sequentially using a reversible-jump Markov chain Monte Carlo algorithm in conjunction with Gibbs samplers. Test runs using both a synthetic and a real-world dataset from a small playa located on the southern margin of the Badain Jaran Desert, NW China, reveal that this model can yield geologically meaningful and mathematically optimal outputs, thereby providing a necessary complement and powerful alternative to the existing deterministic methods.

Published
2015

9. A climate threshold at the eastern edge of the Tibetan plateau

Author

Yongsong Huang, Steven M. Colman, Hai Xu, Zhisheng An, Weijian Zhou, Weiguo Liu, Xiuju Liu, Peng Cheng, Erik T. Brown, and A. J. Timothy Jull

Subjects
Geophysics, Pleistocene, Climatology, General Earth and Planetary Sciences, East Asian Monsoon, Glacial period, Younger Dryas, Jet stream, Monsoon, Quaternary, Geology, Holocene
Abstract

Proxy records of summer monsoon moisture at Lake Qinghai on the northeastern Tibetan Plateau reveal a late Quaternary climate history that is subtly different from that of speleothems from southern and eastern China. Total organic carbon and authigenic carbonate in two independently analyzed and dated cores indicate (1) relative stability and aridity during the glacial interval, (2) small variations during the Bolling-Allerod and the Younger Dryas intervals, (3) comparatively abrupt change at the late Pleistocene/Holocene transition, and (4) relatively high variability during a wet early Holocene. Taken together, the data suggest that a climate threshold exists for penetration of Asian monsoon rainfall onto the Tibetan Plateau, a threshold that was crossed at the beginning of the Holocene. Conceptually, the threshold simply may be related to the topographic barrier that the eastern margin of the Tibetan Plateau presents to the landward penetration of the monsoon, or it may be related to nonlinearities in the climate system itself, such as sudden shifts in the configuration of the Westerly jet stream. Different mechanisms for producing a threshold are not mutually exclusive and may have combined to affect the dynamics of the Asian monsoon. In any case, the threshold is related to the presence of the Tibetan Plateau, which has a profound influence on the Asia monsoon system.

Published
2014

10. The effects of recent uplift and volcanism on deposition in Mono Lake, California, from seismic-reflection (CHIRP) profiles

Author

Susan R.H. Zimmerman, S. W. Stine, Steven M. Colman, and Sidney R. Hemming

Subjects
Shore, geography, geography.geographical_feature_category, Lithology, Structural basin, Sedimentary depositional environment, Paleontology, Geophysics, Volcano, Space and Planetary Science, Geochemistry and Petrology, Mudflow, Earth and Planetary Sciences (miscellaneous), Sedimentary rock, Tephra, Geomorphology, Geology
Abstract

About 150 km of high-resolution, seismic reflection (Compressed High-Intensity Radar Pulse) profiles (approximately 20 m penetration) were collected in Mono Lake in order to define the uppermost sedimentary architecture of the basin, which has been heavily impacted by recent volcanic, tectonic, and climatic processes. The study also provides an important background for ongoing efforts to obtain paleoenvironmental records from sediment cores in the lake. The history of four seismic-stratigraphic units in the upper 20 m of section are inferred from the data, and the interpretations are generally consistent with previous interpretations of lake history for the past 2000 years, including a major lowstand at 1941 m. No shorelines below the previously documented major lowstand at 1941 m were found. A relatively steep slope segment, whose toe is at about 1918 m, and which occurs on the southern and western margins of the deep basin of the lake, is interpreted as the relict foreset slope of deposition from prograding western tributaries. This topography is unconformably overlain by a unit of interbedded tephra and lake sediments of variable lithology, which contains tephra of the North Mono (600–625 cal yr BP) eruption in its upper part. The tephra-rich unit is overlain by a mostly massive mudflow deposit that is locally more than 18 m thick and that is distributed in a radial pattern around Paoha Island. The evidence suggests that within the past few hundred years, rapid uplift of Paoha Island through thick, preexisting lake deposits led to widespread slope failures, which created a terrain of disrupted, intact blocks near the island, and a thick, fluid mudflow beyond. As is common in mudflows, the mudflow moved up the depositional slope of the lake floor, terminating against the preexisting slopes, likely in multiple surges. Since about 1700 Common Era, fine-grained, well-laminated sediments have accumulated in the deep parts of the lake at anomalously rapid rates, probably driven by continued rapid, small-scale shedding of sediment from Paoha Island.

Published
2014

11. Abundant C4 plants on the Tibetan Plateau during the Lateglacial and early Holocene

Author

Jiangtao Zhao, Carrie Morrill, Pamela Wegener, Yongsong Huang, Steven M. Colman, Li Gao, Steven C. Clemens, and Elizabeth K. Thomas

Subjects
Archeology, Global and Planetary Change, geography, Plateau, geography.geographical_feature_category, Environmental change, Ecology, fungi, food and beverages, Growing season, Geology, Monsoon, Environmental science, Ecosystem, Precipitation, Glacial period, Ecology, Evolution, Behavior and Systematics, Holocene
Abstract

Plants using the C 4 (Hatch-Slack) photosynthetic pathway are key for global food production and account for ca 25% of terrestrial primary productivity, mostly in relatively warm, dry regions. The discovery of modern naturally-occurring C 4 plant species at elevations up to 4500 m in Tibet and 3000 m in Africa and South America, however, suggests that C 4 plants are present in a wider range of environments than previously thought. Environmental conditions on the Tibetan Plateau, including high irradiance, rainfall focused in summer, and saline soils, can favor C 4 plants by offsetting the deleterious effects of low growing season temperature. We present evidence based on leaf wax carbon isotope ratios from Lake Qinghai that C 4 plants accounted for 50% of terrestrial primary productivity on the northeastern Tibetan Plateau throughout the Lateglacial and early Holocene. Despite cold conditions, C 4 plants flourished due to a combination of factors, including maximum summer insolation, pCO 2 ca 250 ppmv, and sufficient summer precipitation. The modern C 3 plant-dominated ecosystem around Lake Qinghai was established ca 6 thousand years ago as pCO 2 increased and summer temperature and precipitation decreased. C 4 plants were also intermittently abundant during the Last Glacial period; we propose that C 4 plants contributed a significant portion of local primary productivity by colonizing the exposed, saline Qinghai Lake bed during low stands. Our results contrast with state-of-the-art ecosystem models that simulate 4 plant abundance on the Tibetan Plateau in modern and past environments. The past abundance of C 4 plants on the Tibetan Plateau suggests a wider temperature range for C 4 plants than can be inferred from modern distributions and model simulations, and provides paleoecological evidence to support recent findings that C 4 plant evolution and distribution was determined by a combination of climatic and environmental factors (temperature, irradiance, precipitation amount and seasonality, and soil salinity). Moreover, this finding highlights the exceptional sensitivity of high-elevation ecosystems to environmental change, and provides critical benchmarks for ecosystem model validation.

Published
2014

12. Abrupt deglaciation on the northeastern Tibetan Plateau: evidence from Lake Qinghai

Author

Josef P. Werne, Jonathan A. Holmes, Erik T. Brown, Xiuju Liu, Andrew C. G. Henderson, and Steven M. Colman

Subjects
geography, Plateau, geography.geographical_feature_category, Aquatic Science, Monsoon, Oceanography, Interglacial, Deglaciation, East Asian Monsoon, Glacial period, Younger Dryas, Geology, Holocene, Earth-Surface Processes
Abstract

We inferred the climate history for Central Asia over the past 20,000 years, using sediments from core QH07, taken in the southeastern basin of Lake Qinghai, which lies at the northeastern margin of the Tibetan Plateau. Results from multiple environmental indicators are internally consistent and yield a clear late Pleistocene and Holocene climate record. Carbonate content and total organic carbon (TOC) in Lake Qinghai sediments are interpreted as indicators of the strength of the Asian summer monsoon. Warm and wet intervals, associated with increased monsoon strength, are indicated by increased carbonate and TOC content. During the glacial period (~20,000 to ~14,600 cal year BP), summer monsoon intensity remained low and relatively constant at Lake Qinghai, suggesting cool, dry, and relatively stable climate conditions. The inferred stable, cold, arid environment of the glacial maximum seems to persist through the Younger Dryas time period, and little or no evidence of a warm interval correlative with the Bolling–Allerod is found in the QH07 record. The transition between the late Pleistocene and the Holocene, about 11,500 cal year BP, was abrupt, more so than indicated by speleothems in eastern China. The Holocene (~11,500 cal year BP to present) was a time of enhanced summer monsoon strength and greater variability, indicating relatively wetter but more unstable climatic conditions than those of the late Pleistocene. The warmest, wettest part of the Holocene, marked by increased organic matter and carbonate contents, occurred from ~11,500 to ~9,000 cal year BP, consistent with maximum summer insolation contrast between 30°N and 15°N. A gradual reduction in precipitation (weakened summer monsoon) is inferred from decreased carbonate content through the course of the Holocene. We propose that changes in the contrast of summer insolation between 30°N and 15°N are the primary control on the Asian monsoon system over glacial/interglacial time scales. Secondary influences may include regional and global albedo changes attributable to ice-cover and vegetation shifts and sea level changes (distance from moisture source in Pacific Ocean). The abruptness of the change at the beginning of the Holocene, combined with an increase in variability, suggest a threshold for the arrival of monsoonal rainfall at the northeastern edge of the Tibetan Plateau.

Published
2013

13. Radiocarbon Dating of Basal Peats Supports Separation of Lake Superior from Lakes Michigan-Huron about 1250 years ago

Author

Steven M. Colman, Shi-Yong Yu, and Glenn A. Milne

Subjects
Shore, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Context (language use), Wetland, Ecological succession, Post-glacial rebound, 15. Life on land, 010502 geochemistry & geophysics, 01 natural sciences, law.invention, Geophysics, Oceanography, Space and Planetary Science, Geochemistry and Petrology, law, Earth and Planetary Sciences (miscellaneous), 14. Life underwater, Radiocarbon dating, Hydrography, Bay, Geology, 0105 earth and related environmental sciences
Abstract

Lake Superior represents an important component of the aquatic ecosystem in North America. Along its south shore, ongoing lake-level rise, accelerated erosion, and wetland loss are major environmental concerns to coastal communities. A better prediction of the future of this shore requires placing the instrumental lake-level records in a geological context. However, our knowledge of the late-Holocene history of the world's largest freshwater body remains fragmentary. Here we present a sedimentary record of late-Holocene relative lake-level changes by dating transgressive basal peats resting directly on a sandy substrate along a bathymetric gradient in Bark Bay Slough, Wisconsin. Our record shows a moderate lake-level rise at 1.4±0.2 mm/yr from about 2200 to 1250 cal yr BP as a result of relatively slow differential uplift of Bark Bay relative to the controlling outlet at Port Huron. The rise accelerated to 2.3±0.2 mm/yr at about 1250 cal yr BP when Sault Ste. Marie emerged as the controlling outlet, thereby separating Superior from Lakes Michigan–Huron and giving rise to the modern hydrographic regime of the upper Great Lakes. The timing of this event in our record is about 1000 yr later than that estimated in most previous studies, but our data complement and confirm the younger age of lake separation inferred using a different methodology. Our results not only provide pertinent information for hydrological regulation, navigation operation, and infrastructural design in the upper Great Lakes, but also provide insight into freshwater wetland succession on flooded coasts.

Published
2013

14. Estimation of carbonate, total organic carbon, and biogenic silica content by FTIR and XRF techniques in lacustrine sediments

Author

Steven M. Colman, Elizabeth C. Minor, Hongyu Li, Erik T. Brown, and Xiuju Liu

Subjects
chemistry.chemical_classification, Total organic carbon, Cost effectiveness, chemistry.chemical_element, Mineralogy, Aquatic Science, Biogenic silica, Absorbance, chemistry.chemical_compound, chemistry, Environmental chemistry, Carbonate, Organic matter, Fourier transform infrared spectroscopy, Carbon, Geology, Earth-Surface Processes
Abstract

Major components of lacustrine sediments, such as carbonates, organic matter, and biogenic silica, provide significant paleoenvironmental information about lake systems. Fourier transform infrared spectroscopy (FTIR) and scanning X-ray fluorescence (XRF) techniques are fast, cost effective, efficient methods to determine the relative abundances of these components. We investigate the potential of these techniques using sediments from two large lakes, Lake Malawi in Africa and Lake Qinghai in China. Our results show statistically significant correlations of conventionally measured concentrations of carbonate (%CaCO3), total organic carbon (%TOC), and biogenic silica (%BSi), with absorbance in the corresponding FTIR spectral regions and with XRF elemental ratios including calcium:titanium (Ca/Ti), incoherent:coherent X-ray scatter intensities (Inc/Coh), and silicon:titanium (Si/Ti), respectively. The correlation coefficients (R) range from 0.66 to 0.96 for comparisons of FTIR results and conventional measurements, and from 0.70 to 0.90 for XRF results and conventional measurements. Both FTIR and XRF techniques exhibit great potential for rapid assessment of inorganic and organic contents of lacustrine sediments. However, the relationship between XRF-ratios or FTIR-absorbances and abundances of corresponding sedimentary components can vary with sediment source and lithology.

Published
2013

15. A high resolution study of spatial and temporal variability of natural and anthropogenic compounds in offshore Lake Superior sediments

Author

Nigel J. Wattrus, Kristofer R. Rolfhus, Thomas C. Johnson, Jon D. Van Alstine, and Steven M. Colman

Subjects
Total organic carbon, Ecology, chemistry.chemical_element, Sediment, Aquatic Science, Structural basin, Biogenic silica, Bathymetric chart, Mercury (element), chemistry.chemical_compound, Oceanography, chemistry, Physical geography, Methylmercury, Water content, Ecology, Evolution, Behavior and Systematics, Geology
Abstract

An 8 km 2 area representative of deep offshore basins in Lake Superior was surveyed with multi-beam sonar and a high-frequency seismic-reflection system to create a high-resolution bathymetric map of the lake floor morphology, which is dominated by ring-shaped depressions attributed to the dewatering of glacial-lacustrine clays. Ten multi-cores were recovered from the survey area. The cores were scanned for magnetic susceptibility (MS), dated by 210 Pb and analyzed for water content, total organic carbon (TOC) and nitrogen (TON), biogenic silica (BSi), and total (THg) and methyl (MeHg) mercury. MS profiles varied considerably, inferring substantial centennial-scale differences in sedimentation history among the core sites. Concentration profiles of the analyzed constituents displayed differences of about ± 15% TOC, ± 40% BSi, ± 50% THg and ± 50% MeHg. Total mercury and methylmercury concentrations were typical of past measurements, and the mean THg accumulation rate (12 μg/m 2 year) was similar in magnitude to that of atmospheric Hg deposition. Sediment mass accumulation rates (MAR) ranged among the cores between average values of about 50 g/m 2 year in the ring centers to as high as 180 g/m 2 year between rings. Temporal variation in MAR within cores varied considerably on a decadal scale as well. Sediment redistribution by bottom currents over the complex morphology of the Lake Superior basin is not uniform in space and time, and indicates that a single core from any given area in the lake may not reflect the true history of environmental conditions that extend even a few hundred meters beyond the core site.

Published
2012

16. Mid-Holocene drought and lake-level change at Elk Lake, Clearwater County, Minnesota: Evidence from CHIRP seismic-reflection data

Author

Steven M. Colman, Erik T. Brown, and RA Rush

Subjects
Archeology, Global and Planetary Change, geography, Varve, geography.geographical_feature_category, Ecology, Paleontology, Sedimentary basin, Onlap, Arid, Oceanography, Stage (stratigraphy), Paleoclimatology, Sedimentary rock, Geology, Holocene, Earth-Surface Processes
Abstract

Despite many studies of Holocene paleoclimate records from small lakes in the mid-continent of North America, direct estimates of lake-level changes associated with mid-Holocene aridity are rare. Varved sediments from Elk Lake, Clearwater County, Minnesota, are among the best studied in terms of paleoenvironmental proxies, yet the sedimentary architecture of those sediments has not been previously studied and the hydrological responses of the lake – changes in level and volume – are poorly known. High-resolution seismic-reflection (CHIRP) profiles of Elk Lake reveal complex sedimentary basins in the lake, a pattern of nearshore onlap of sediments onto older substrates, and the focusing of sediments into several deep basins. Biogenic gas obscures sediments in the deepest parts of the basins, but beneath the rest of the lake, a three-part Holocene sequence is clear. The transitions between these parts are correlated with lithological changes defined in earlier core studies. Sediments of the modern stage are less focused than those of the prairie lake stage. A prominent erosional unconformity occurs within the Holocene sequence, separating sediments from the prairie and modern stages of the lake. Erosion associated with this unconformity extends to a depth of 18.2 m below the modern water surface, at which point the unconformity grades into a conformable horizon within the sequence in the deep basins of the lake. This transition is an analog of the onlap of modern sediments onto older substrates, which occurs at a depth of about 8.2 m. The configuration of the erosional unconformity and its modern analog indicates a lake-level fall in the mid Holocene of 10.0 m. At its mid-Holocene minimum, the lake was 39% of its present size and 30% of its present volume, providing quantitative evidence to aid in constraining and evaluating reconstructions of mid-Holocene aridity in the mid-continent of North America.

Published
2012

17. Fingerprinting of glacial silt in lake sediments yields continuous records of alpine glaciation (35–15 ka), western USA

Author

Steven M. Colman, Richard L. Reynolds, and Joseph G. Rosenbaum

Subjects
geography, geography.geographical_feature_category, Glacial landform, Glacier, Last Glacial Maximum, Silt, Oceanography, Arts and Humanities (miscellaneous), Moraine, General Earth and Planetary Sciences, Glacial period, Physical geography, Bull Lake glaciation, Sea level, Geology, Earth-Surface Processes
Abstract

Fingerprinting glacial silt in last glacial-age sediments from Upper Klamath Lake (UKL) and Bear Lake (BL) provides continuous radiocarbon-dated records of glaciation for the southeastern Cascade Range and northwestern Uinta Mountains, respectively. Comparing of these records to cosmogenic exposure ages from moraines suggests that variations in glacial flour largely reflect glacial extent. The two areas are at similar latitudes and yield similar records of glacial growth and recession, even though UKL lies less than 200 km from the ocean and BL is in the continental interior. As sea level began to fall prior to the global Last Glacial Maximum (LGM), existing glaciers in the UKL area expanded. Near the beginning of the global LGM (26.5 ka), the BL record indicates onset of glaciation and UKL-area glaciers underwent further expansion. Both records indicate that local glaciers reached their maximum extents near the end of the global LGM, remained near their maxima for ~ 1000 yr, and underwent two stages of retreat separated by a short period of expansion.

Published
2012

18. Marine radiocarbon reservoir corrections (ΔR) for Chesapeake Bay and the Middle Atlantic Coast of North America

Author

Brendan J. Culleton, Gregory A. Henkes, Steven M. Colman, Torben C. Rick, and Darrin L. Lowery

Subjects
Shore, 010506 paleontology, geography, geography.geographical_feature_category, 060102 archaeology, biology, Chesapeake bay, 06 humanities and the arts, biology.organism_classification, 01 natural sciences, law.invention, Oceanography, Arts and Humanities (miscellaneous), Absolute dating, law, Geochronology, General Earth and Planetary Sciences, 0601 history and archaeology, Seawater, Radiocarbon dating, Eastern oyster, Bay, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

Radiocarbon dates from known age, pre-bomb eastern oyster (Crassostrea virginica) shells provide local marine reservoir corrections (ΔR) for Chesapeake Bay and the Middle Atlantic coastal area of eastern North America. These data suggest subregional variability in ΔR, ranging from 148±46 14C yr on the Potomac River to −109±38 14C yr at Swan Point, Maryland. The ΔR weighted mean for the Chesapeake's Western Shore (129±22 14C yr) is substantially higher than the Eastern Shore (−88±23 14C yr), with outer Atlantic Coast samples falling between these values (106±46 and 2±46 14C yr). These differences may result from a combination of factors, including 14C-depleted freshwater that enters the bay from some if its drainages, 14C-depleted seawater that enters the bay at its mouth, and/or biological carbon recycling. We advocate using different subregional ΔR corrections when calibrating 14C dates on aquatic specimens from the Chesapeake Bay and coastal Middle Atlantic region of North America.

Published
2012

19. Post-Marquette discharge from Glacial Lake Agassiz into the Superior basin

Author

Jessica L. Gary, C. F. M. Lewis, Steven M. Colman, and Nigel J. Wattrus

Subjects
geography, geography.geographical_feature_category, Bedrock, Sediment, Aquatic Science, Structural basin, Sedimentary depositional environment, Paleontology, Bathymetry, Glacial period, Sedimentology, Glacial lake, Geomorphology, Geology, Earth-Surface Processes
Abstract

Glacial Lake Agassiz, the largest of the North American glacial lakes, discharged through several different outlets during its history, although the timing and location of discharge remain controversial. However, one discharge event is well established based on extensive onshore observations: drainage through the Nipigon Lake area into the Superior basin about 10,700 years ago, following retreat of ice of the Marquette advance from the basin. High-resolution, single-channel seismic-reflection data collected with a small airgun were acquired to test the hypothesis that the Post-Marquette drainage event left diagnostic stratigraphic and geomorphic signatures beneath Lake Superior. The unique bathymetry of northwestern Lake Superior, where water depth plunges off Nipigon and Black Bays, makes this location ideal for the characterization of the post-Marquette depositional and erosional features. According to our hypothesis, the initial, sudden discharge of high-velocity water would have eroded channels through the bays. The steep and sudden drop-off into the Superior basin would have caused the flow to slow and drop much of the sediment it was carrying. Our results confirm the existence of both erosional features and depositional sediment packages related to Lake Agassiz discharge at this time. The erosional features include deeply incised bedrock channels in the bays. The depositional features comprise subaqueous fans that are thickest in the deep water areas adjacent to the outlets and thin lakeward and laterally away from the channels. The seismic character of the basal units of the fans, proximal to the channels, is chaotic and only very weakly stratified, suggesting that these deposits represent coarse sediment laid down during the initial, high-energy stages of the flood. These sediments are overlain by a stratified package which is interpreted as the fine grained sediment associated with the later, low-energy stages of the flood. The combination of channels and subaqueous fans is inferred to be diagnostic of high-energy Lake Agassiz discharge into the Superior basin, and they serve as analogs for hypothesized discharge at other times.

Published
2011

20. Determining the spatial and temporal patterns of climate changes in China's western interior during the last 15 ka from lacustrine oxygen isotope records

Author

Steven M. Colman, Shi-Yong Yu, and Richard D. Ricketts

Subjects
Arts and Humanities (miscellaneous), Ice core, δ18O, Climatology, Paleoclimatology, Earth and Planetary Sciences (miscellaneous), Paleontology, East Asian Monsoon, Climate change, Spatial variability, Empirical orthogonal functions, Westerlies, Geology
Abstract

China's western interior is a climatologically complex region, where climatic conditions are primarily controlled by the westerly jet stream and the Asian monsoon system. Observations reveal that the δ18O signatures of these atmospheric elements as expressed in their meteoric waters are different, and these differences are reflected in the lacustrine systems that are ultimately fed by the meteoric waters. Empirical orthogonal function (EOF) decomposition of 17 lacustrine δ18O records from this area clearly reveals the spatial and temporal structures of climate changes during the last 15 ka. The first EOF mode, dominated by sites in the NW sector, captures the temperature effect on the variability of the δ18O dataset. We interpret the variations through time in the amplitude of this mode to be indicative of changes in summer air temperature. The second EOF mode, heavily weighted by sites in the SE sector, reveals the ‘amount effect’ on δ18O, and thus its amplitude time series indicates changes in the intensity of the Asian summer monsoon. Our EOF-based reconstructions of regional climate are generally consistent with the δ18O records of ice cores, cave speleothems and marine carbonates. Copyright © 2008 John Wiley & Sons, Ltd.

Published
2009

21. Late Cenozoic climate changes in China's western interior: a review of research on Lake Qinghai and comparison with other records

Author

Zhisheng An, Andrew C. G. Henderson, Shi-Yong Yu, Ji Shen, and Steven M. Colman

Subjects
Archeology, Global and Planetary Change, geography, Plateau, geography.geographical_feature_category, Geology, Last Glacial Maximum, Monsoon, Oceanography, East Asian Monsoon, Glacial period, Younger Dryas, Global cooling, Ecology, Evolution, Behavior and Systematics, Holocene
Abstract

We review Late Cenozoic climate and environment changes in the western interior of China with an emphasis on lacustrine records from Lake Qinghai. Widespread deposition of red clay in the marginal basins of the Tibetan Plateau indicates that the Asian monsoon system was initially established by ∼8 Ma, when the plateau reached a threshold altitude. Subsequent strengthening of the winter monsoon, along with the establishment of the Northern Hemisphere ice sheets, reflects a long-term trend of global cooling. The few cores from the Tibetan Plateau that reach back a million years suggest that they record the mid-Pleistocene transition from glacial cycles dominated by 41 ka cycles to those dominated by 100 ka cycles. During Terminations I and II, strengthening of the summer monsoon in China's interior was delayed compared with sea level and insolation records, and it did not reach the western Tibetan Plateau and the Tarim Basin. Lacustrine carbonate δ 18 O records reveal no climatic anomaly during MIS3, so that high terraces interpreted as evidence for extremely high lake levels during MIS3 remain an enigma. Following the Last Glacial Maximum (LSM), several lines of evidence from Lake Qinghai and elsewhere point to an initial warming of regional climate about 14 500 cal yr BP, which was followed by a brief cold reversal, possibly corresponding to the Younger Dryas event in the North Atlantic region. Maximum warming occurred about 10 000 cal yr BP, accompanied by increased monsoon precipitation in the eastern Tibetan Plateau. Superimposed on this general pattern are small-amplitude, centennial-scale oscillations during the Holocene. Warmer than present climate conditions terminated about 4000 cal yr BP. Progressive lowering of the water level in Lake Qinghai during the last half century is mainly a result of negative precipitation–evaporation balance within the context of global warming.

Published
2007

22. Holocene organic carbon burial rates in the southeastern Swedish Baltic Sea

Author

Björn E. Berglund, Per Sandgren, Shi-Yong Yu, and Steven M. Colman

Subjects
chemistry.chemical_classification, Total organic carbon, 010506 paleontology, Archeology, Global and Planetary Change, Biogeochemical cycle, 010504 meteorology & atmospheric sciences, Ecology, Paleontology, 01 natural sciences, Carbon cycle, chemistry, Boreal, Organic matter, Sedimentary rock, Physical geography, Geomorphology, Geology, Holocene, 0105 earth and related environmental sciences, Earth-Surface Processes, Marine transgression
Abstract

To estimate Holocene changes in organic carbon mass accumulation rates (Corg MARs) in the southeastern Swedish Baltic Sea, two sediment cores were studied in combination with biogeochemical modelling. Prior to 11 300 cal. BP, Corg MARs were extremely low, indicating low organic matter production on the catchment of the Baltic Ice Lake. Following a brief regression, the Ancylus Lake stage occurred between 11 100 and 9800 cal. BP. Corg MARs increased substantially during this period because of enhanced washing in of terrestrial organic matter, when boreal forests were initially established. The prominent marine stage, known as the Littorina transgression between 8500 and 3000 cal. BP, is marked by a minor increase in Corg MARs. Our modelling reveals a changing terrestrial organic carbon input between 100 and 1000 g/m2 per yr that accounts for 30—80% of total organic carbon in sediments of the southeastern Swedish Baltic Sea, with maximum values ( c. 20 × 103g/m2 per yr) occurring during the Bronze/Iron Age transition at about 3000 cal. BP. Corg MAR in the entire Baltic basin is estimated at 3.01 × 106 t/yr during the pre-industrial Holocene, comparable with other large inland water bodies. Regardless of the source of carbon, our data indicate that the Baltic basin is an important sedimentary reservoir for organic carbon storage and thus should be included in accounting for global terrestrial carbon cycling during the pre-industrial Holocene.

Published
2007

23. Modeling the Radiocarbon Reservoir Effect in Lacustrine Systems

Author

Steven M. Colman, Shi-Yong Yu, and Ji Shen

Subjects
Hydrology, 010506 paleontology, Archeology, Biogeochemical cycle, 010504 meteorology & atmospheric sciences, Extrapolation, Sediment, Markov chain Monte Carlo, 01 natural sciences, Diagenesis, law.invention, symbols.namesake, Reservoir effect, law, symbols, General Earth and Planetary Sciences, Radiocarbon dating, Geology, Groundwater, 0105 earth and related environmental sciences
Abstract

The modern water (both pre- and post-atmospheric nuclear testing) of most lakes has an anomalously old apparent radiocarbon age due to what is commonly referred to as the “reservoir effect.” In contrast to marine settings, this14C-offset phenomenon is primarily caused by pre-aged carbon discharged to lakes by rivers and/or groundwater. In this paper, a 2-component box model based on the principle of14C mass balance in lake water and in the early diagenesis zone was formulated to address the relative importance of terrestrial inputs, autochthonous production, and biogeochemical processes in the14C reservoir of a lacustrine system. The model was tested using observed data from Lake Qinghai, the largest inland water body in China. Our inverse modeling using Markov chain Monte Carlo (MCMC) techniques yields best estimates of the δ14C of DIC in river (∼118% modern) and groundwater (∼76% modern), as well as the δ14C of DOC in river water (∼70% modern) during the post-bomb era. Assuming that these parameters remain constant over time, our modeling indicates that both the DIC and DOC pool of this lake have reservoir ages of about 1500 yr for the pre-bomb era, generally consistent with estimates obtained by extrapolation of the age-depth models of 2 sediment cores to the sediment surface.

Published
2007

24. Dating methods applicable to the Quaternary

Author

Kenneth L. Pierce, Barney J. Szabo, John N. Rosholt, Joseph C. Liddicoat, Nancy D. Naeser, Michael N. Machette, Steven L. Forman, Minze Stuiver, Daniel R. Muhs, Steven M. Colman, Charles W. Naeser, and Paul E. Damon

Subjects
Geochemistry, Quaternary, Geology
Published
2015

25. Age model for a continuous, ca 250-ka Quaternary lacustrine record from Bear Lake, Utah–Idaho

Author

Darrell S. Kaufman, Marie Perkins, Steven M. Colman, James L. Bischoff, John P. McGeehin, Joseph G. Rosenbaum, Jordon Bright, Clifford W. Heil, John W. King, Richard M. Forester, and Walter E. Dean

Subjects
Archeology, Global and Planetary Change, Excursion, Geology, law.invention, Data set, Paleontology, law, Interglacial, Paleoclimatology, Radiocarbon dating, Tephrochronology, Quaternary, Ecology, Evolution, Behavior and Systematics, Chronology
Abstract

The Quaternary sediments sampled by continuous 120-m-long drill cores from Bear Lake (Utah-Idaho) comprise one of the longest lacustrine sequences recovered from an extant lake. The cores serve as a good case study for the construction of an age model for sequences that extend beyond the range of radiocarbon dating. From a variety of potential age indicators, we selected a combination of radiocarbon ages, one magnetic excursion (correlated to a standard sequence), and a single Uranium-series age to develop an initial data set. The reliability of the excursion and U-series data require consideration of their position with respect to sediments of inferred interglacial character, but not direct correlation with other paleoclimate records. Data omitted from the age model include amino acid age estimates, which have a large amount of scatter, and tephrochronology correlations, which have relatively large uncertainties. Because the initial data set was restricted to the upper half of the BL00-1 core, we inferred additional ages by direct correlation to the independently dated paleoclimate record from Devils Hole. We developed an age model for the entire core using statistical methods that consider both the uncertainties of the original data and that of the curve-fitting process, with a combination of our initial data set and the climate correlations as control points. This age model represents our best estimate of the chronology of deposition in Bear Lake. Because the age model contains assumptions about the correlation of Bear Lake to other climate records, the model cannot be used to address some paleoclimate questions, such as phase relationships with other areas.

Published
2006

26. Acoustic stratigraphy of Bear Lake, Utah–Idaho—Late Quaternary sedimentation patterns in a simple half-graben

Author

Steven M. Colman

Subjects
geography, geography.geographical_feature_category, Stratigraphy, Geology, Fault (geology), Onlap, Sedimentary depositional environment, Graben, Paleontology, Half-graben, Sedimentary rock, Quaternary, Geomorphology
Abstract

A277-kmnetworkofhigh-resolutionseismic-reflectionprofiles,supplementedwithasidescan-sonarmosaicofthelakefloor,was collected in Bear Lake, Utah–Idaho, in order to explore the sedimentary framework of the lake’s paleoclimate record. The acoustic stratigraphy is tied to a 120 m deep, continuously cored drill hole in the lake. Based on the age model for the drill core, the oldest continuously mapped acoustic reflector in the data set has an age of about 100 ka, although older sediments were locally imaged. The acoustic stratigraphy of the sediments below the lake indicates that the basin developed primarily as a simple half-graben, with a steep normal-fault margin on the east and a flexural margin on the west. As expected for a basin controlled by a listric master fault, seismic reflections steepen and diverge toward the fault, bounding eastward-thickening sediment wedges. Secondary normal faults west of the master fault were imaged beneath the lake and many of these faults show progressively increasing offset with depth and age. Several faults cut the youngest sediments in the lake as well as the modern lake floor. The relative simplicity of the sedimentary sequence is interrupted in the northwestern part of the basin by a unit that is interpreted as a large (410 km) paleodelta of the Bear River. The delta overlies a horizon with an age of about 97 ka, outcrops at the lake floor and is onlapped by much of the uppermost sequence of lake sediments. A feature interpreted as a wave-cut bench occurs in many places on the western side of the lake. The base of this bench occurs at a depth (22–24 m) similar to that (20–25 m) of the distal surface of the paleodelta. Pinch-outs of sedimentary units are common in relatively shallow water on the gentle western margin of the basin and little Holocene sediment has accumulated in water depths of less than 30 m. On the steep eastern margin of the basin, sediments commonly onlap the hanging wall of the East Bear Lake Fault. However, no major erosional or depositional features suggestive of shoreline processes were observed on acoustic profiles in water deeper than about 20–25 m. D 2005 Elsevier B.V. All rights reserved.

Published
2006

27. Unusual Holocene and late Pleistocene carbonate sedimentation in Bear Lake, Utah and Idaho, USA

Author

Richard M. Forester, James L. Bischoff, Walter E. Dean, An Liu, Steven M. Colman, Joseph G. Rosenbaum, Gary L. Skipp, and Kathleen R. Simmons

Subjects
Calcite, Pleistocene, Evaporite, Stratigraphy, Aragonite, Carbonate minerals, Geology, engineering.material, chemistry.chemical_compound, Oceanography, chemistry, Shelf ice, engineering, Glacial period, Holocene
Abstract

Bear Lake (Utah–Idaho, USA) has been producing large quantities of carbonate minerals of varying mineralogy for the past 17,000 years. The history of sedimentation in Bear Lake is documented through the study of isotopic ratios of oxygen, carbon, and strontium, percent organic carbon, percent CaCO3, X-ray diffraction mineralogy, HCl-leach inorganic geochemistry, and magnetic properties on samples from three piston cores. Historically, the Bear River, the main source of water for Great Salt Lake, did not enter Bear Lake until it was artificially diverted into the lake at the beginning of the 20th century. However, during the last glacial interval, the Bear River did enter Bear Lake depositing red, calcareous, silty clay. About 18,000 years ago, the Bear River became disconnected from Bear Lake. A combination of warmer water, increased evaporation, and increased organic productivity triggered the precipitation of calcium carbonate, first as calcite. As the salinity of the lake increased due to evaporation, aragonite began to precipitate about 11,000 years ago. Aragonite is the dominant mineral that accumulated in bottom sediments of the lake during the Holocene, comprising an average of about 70 wt.% of the sediments. Aragonite formation in a large, cold, oligotrophic, high latitude lake is highly unusual. Lacustrine aragonite usually is found in small, saline lakes in which the salinity varies considerably over time. However, Bear Lake contains endemic ostracodes and fish, which indicate that the chemistry of the lake has remained fairly constant for a long time. Stable isotope data from Holocene aragonite show that the salinity of Bear Lake increased throughout the Holocene, but never reached highly evolved values of y 18 O in spite of an evaporation-dominated water balance. Bear Lake hydrology combined with evaporation created an unusual situation that produced large amounts of aragonite, but no evaporite minerals. Published by Elsevier B.V.

Published
2006

28. Seasonal variations of alkenones and UK37 in the Chesapeake Bay water column

Author

Steven M. Colman, Jennifer L. Mercer, and Meixun Zhao

Subjects
Alkenone, geography, geography.geographical_feature_category, Pelagic zone, Estuary, Aquatic Science, Seasonality, Oceanography, medicine.disease, chemistry.chemical_compound, Water column, Nutrient, Nitrate, chemistry, Environmental chemistry, medicine, Surface water
Abstract

Alkenone unsaturation indices (U K 37 and U K′ 37 ) have long been used as proxies for surface water temperature in the open ocean. Recent studies have suggested that in other marine environments, variables other than temperature may affect both the production of alkenones and the values of the indices. Here, we present the results of a reconnaissance field study in which alkenones were extracted from particulate matter filtered from the water column in Chesapeake Bay during 2000 and 2001. A multivariate analysis shows a strong positive correlation between U K 37 (and U K′ 37 ) values and temperature, and a significant negative correlation between U K 37 (and U K′ 37 ) values and nitrate concentrations. However, temperature and nitrate concentrations also co-vary significantly. The temperature vs. U K 37 relationships (U K 37 =0.018 ( T )−0.162, R 2 = 0.84 , U K′ 37 =0.013 ( T )−0.04, R 2 = 0.80 ) have lower slopes than the open-ocean equations of Prahl et al. [1988. Further evaluation of long-chain alkenones as indicators of paleoceanographic conditions. Geochimica et Cosmochimica Acta 52, 2303–2310] and Muller et al. [1998. Calibration of the alkenone paleotemperature index U K′ 37 based on core-tops from the eastern South Atlantic and the global ocean (60°N–60°S). Geochimica et Cosmochimica Acta 62, 1757–1772], but are similar to the relationships found in controlled studies with elevated nutrient levels and higher nitrate:phosphate (N:P) ratios. This implies that high nutrient levels in Chesapeake Bay have either lowered the U K 37 vs. temperature slope, or nutrient levels are the main controller of the U K 37 index. In addition, particularly high abundances (>5% of total C 37 alkenones) of the tetra-unsaturated ketone, C 37:4 , were found when water temperatures reached 25 °C or higher, thus posing further questions about the controls on alkenone production as well as the biochemical roles of alkenones.

Published
2005

29. The History of Recent Limnological Changes and Human Impact on Upper Klamath Lake, Oregon

Author

Richard L. Reynolds, J. Platt Bradbury, and Steven M. Colman

Subjects
geography, Marsh, geography.geographical_feature_category, Limnology, Lake ecosystem, Sediment, Vegetation, Aquatic Science, Oceanography, Land reclamation, Eutrophication, Geology, Earth-Surface Processes, Riparian zone
Abstract

Hypereutrophic Upper Klamath Lake has been studied for almost 50 years to evaluate the nature, cause, and effects of its very productive waters. Mitigation of undesirable effects of massive cyanobacterial blooms requires understanding their modern causes as well as their history. Knowledge of the pre-settlement natural limnology of this system can provide guidelines for lake restoration and management of land and water use strategies to maximize the benefits of this aquatic resource. This investigation uses a paleolimnological approach to document the nature and chronology of limnological and biological changes in Upper Klamath Lake for the past 200 years, covering the time when the lake was first described until today. A 45-cm gravity core, dated by 210 Pb and diatom correlations, was analyzed for diatoms, pollen, akinetes (resting spores) of the cyanobacterium Aphanizomenon flos-aquae, reworked tephra shards, and sediment magnetic characteristics. Pollen profiles show little vegetation change during this time. In contrast, diatoms indicative of increased nutrient fluxes (P and Si) increase moderately, coinciding with the settlement of the region by Euro-Americans. Numerous settlement activities, including draining of lake-margin marshes, upstream agriculture and timber harvest, road construction, and boat traffic, may have affected the lake. Magnetic properties and reworked tephra suggest riparian changes throughout the basin and increased lithogenic sediment delivery to the lake, especially after 1920 when the marshes near the mouth of the Williamson River were drained and converted to agricultural and pasture land. Drainage and channelization also decreased the ability of the marshes to function as traps and filters for upstream water and sediments. Akinetes of Aphanizomenon flos-aquae record progressive eutrophication of Upper Klamath Lake beginning in the 20th century and particularly after 1920 when lake-margin marsh reclamation more than doubled. The coincidence of limnological changes and human activities following European settlement suggests a major impact on the Upper Klamath Lake ecosystem, although ascribing specific limnological changes to specific human activities is difficult.

Published
2004

30. Record of Late Pleistocene Glaciation and Deglaciation in the Southern Cascade Range. I. Petrological Evidence from Lacustrine Sediment in Upper Klamath Lake, Southern Oregon

Author

Josh Rapp, Joseph G. Rosenbaum, Michael W. Kerwin, Steven M. Colman, Richard L. Reynolds, David P. Adam, and J. Platt Bradbury

Subjects
Paleontology, Pleistocene, Heavy mineral, Deglaciation, Detritus (geology), Sediment, Last Glacial Maximum, Glacial period, Aquatic Science, Biogenic silica, Geology, Earth-Surface Processes
Abstract

Petrological and textural properties of lacustrine sediments from Upper Klamath Lake, Oregon, reflect changing input volumes of glacial flour and thus reveal a detailed glacial history for the southern Cascade Range between about 37 and 15 ka. Magnetic properties vary as a result of mixing different amounts of the highly magnetic, glacially generated detritus with less magnetic, more weathered detritus derived from unglaciated parts of the large catchment. Evidence that the magnetic properties record glacial flour input is based mainly on the strong correlation between bulk sediment particle size and parameters that measure the magnetite content and magnetic mineral freshness. High magnetization corresponds to relatively fine particle size and lower magnetization to coarser particle size. This relation is not found in the Buck Lake core in a nearby, unglaciated catchment. Angular silt-sized volcanic rock fragments containing unaltered magnetite dominate the magnetic fraction in the late Pleistocene sediments but are absent in younger, low magnetization sediments. The finer grained, highly magnetic sediments contain high proportions of planktic diatoms indicative of cold, oligotrophic limnic conditions. Sediment with lower magnetite content contains populations of diatoms indicative of warmer, eutrophic limnic conditions. During the latter part of oxygen isotope stage 3 (about 37–25 ka), the magnetic properties record millennial-scale variations in glacial-flour content. The input of glacial flour was uniformly high during the Last Glacial Maximum, between about 21 and 16 ka. At about 16 ka, magnetite input, both absolute and relative to hematite, decreased abruptly, reflecting a rapid decline in glacially derived detritus. The decrease in magnetite transport into the lake preceded declines in pollen from both grass and sagebrush. A more gradual decrease in heavy mineral content over this interval records sediment starvation with the growth of marshes at the margins of the lake and dilution of detrital material by biogenic silica and other organic matter.

Published
2004

31. Limnological and Climatic Environments at Upper Klamath Lake, Oregon during the past 45 000 years

Author

Walter E. Dean, Steven M. Colman, and J. Platt Bradbury

Subjects
biology, Aquatic Science, Biogenic silica, biology.organism_classification, Paleolimnology, law.invention, Diatom, Oceanography, Benthic zone, law, Crater lake, Paleoclimatology, Radiocarbon dating, Tephrochronology, Geology, Earth-Surface Processes
Abstract

Upper Klamath Lake, in south-central Oregon, contains long sediment records with well-preserved diatoms and lithological variations that reflect climate-induced limnological changes. These sediment archives complement and extend high resolution terrestrial records along a north–south transect that includes areas influenced by the Aleutian Low and Subtropical High, which control both marine and continental climates in the western United States. The longest and oldest core collected in this study came from the southwest margin of the lake at Caledonia Marsh, and was dated by radiocarbon and tephrochronology to an age of about 45 ka. Paleolimnological interpretations of this core, based upon geochemical and diatom analyses, have been augmented by data from a short core collected from open water environments at nearby Howards Bay and from a 9-m core extending to 15 ka raised from the center of the northwestern part of Upper Klamath Lake. Pre- and full-glacial intervals of the Caledonia Marsh core are characterized and dominated by lithic detrital material. Planktic diatom taxa characteristic of cold-water habitats (Aulacoseira subarctica and A. islandica) alternate with warm-water planktic diatoms (A. ambigua) between 45 and 23 ka, documenting climate changes at millennial scales during oxygen isotope stage (OIS) 3. The full-glacial interval contains mostly cold-water planktic, benthic, and reworked Pliocene lacustrine diatoms (from the surrounding Yonna Formation) that document shallow water conditions in a cold, windy environment. After 15 ka, diatom productivity increased. Organic carbon and biogenic silica became significant sediment components and diatoms that live in the lake today, indicative of warm, eutrophic water, became prominent. Lake levels fell during the mid-Holocene and marsh environments extended over the core site. This interval is characterized by high levels of organic carbon from emergent aquatic vegetation (Scirpus) and by the Mazama ash (7.55 ka), generated by the eruption that created nearby Crater Lake. For a brief time the ash increased the salinity of Upper Klamath Lake. High concentrations of molybdenum, arsenic, and vanadium indicate that Caledonia Marsh was anoxic from about 7 to 5 ka. After the mid-Holocene, shallow, but open-water environments returned to the core site. The sediments became dominated (>80%) by biogenic silica. The open-water cores show analogous but less extreme limnological and climatic changes more typical of mid-lake environments. Millennial-scale lake and climate changes during OIS 3 at Upper Klamath Lake contrast with a similar record of variation at Owens Lake, about 750 km south. When Upper Klamath Lake experienced cold-climate episodes during OIS 3, Owens Lake had warm but wet episodes; the reverse occurred during warmer intervals at Upper Klamath Lake. Such climatic alternations apparently reflect the variable position and strength of the Aleutian Low during the mid-Wisconsin.

Published
2004

32. Chronology of Sediment Deposition in Upper Klamath Lake, Oregon

Author

John P. McGeehin, Charles W. Holmes, Andrei M. Sarna-Wojcicki, David Edginton, Steven M. Colman, and J. Platt Bradbury

Subjects
Sediment, Aquatic Science, law.invention, Oceanography, law, Paleoclimatology, Physical geography, Radiocarbon dating, Sedimentology, Tephrochronology, Tephra, Geology, Holocene, Earth-Surface Processes, Chronology
Abstract

A combination of tephrochronology and 14 C, 210 Pb, and 137 Cs measurements provides a robust chronology for sedimentation in Upper Klamath Lake during the last 45 000 years. Mixing of surficial sediments and possible mobility of the radio-isotopes limit the usefulness of the 137 Cs and 210 Pb data, but 210 Pb profiles provide reasonable average sediment accumulation rates for the last 100–150 years. Radiocarbon ages near the top of the core are somewhat erratic and are too old, probably as a result of detrital organic carbon, which may have become a more common component in recent times as surrounding marshes were drained. Below the tops of the cores, radiocarbon ages in the center of the basin appear to be about 400 years too old, while those on the margin appear to be accurate, based on comparisons with tephra layers of known age. Taken together, the data can be combined into reasonable age models for each site. Sediments have accumulated at site K1, near the center of the basin, about 2 times faster than at site CM2, on the margin of the lake. The rates are about 0.10 and 0.05 cm/yr, respectively. The chronological data also indicate that accumulation rates were slower during the early to middle Holocene than during the late Holocene, consistent with increasing wetness in the late Holocene.

Published
2004

33. Paleolimnology and Paleoclimate Studies in Upper Klamath Lake, Oregon

Author

Steven M. Colman, Joseph G. Rosenbaum, and J. Platt Bradbury

Subjects
geography, geography.geographical_feature_category, Climate change, Sediment, Aquatic Science, Paleolimnology, Oceanography, Volcano, Paleoclimatology, Radiometric dating, Sedimentology, Transect, Geology, Earth-Surface Processes
Abstract

The subsiding Upper Klamath Lake Basin contains sediments that were continuously deposited in a shallow, freshwater lake for more than 40 000 years. Well dated by radiometric methods and containing volcanic ashes of known age, these sediments constitute a valuable paleoclimate record. Sediment constituents and properties that reflect past climatic conditions in the area include pollen, diatoms, sediment geochemistry, and sediment magnetic properties. Many of these proxy measurements are also useful for comparing natural conditions in the lake to conditions following human settlement. Because of its location, the paleoclimate record from Upper Klamath Lake is valuable for comparisons to offshore marine records and as part of latitudinal transects of paleoclimate records along the west coast of the Americas.

Published
2004

34. Quaternary Sedimentation and Subsidence History of Lake Baikal, Siberia, Based on Seismic Stratigraphy and Coring

Author

C. H. Nelson, Steven M. Colman, and Eugene B. Karabanov

Subjects
Sedimentary depositional environment, Delta, Paleontology, Rift, Geology, Sedimentary rock, Subsidence, Structural basin, Quaternary, Holocene
Abstract

The long, continuous, high-latitude, stratigraphic record of Lake Baikal was deposited in three broad sedimentary environ- ments, defined by high-resolution seismic-reflection and coring meth- ods: (1) turbidite depositional systems, by far the most widespread, characterizing most of the margins and floors of the main basins of the lake, (2) large deltas of major drainages, and (3) tectonically or topographically isolated ridges and banks. Holocene sedimentation rates based on radiocarbon ages vary by more than an order of mag- nitude among these environments, from less than about 0.03 mm/yr on ridges and banks to more than about 0.3 mm/yr on basin floors. Ex- trapolating these rates, with a correction for compaction, yields ten- tative estimates of about 25 and 11 Ma for the inception of rifting in the Central and North basins, respectively, and less than 6 Ma for the 200-m sediment depth on Academician Ridge. The Selenga Delta has the distinctive form of a classic prograding Gilbert-type delta, but its history appears to represent a complex com- bination of tectonism and sedimentation. The central part of the delta is underlain by prograding, shallow-water sequences, now several hun- dred meters below the lake surface. These deposits and much of the delta slope are mantled by fine-grained, deep-water, hemipelagic de- posits whose base is estimated to be about 650,000 years old. Modern coarse-grained sediment bypasses the delta slope through fault-con- trolled canyons that feed large, subaqueous fans at the ends of the South and Central basins. These relations, along with abundant other evidence of recent faulting and the great depths of the Central and South basins, suggest that these two rift basins have experienced a period of unusually rapid subsidence over the last 650,000 years, dur- ing at least part of which sedimentation has failed to keep pace.

Published
2003

35. [Untitled]

Author

J. Curt Stager, John W. King, Peter K. Swart, Geoffrey S. Ellis, Steven M. Colman, and Christopher A. Scholz

Subjects
Paleomagnetism, Last Glacial Maximum, Aquatic Science, Biogenic silica, Paleolimnology, Isotopes of oxygen, law.invention, Paleontology, law, Paleoclimatology, Radiocarbon dating, Glacial period, Geology, Earth-Surface Processes
Abstract

New sediment core data from a unique slow-sedimentation rate site in Lake Tanganyika contain a much longer and continuous record of limnological response to climate change than have been previously observed in equatorial regions of central Africa. The new core site was first located through an extensive seismic reflection survey over the Kavala Island Ridge (KIR), a sedimented basement high that separates the Kigoma and Kalemie Basins in Lake Tanganyika. Proxy analyses of paleoclimate response carried out on core T97-52V include paleomagnetic and index properties, TOC and isotopic analyses of organic carbon, and diatom and biogenic silica analyses. A robust age model based on 11 radiocarbon (AMS) dates indicates a linear, continuous sedimentation rate nearly an order of magnitude slower here compared to other core sites around the lake. This age model indicates continuous sedimentation over the past 79 k yr, and a basal age in excess of 100 k yr. The results of the proxy analyses for the past ~ 20 k yr are comparable to previous studies focused on that interval in Lake Tanganyika, and show that the lake was about 350 m lower than present at the Last Glacial Maximum (LGM). Repetitive peaks in TOC and corresponding drops in δ 13 C over the past 79 k yr indicate periods of high productivity and mixing above the T97-52V core site, probably due to cooler and perhaps windier conditions. From ~ 80 through ~ 58 k yr the δ 13 C values are relatively negative (–26 to –28‰) suggesting predominance of algal contributions to bottom sediments at this site during this time. Following this interval there is a shift to higher values of δ 13 C, indicating a possible shift to C-4 pathway-dominated grassland-type vegetation in the catchment, and indicating cooler, dryer conditions from ~ 55 k yr through the LGM. Two seismic sequence boundaries are observed at shallow stratigraphic levels in the seismic reflection data, and the upper boundary correlates to a major discontinuity near the base of T97-52V. We interpret these discontinuities to reflect major, prolonged drops in lake level below the core site (393 m), with the lower boundary correlating to marine oxygen isotope Stage 6. This suggests that the previous glacial period was considerably cooler and more arid in the equatorial tropics than was the last glacial period.

Published
2003

36. Birth of the modern Chesapeake Bay estuary between 7.4 and 8.2 ka and implications for global sea-level rise

Author

John F. Bratton, Robert R. Seal, E. Robert Thieler, and Steven M. Colman

Subjects
geography, geography.geographical_feature_category, Brackish water, Environmental change, Estuary, Last Glacial Maximum, Environmental Science (miscellaneous), Structural basin, Geotechnical Engineering and Engineering Geology, Oceanography, Earth and Planetary Sciences (miscellaneous), Meltwater, Bay, Geology, Sea level
Abstract

Two major pulses of sea-level rise are thought to have taken place since the last glacial maximum — meltwater pulses (mwp) 1A (12 cal ka) and 1B (9.5 cal ka). Between mwp 1B and about 6 cal ka, many of the complex coastal ecosystems which ring the world’s oceans began to form. Here we report data for rhenium, carbon isotopes, total organic carbon, and fossil oysters from Chesapeake Bay which span the transition from fresh to brackish water conditions in the bay in the mid-Holocene. These data constrain sea-level change and resulting environmental change in the bay. They indicate that the transition was rapid, and that it was produced by (1) a third pulse of rapid eustatic sea-level rise, or (2) a geometry of the prehistoric Chesapeake Bay basin which predisposed it to a nonlinear response to a steadily rising sea level. Similar nonlinear changes in vulnerable coastal environments are likely to take place in the future due to polar warming, regardless of the timing or rate of sea-level rise.

Published
2002

37. Depositional history and neotectonics in Great Salt Lake, Utah, from high-resolution seismic stratigraphy

Author

David A. Dinter, Kerry Kelts, and Steven M. Colman

Subjects
geography, geography.geographical_feature_category, Lithology, Stratigraphy, Sediment, Geology, Structural basin, Neotectonics, Sedimentary depositional environment, Paleontology, Ridge, Tephra, Geomorphology, Holocene
Abstract

High-resolution seismic-reflection data from Great Salt Lake show that the basinal sediment sequence is cut by numerous faults with N–S and NE–SW orientations. This faulting shows evidence of varied timing and relative offsets, but includes at least three events totaling about 12 m following the Bonneville phase of the lake (since about 13.5 ka). Several faults displace the uppermost sediments and the lake floor. Bioherm structures are present above some faults, which suggests that the faults served as conduits for sublacustrine discharge of fresh water. A shallow, fault-controlled ridge between Carrington Island and Promontory Point, underlain by a well-cemented pavement, separates the main lake into two basins. The pavement appears to be early Holocene in age and younger sediments lap onto it. Onlap–offlap relationships, reflection truncations, and morphology of the lake floor indicate a low lake, well below the present level, during the early Holocene, during which most of the basin was probably a playa. This low stand is represented by irregular reflections in seismic profiles from the deepest part of the basin. Other prominent reflectors in the profiles are correlated with lithologic changes in sediment cores related to the end of the Bonneville stage of the lake, a thick mirabilite layer in the northern basin, and the Mazama tephra. Reflections below those penetrated by sediment cores document earlier lacustrine cycles. D 2002 Elsevier Science B.V. All rights reserved.

Published
2002

38. Radiocarbon Dating, Chronologic Framework, and Changes in Accumulation Rates of Holocene Estuarine Sediments from Chesapeake Bay

Author

Peter R. Vogt, John P. McGeehin, Thomas M. Cronin, Steven M. Colman, John F. Bratton, Debra A. Willard, Pattie C. Baucom, and Andrew R. Zimmerman

Subjects
Total organic carbon, 010506 paleontology, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, biology, Sediment, Estuary, biology.organism_classification, 01 natural sciences, law.invention, Foraminifera, Oceanography, Arts and Humanities (miscellaneous), law, General Earth and Planetary Sciences, Radiocarbon dating, Sediment transport, Bay, Geology, Holocene, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

Rapidly accumulating Holocene sediments in estuaries commonly are difficult to sample and date. In Chesapeake Bay, we obtained sediment cores as much as 20 m in length and used numerous radiocarbon ages measured by accelerator mass spectrometry methods to provide the first detailed chronologies of Holocene sediment accumulation in the bay. Carbon in these sediments is a complex mixture of materials from a variety of sources. Analyses of different components of the sediments show that total organic carbon ages are largely unreliable, because much of the carbon (including coal) has been transported to the bay from upstream sources and is older than sediments in which it was deposited. Mollusk shells (clams, oysters) and foraminifera appear to give reliable results, although reworking and burrowing are potential problems. Analyses of museum specimens collected alive before atmospheric nuclear testing suggest that the standard reservoir correction for marine samples is appropriate for middle to lower Chesapeake Bay. The biogenic carbonate radiocarbon ages are compatible with 210Pb and 137Cs data and pollen stratigraphy from the same sites.Post-settlement changes in sediment transport and accumulation is an important environmental issue in many estuaries, including the Chesapeake. Our data show that large variations in sediment mass accumulation rates occur among sites. At shallow water sites, local factors seem to control changes in accumulation rates with time. Our two relatively deep-water sites in the axial channel of the bay have different long-term average accumulation rates, but the history of sediment accumulation at these sites appears to reflect overall conditions in the bay. Mass accumulation rates at the two deep-water sites rapidly increased by about fourfold coincident with widespread land clearance for agriculture in the Chesapeake watershed.

Published
2002

39. Holocene and recent sediment accumulation rates in Southern Lake Michigan

Author

Glenn A. Jones, Steven M. Colman, John W. King, Richard L. Reynolds, and Michael H. Bothner

Subjects
Archeology, Global and Planetary Change, Macrofossil, Sediment, Geology, Structural basin, Coastal erosion, law.invention, Oceanography, Shelf ice, law, Period (geology), Radiocarbon dating, Ecology, Evolution, Behavior and Systematics, Holocene
Abstract

Rates of sediment accumulation in Lake Michigan are a key component of its geologic history and provide important data related to societal concerns such as shoreline erosion and the fate of anthropogenic pollutants. Previous attempts to reconstruct Holocene rates of sediment accumulation in Lake Michigan, as well as in the other Laurentian Great Lakes, have been bedeviled by the effect of refractory terrestrial material on radiocarbon ages from total organic carbon samples of lake sediments. AMS radiocarbon ages on small samples of biogenic carbonate (ostracodes and mollusks) in Lake Michigan provide accurate Holocene ages. The present bicarbonate reservoir effect is estimated from shells of mollusks collected live before atmospheric nuclear testing to be 250 yr. From paired samples of biogenic carbonate and terrestrial macrofossils, the past reservoir effect is thought to be less than 500 yr. The radiocarbon ages indicate a distinct decrease in sediment accumulation rates throughout the southern basin of Lake Michigan at about 5 ka, about the time when lake level stabilized at the Nipissing level after rising rapidly for several thousand years. Average rates of sediment accumulation for the historic period (the last 150 yr) can be estimated from radioisotopes ( 210 Pb and 137 Cs ), pollen stratigraphy, and changes in sediment properties associated with human activity. Multiple methods are necessary because at any given site, problems arise in the assumptions or applicability of one or more methods. In general, the mass accumulation calculations suggest that sediments were deposited 4 to 11 times faster in the historic period than before human settlement. The character of the sediment did not change in a dramatic way, but sediment magnetic properties suggest shifts in the sources of sediment. The data suggest that some of the changes in sources and (or) character of the sediment occurred just before human settlement and were probably related to climatic changes associated with the Little Ice Age.

Published
2000

40. Post-Mazama (7 KA) Faulting Beneath Upper Klamath Lake, Oregon

Author

Joseph G. Rosenbaum, Steven M. Colman, Richard L. Reynolds, and Andrei M. Sarna-Wojcicki

Subjects
Horizon (geology), geography, Paleontology, Geophysics, geography.geographical_feature_category, Geochemistry and Petrology, Lake basin, Fault (geology), Tephra, Geomorphology, Coring, Geology, Deposition (geology)
Abstract

High-resolution seismic-reflection profiles (3.5 kHz) show that a distinctive, widespread reflection occurs in the sediments beneath Upper Klamath Lake, Oregon. Coring reveals that this reflection is formed by Mazama tephra (MT), about 7 ka in age. The MT horizon is faulted in many places and locally displaced by as much as 3.1 m. Differential displacement of multiple horizons indicates recurrent fault movement, perhaps three episodes since deposition of the Mazama. The pattern of faulting indicates northeast–southwest extension beneath the lake basin.

Published
2000

41. Linking the10Be continental record of Lake Baikal to marine and ice archives of the last 50 ka: Implication for the global dust-aerosol input

Author

John W. King, G. Possnert, Steven M. Colman, Ala Aldahan, and J. Peck

Subjects
Geophysics, Oceanography, Interglacial, Phanerozoic, General Earth and Planetary Sciences, Glacial period, Physical geography, Stadial, Precipitation, Quaternary, Cenozoic, Holocene, Geology
Abstract

We present here a 10Be profile from the continental sediments of Lake Baikal (the world's largest fresh water lake), which, for the first time, shows the ≈ 40 ka 10Be enhancement and a pattern that strongly matches those from the marine and ice records for the last 50 ka. This finding provides a new horizon for global and regional correlation of continental archives. Additionally, our VADM-predicted 10Be production confirms and further strengthens a common global cause (geomagnetic field intensity) for the change in atmospheric 10Be over the last 50 ka. We also show that most of the 10Be inventory to the lake has been provided by riverine input, but with a significant addition from direct precipitation and dust-aerosol fallout. We estimate a higher dust-aerosol contribution of 10Be during the Holocene and interstadial stage 3 (22–50 ka) as compared with the glacial period (12–22 ka).

Published
1999

42. [Untitled]

Author

Eugene B. Karabanov, Steven M. Colman, John W. King, John A. Peck, and Josephine Hatton

Subjects
Delta, biology, Last Glacial Maximum, Aquatic Science, Biogenic silica, biology.organism_classification, Paleontology, Diatom, Interglacial, Younger Dryas, Glacial period, Geology, Holocene, Earth-Surface Processes
Abstract

Biogenic silica contents of sediments on the lower Selenga Delta and Buguldeika saddle in Lake Baikal show distinct fluctuations that reflect changes in diatom productivity, and ultimately, climate. The pattern of the upper 50 m of the section, dating from about 334 ka, is similar to that of the marine oxygen-isotope record, increasingly so as the younger sediments become progressively finer grained and less locally derived with time. The last two interglaciations are marked by biogenic silica abundances similar to those of the Holocene. The equivalent of marine oxygen-isotope stage 3 is distinctly intermediate in character between full glacial and full interglacial biogenic silica values. Following near-zero values during the last glacial maximum, biogenic silica began to increase at about 13 ka. The rise in biogenic silica to Holocene values was interrupted by an abrupt decrease during Younger Dryas time, about 11 to 10 14C ka.

Published
1999

43. Evidence from Lake Baikal for Siberian Glaciation during Oxygen-Isotope Substage 5d

Author

Alexander A. Prokopenko, Eugene B. Karabanov, Steven M. Colman, and Douglas F. Williams

Subjects
010506 paleontology, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Pleistocene, 01 natural sciences, Huronian glaciation, Arts and Humanities (miscellaneous), Marinoan glaciation, Climatology, Interglacial, Wisconsin glaciation, General Earth and Planetary Sciences, Glacial period, Physical geography, Bull Lake glaciation, Ice sheet, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

The paleoclimatic record from bottom sediments of Lake Baikal (eastern Siberia) reveals new evidence for an abrupt and intense glaciation during the initial part of the last interglacial period (isotope substage 5d). This glaciation lasted about 12,000 yr from 117,000 to 105,000 yr B.P. according to correlation with the SPECMAP isotope chronology. Lithological and biogeochemical evidence of glaciation from Lake Baikal agrees with evidence for the advance of ice sheet in northwestern Siberia during this time period and also with cryogenic features within the strata of Kazantzevo soils in Southern Siberia. The severe 5d glaciation in Siberia was caused by dramatic cooling due to the decrease in solar insolation (as predicted by the model of insolation changes for northern Asia according to Milankovich theory) coupled with western atmospheric transport of moisture from the open areas of Northern Atlantic and Arctic seas (which became ice-free due to the intense warming during preceeding isotope substage 5e). Other marine and continental records show evidence for cooling during 5d, but not for intense glaciation. Late Pleistocene glaciations in the Northern Hemisphere may have begun in northwestern Siberia.

Published
1998

44. Lignin phenols in sediments of Lake Baikal, Siberia: application to paleoenvironmental studies

Author

William H. Orem, Harry E. Lerch, and Steven M. Colman

Subjects
Sedimentary depositional environment, Paleontology, Pleistocene, Geochemistry and Petrology, Interglacial, Geochemistry, Glacial period, Stadial, Biogenic silica, Quaternary, Geology, Holocene
Abstract

Sediments from three cores obtained from distinct depositional environments in Lake Baikal, Siberia were analyzed for organic carbon, total nitrogen and lignin phenol concentration and composition. Results were used to examine changes in paleoenvironmental conditions during climatic cycles of the late Quaternary ( C N ratios and organic carbon accumulation rates were significantly higher in the Holocene compared with the late Pleistocene, reflecting overall warmer temperatures and increased runoff during the Holocene. A Holocene maximum in organic carbon was observed at about 6 ka, and may represent the warmest/wettest period of the Holocene. At one site (Academician Ridge) pronounced late Pleistocene maxima in organic carbon and biogenic silica were observed at about 80–85 ka, probably indicative of an interstadial period with enhanced aquatic productivity. Total sedimentary lignin phenol contents were generally lower in the late Pleistocene compared to the Holocene, but with several peaks in concentration during the late Pleistocene. These late Pleistocene peaks in total sedimentary lignin content (dated at about 80, 50 and 30 ka) directly precede or occur during peaks in sedimentary biogenic silica contents. These periods likely represent relatively warm interstadial times, with increased precipitation producing the observed increase in terrestrial runoff and aquatic productivity. Lignin phenol ratios ( S V , C V and P V ) were used to examine changes in terrestrial vegetation type resulting from changes in paleoenvironmental conditions during the late Pleistocene. A degree of caution must be used in the interpretation of these ratios with regard to vegetation sources and paleoenvironmental conditions, because of potential compositional changes in lignin resulting from biodegradation. Nevertheless, results show that long glacial periods were characterized by terrestrial vegetation composed of a mix of non-woody angiosperm vegetation and minor gymnosperm forest. Shorter interstadial periods are defined by a change to dominant gymnosperm forest and were observed at about 80, 75, 63, 50 and 30 ka, ranging from about 2–6 kyr in duration. These interstadial periods of the late Pleistocene defined by lignin phenol ratios generally occur during longer periods of enhanced sedimentary biogenic silica content (about 10–15 ka in duration), providing corroborative evidence of these warm interstadial periods.

Published
1997

45. Reply to the Comment by R. Anderson on 'Uranium-series disequilibrium, sedimentation, diatom frustules, and paleoclimate change in Lake Baikal'

Author

John A. Robbins, David N. Edgington, Liba Granina, M.-P. Gustin, Steven M. Colman, J. V. Klump, and K.A. Orlandini

Subjects
Series (stratigraphy), biology, Disequilibrium, chemistry.chemical_element, Sedimentation, Uranium, biology.organism_classification, Geophysics, Diatom, Oceanography, chemistry, Space and Planetary Science, Geochemistry and Petrology, Paleoclimatology, Earth and Planetary Sciences (miscellaneous), medicine, medicine.symptom, Geology
Published
1997

46. [Untitled]

Author

T.C. Moore, Eugene F. Stoermer, Matthew L. Julius, and Steven M. Colman

Subjects
biology, δ18O, media_common.quotation_subject, Sediment, Ecological succession, Aquatic Science, biology.organism_classification, Paleolimnology, Paleontology, Speciation, Diatom, Abundance (ecology), Sedimentology, Geology, Earth-Surface Processes, media_common
Abstract

Siliceous microfossil assemblage succession was analyzed in a 100 m sediment core from Lake Baikal, Siberia. The core was recovered from the lake's central basin at a water depth of 365 m. Microfossil abundance varied greatly within the intervals sampled, ranging from samples devoid of siliceous microfossils to samples with up to 3.49 × 1011 microfossils g-1 sediment. Fluctuations in abundance appear to reflect trends in the marine δ18O record, with peak microfossil levels generally representing climate optima. Microfossil taxa present in sampled intervals changed considerably with core depth. Within each sample a small number of endemic diatom species dominated the assemblage. Changes in dominant endemic taxa between sampled intervals ranged from extirpation of some taxa, to shifts in quantitative abundance. Differences in microfossil composition and the association of variations in abundance with climate fluctuations suggest rapid speciation in response to major climatic excursions.

Published
1997

47. Introduction to Quaternary Geochronology

Author

Kenneth L. Pierce, Janet M. Sowers, Steven M. Colman, and Jay Stratton Noller

Subjects
Geochronometry, Geochronology, Geochemistry, Petrology, Quaternary, Geology
Published
2013

48. Uranium-series disequilibrium, sedimentation, diatom frustules, and paleoclimate change in Lake Baikal

Author

Steven M. Colman, M.-P. Gustin, David N. Edgington, K.A. Orlandini, and John A. Robbins

Subjects
biology, δ18O, Geochemistry, chemistry.chemical_element, Secular equilibrium, Biogenic silica, Uranium, biology.organism_classification, Geophysics, Uranium-238, Diatom, Oceanography, chemistry, Space and Planetary Science, Geochemistry and Petrology, Uranium-234, Earth and Planetary Sciences (miscellaneous), Glacial period, Geology
Abstract

The large volume of water, approximately one-fifth of the total surface fresh water on the planet, contained in Lake Baikal in southeastern Siberia is distinguished by having a relatively high concentration of uranium (ca. 2 nM), and, together with the surface sediments, an unusually high234U238U alpha activity ratio of 1.95. About 80% of the input of uranium to the lake, with a234U238U ratio of 2.0, comes from the Selenga River. Profiles of uranium, as well as the extent of isotopic disequilibrium in a 9 m sediment core collected on Academic Ridge, generally show high values during interglacial periods corresponding to high diatom frustule numbers (DiFr) and biogenic silica (BSi) data that have been reported elsewhere. During glacial periods (low DiFr and BSi), uranium progeny (234U and230Th) were in secular equilibrium with low concentrations of their parent238U. Radionuclide distributions were interpreted in terms of a quantitative model allowing for adsorption of riverine inputs of uranium onto two classes of sedimenting particles with differing238U232Th ratios and uranium progeny in secular equilibrium. If the234U238U activity ratio of adsorbed uranium has remained constant, mean sedimentation rates can be independently estimated as 3.6 ± 0.6 and 3.7 ± 0.9 cm · kyr−1 for the decay of234U and in-growth of230Th, respectively. These rates are consistent with a mean rate of 3.76 cm · kyr−1, calculated by optimization of the correspondence between adsorbed238U and δ18O in dated oceanic sediments. The adsorbed uranium apparently tracks variable river flow during interglacials and is drastically reduced during periods of glaciation. Evidently, uranium has not been significantly redistributed within Baikal sediments over at least the past 250 kyr and is a unique, biologically non-essential, tracer for climate-sensitive processes, which provide their own internal geochronometers, potentially useful for ages up to 1 Myr BP.

Published
1996

49. An 84-kyr paleomagnetic record from the sediments of Lake Baikal, Siberia

Author

John W. King, Vadim A. Kravchinsky, John A. Peck, and Steven M. Colman

Subjects
Magnetic declination, Atmospheric Science, Paleomagnetism, Ecology, Pleistocene, Paleontology, Soil Science, Forestry, Aquatic Science, Oceanography, Secular variation, Geophysics, Earth's magnetic field, Space and Planetary Science, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Geomagnetic excursion, Chronostratigraphy, Geology, Magnetostratigraphy, Earth-Surface Processes, Water Science and Technology
Abstract

We have conducted a paleomagnetic study of sediment cores obtained from the Selenga prodelta region of Lake Baikal, Russia. This record, which spans approximately the last 84 kyr, contributes to a better understanding of the nature of geomagnetic field behavior in Siberia and is a useful correlation and dating tool. We demonstrate that the Lake Baikal sediments are recording variations in the geomagnetic field. The directional record displays secular variation behavior with a geomagnetic excursion at 20 ka and additional excursions appearing as large-amplitude secular variation at 41, 61, and 67 ka. Smoothing of the geomagnetic excursion behavior occurs in Lake Baikal sediments owing to the intermediate sedimentation rate (13 cm kyr−1). The Lake Baikal relative paleointensity record correlates to absolute paleointensity data for the last 10 kyr and to relative paleointensity records from the Mediterranean Sea and Indian Ocean for the last 84 kyr. This correlation suggests a strong global (i.e., dipole) component to these records and further supports the reliability of sediments as recorders of relative geomagnetic paleointensity. We show that a relative geomagnetic intensity stratigraphy has a potential resolution of 7 kyr by correlating continental and marine records. The geomagnetic intensity stratigraphy helps constrain the age of the difficult to date Lake Baikal sediments.

Published
1996

50. AMS radiocarbon analyses from Lake Baikal, Siberia: Challanges of dating sediments from a large, oligotrophic lake

Author

John W. King, William H. Orem, Glenn A. Jones, Steven M. Colman, Meyer Rubin, and John A. Peck

Subjects
Total organic carbon, Archeology, Global and Planetary Change, Pleistocene, Terrigenous sediment, Geochemistry, Geology, Authigenic, Biogenic silica, law.invention, Sedimentary depositional environment, Paleontology, law, Radiocarbon dating, Ecology, Evolution, Behavior and Systematics, Holocene
Abstract

A suite of 146 new accelerator-mass spectrometer (AMS) radiocarbon ages provides the first reliable chronology for late Quaternary sediments in Lake Baikal. In this large, highly oligotrophic lake, biogenic and authigenic carbonate are absent, and plant macrofossils are extremely rare. Total organic carbon is therefore the primary material available for dating. Several problems are associated with the TOC ages. One is the mixture of carbon sources in TOC, not all of which are syndepositional in age. This problem manifests itself in apparent ages for the sediment surface that are greater than zero. However, because most of the organic carbon in Lake Baikal sediments is algal (autochthonous) in origin, this effect is limited to about 1000±500 years, which can be corrected, at least for young deposits. The other major problem with dating Lake Baikal sediments is the very low carbon contents of glacial-age deposits, which makes them extremely susceptible to contamination with modern carbon. This problem can be minimized by careful sampling and handling procedures. The ages show almost an order of magnitude difference in sediment-accumulation rates among different sedimentary environments in Lake Baikal, from about 0.04 mm/year on isolated banks such as Academician Ridge, to nearly 0.3 mm/year in the turbidite depositional areas beneath the deep basin floors, such as the Central Basin. The new AMS ages clearly indicate that the dramatic increase in diatom productivity in the lake, as evidenced by increases in biogenic silica and organic carbon, began about 13 ka, in contrast to previous estimates of 7 ka for the age of this transition. Holocene net sedimentation rates may be less than, equal to, or greater than those in the late Pleistocene, depending on the site. This variability reflects the balance between variable terrigenous sedimentation and increased biogenic sedimentation during interglaciations. The ages reported here, and the temporal and spatial variation in sedimentation rates that they imply, provide opportunities for paleoenvironmental reconstructions at different time scales and resolutions.

Published
1996

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