Your search keyword '"Kathleen M. Rühland"' showing total 16 results

1. Concurrent mid-Holocene East Asian temperature and summer monsoon maxima forced by high- and low-latitude interplay

Author

Xiaosen Zhang, Jianbao Liu, Kathleen M. Rühland, Xin Jia, Jane M. Reed, Yanling Li, Zhongwei Shen, Jiaju Zhao, Jie Chen, Haipeng Wang, Xin Wang, John P. Smol, and Fahu Chen

Subjects

Global and Planetary Change, Oceanography

Published

2023

2. Human deforestation outweighed climate as factors affecting Yellow River floods and erosion on the Chinese Loess Plateau since the 10th century

Author

Xinwei Yan, Jianbao Liu, Kathleen M. Rühland, Haoran Dong, Jinna He, and John P. Smol

Subjects

Archeology, Global and Planetary Change, Geology, Ecology, Evolution, Behavior and Systematics

Published

2022

3. Responses of lake diatoms to rapid 21st century warming on the southeastern Tibetan Plateau

Author

Jinna He, Jianbao Liu, Kathleen M. Rühland, Jifeng Zhang, Zhitong Chen, Haoran Dong, and John P. Smol

Subjects

Global and Planetary Change, Ecology, Earth and Planetary Sciences (miscellaneous)

Published

2022

4. Diatom responses to 20th century shoreline development and climate warming in three embayments of Georgian Bay, Lake Huron

Author

John P. Smol, Kathleen M. Rühland, Tammy L. Karst-Riddoch, Dörte Köster, Andrew M. Paterson, and Branaavan Sivarajah

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Ecology, biology, 010604 marine biology & hydrobiology, Aquatic ecosystem, Global warming, 15. Life on land, Aquatic Science, Plankton, biology.organism_classification, 01 natural sciences, Macrophyte, Geography, Diatom, Oceanography, Habitat, 13. Climate action, Benthic zone, 14. Life underwater, Bay, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences

Abstract

We used high-resolution diatom-based paleolimnological techniques to assess the effects of shoreline development and recent climate warming on three large embayments of Georgian Bay, Lake Huron (two impacted and one minimally impacted by shoreline development). The sedimentary diatom assemblages recorded subtle shifts at the impacted sites (North and South Bays) as a result of the establishment of permanent settlements and recreational resorts around the turn of the 20th century. No turn-of-the-century changes were observed at the reference site (Tadenac Bay). The abrupt increase in epiphytic Cocconeis placentula and benthic fragilarioid taxa during the ~1950s at the shallower impact site (South Bay) was likely due to increased habitat provided by macrophytes. The increase in relative abundances of pennate (Asterionella formosa and Fragilaria crotonensis) and/or small centric (Cyclotella ocellata, C. comensis, and C. gordonensis) planktonic diatoms across the three sites after the 1970s suggests that recent warming-mediated changes to thermal properties (and related effects) are driving biological changes in these embayments. These recent diatom compositional changes are consistent with similar trends reported across Ontario and the Laurentian Great Lakes, where warming and its effects on aquatic ecosystem processes often favor small-celled centric diatoms. Differences in the timing and nature of diatom responses to similar environmental stressors across the three embayments highlight the importance of understanding site-specific characteristics when interpreting changes in diatom assemblages in paleolimnological records from the Laurentian Great Lakes.

Published

2018

5. Biogeochemical responses to climate change and anthropogenic nitrogen deposition from a ∼200-year record from Tianchi Lake, Chinese Loess Plateau

Author

Jianbao Liu, Zhiping Zhang, Kathleen M. Rühland, Guangjie Chen, Aifeng Zhou, John P. Smol, Fahu Chen, Jianhui Chen, Jie Chen, and Chengling Xie

Subjects

010506 paleontology, Biogeochemical cycle, 010504 meteorology & atmospheric sciences, Reactive nitrogen, Global warming, Lake ecosystem, Biogeochemistry, Climate change, 01 natural sciences, Environmental science, Ecosystem, Physical geography, Nitrogen cycle, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Human activities over the last ∼100 years have fundamentally changed the biogeochemistry of the global nitrogen cycle. For example, increased nitrogen deposition from industrial and agricultural sources has been linked to lake acidification and nutrient fertilization, and thus it has the potential to significantly influence lake ecosystems. Records of anthropogenic nitrogen deposition from alpine lakes are sparse in China, which limits our understanding of its effects on remote alpine lake ecosystems. In this study, we analyzed multiple geochemical proxies at Tianchi Lake (2430 m a.s.l.), which is part of the Liupan Mountains National Nature Reserve in the central Chinese Loess Plateau (CLP). We measured total nitrogen (TN) concentrations, C/N ratios and nitrogen stable isotope ratios (δ15N), as well as a biological proxy (spectrally-inferred chlorophyll a), from a well-dated sediment core spanning the past ∼200 years. Our aim was to examine anthropogenic nitrogen deposition to the lake and to assess its implications for lake primary production. We found that δ15N was stable prior to ∼1980, but it decreased significantly thereafter. This is consistent with documented changes in anthropogenic nitrogen deposition over the past ∼200 years, and it indicates that the δ15N record of Tianchi Lake likely reflects anthropogenic nitrogen deposition, at least in this region. Prior to ∼1980, the trend in primary production of Tianchi Lake agrees with the trend of reconstructed regional temperature, when reactive nitrogen emissions in China were very low. This suggests that temperature was likely the main factor driving lake primary production before ∼1980. Primary production has increased significantly since ∼1980, consistent with the continued rising temperature and with enhanced nitrogen deposition, indicating that both factors are simultaneous drivers. Although the current data for Tianchi Lake are insufficient to unequivocally determine which of the two stressors is more important after the 1980s, temperature likely played the more significant role in driving primary production. This is because the lake is phosphorus-limited today, and in addition there is a strong association between temperature and chlorophyll a over the past ∼200 years. Continuing global warming and increasing nitrogen deposition in the future will likely further affect the fragile alpine ecosystems in the region.

Published

2018

6. The post-glacial history of northern Lake of the Woods: A multi-proxy perspective on climate variability and lake ontogeny

Author

John P. Smol, Kelly Rentz, Andrew M. Paterson, Kathleen M. Rühland, and James T. Teller

Subjects

0106 biological sciences, 010506 paleontology, Ecology, 010604 marine biology & hydrobiology, Context (language use), Post-glacial rebound, 15. Life on land, Aquatic Science, 01 natural sciences, Algal bloom, Paleolimnology, Water column, Oceanography, 13. Climate action, Environmental science, Glacial period, Glacial lake, Ecology, Evolution, Behavior and Systematics, Holocene, 0105 earth and related environmental sciences

Abstract

Lake of the Woods (LOW) is a large, morphologically and hydrologically complex lake of international importance, located in the provinces of Ontario and Manitoba and the state of Minnesota. A high-resolution sedimentary sequence retrieved near Kenora, Ontario, and spanning at least the past ~11,000 cal yr BP (calibrated years before present), was analysed for multiple environmental proxies with an emphasis on diatom assemblage composition and spectrally-inferred chlorophyll a. These biological proxies indicate that northern LOW was relatively nutrient-rich soon after its isolation from glacial Lake Agassiz ~10,000 cal yr BP. The post-glacial hydrological and environmental history of LOW was found to be controlled by both climate and isostatic rebound. During the low water phase of the mid-Holocene dry and warm period, abrupt and synchronous shifts across all proxies suggest that the northern basin had a relatively deep and well-mixed water column that experienced increases in nutrients and whole-lake algal production. This differs from recent limnological changes associated with warming since the late-1970s, where primary production increased concurrently with large shifts in diatoms indicative of increased thermal stability, but with little change in nutrients. The millennial-scale context of this study provides evidence that climate has long played an important role in algal dynamics in LOW, with implications for lake management strategies concerning recent increases in nuisance algal blooms on LOW.

Published

2018

7. Metal contamination in alkaline Phantom Lake (Flin Flon, Manitoba, Canada) generates strong responses in multiple paleolimnological proxies

Author

Brigitte Simmatis, Kathleen M. Rühland, Marlene Evans, Carsten Meyer-Jacob, Jane Kirk, Derek C.G. Muir, and John P. Smol

Subjects

0106 biological sciences, Canada, Geologic Sediments, Environmental Engineering, Chlorophyll A, 010604 marine biology & hydrobiology, Manitoba, 010501 environmental sciences, 01 natural sciences, Pollution, Lakes, Environmental Chemistry, Waste Management and Disposal, Ecosystem, Water Pollutants, Chemical, Environmental Monitoring, 0105 earth and related environmental sciences

Abstract

The copper-zinc smelter at Flin Flon (Manitoba) operated between 1930 and 2010 and emitted large amounts of metal(loid)s and sulphur dioxide into the atmosphere, damaging the surrounding terrestrial landscapes and depositing airborne industrial pollutants into aquatic ecosystems. However, the extent of biological impairment in regional lakes is largely unknown. Here, we analysed biological and geochemical proxies preserved in a dated sediment core from Phantom Lake, collected seven years after the smelter closed in 2010. Our objectives were to determine how smelting history affected long-term trends in (1) sedimentary elements, (2) biota across multiple trophic levels, and (3) spectrally-inferred chlorophyll a and lake-water total organic carbon. The effects of smelting activities were clearest in the diatom record, in concordance with modest responses in chironomid and cladoceran assemblages. Several metal(loid)s were naturally high and exceeded sediment quality guidelines during the pre-smelting era. With the opening of the smelter, metal(loid) concentrations in sediments increased through the 1930s, peaked in the 1960s, and declined thereafter with technological improvements but remained above background to this day. Although modest declines in inferred lake-water total organic carbon indicate reduced terrestrial carbon supply following sulphate deposition in the catchment, the diatom record showed no evidence of acidification as the lake was and remained well-buffered. Pre-smelting diatom and invertebrate assemblages were diverse and indicated oligo-mesotrophic conditions. Smelting was associated with the loss of metal-sensitive biological indicators and the emergence of assemblages dominated by metal-tolerant, generalist taxa. Diatoms tracked substantial reductions in aerial emissions since the 1990s, particularly after the smelter closed, but also indicated that the biological effects of metal pollution persist in Phantom Lake. Examining the effects of a base metal smelter on a well-buffered lake offered insights into multi-trophic level responses to severe metal contamination and potential recovery without the confounding effects of concurrent changes in lake acidity.

Published

2022

8. Aquatic ecosystem responses to environmental and climatic changes in NE China since the last deglaciation (∼17, 500 cal yr BP) tracked by diatom assemblages from Lake Moon

Author

Aifeng Zhou, Xiaosen Zhang, Zhiping Zhang, Jianbao Liu, Jie Chen, Kathleen M. Rühland, Fahu Chen, John P. Smol, and Zhongwei Shen

Subjects

Archeology, Global and Planetary Change, biology, Lake ecosystem, Climate change, Geology, biology.organism_classification, Paleolimnology, Oceanography, Diatom, Crater lake, Deglaciation, Environmental science, Glacial period, Younger Dryas, Ecology, Evolution, Behavior and Systematics

Abstract

The scarcity of research in NE China on lake ecosystem responses to large-scale climate oscillations since the last deglaciation limits our abilities for informing conservation practices and policies in the context of recent global warming. Here, a high-resolution, sedimentary diatom record covering the past ∼17,500 years was retrieved from Lake Moon, a small, hydrologically closed crater lake in the remote central part of the Great Khingan Mountain Range in NE China. We compare diatom changes with geochemical data from the same core, and with regional palynological and dust deposition records, to better understand the influences of long-term environmental and climatic variability on aquatic ecosystems in this climatically sensitive region. Several abrupt and pronounced shifts in dominance among diatom taxa corresponded to marked fluctuations in the climate regime since the last deglaciation. During the close of the Last Glacial Period, a series of short-lived diatom shifts that were indicative of an increase in nutrients, signaled the transition from the cold period of the Heinrich event 1 (∼17,500–∼14,700 cal yr BP) to the warmer Bolling - Allerod interstadial period (∼14,700–∼12,900 cal yr BP). The onset of the cold Younger Dryas period was marked by a brief rise to dominance of benthic taxa (∼12,900–∼11,800 cal yr BP), followed by a pronounced lake ecosystem shift to a new trophic state at the Pleistocene-Holocene transition (∼11,800–∼9900 cal yr BP), evidenced by an abrupt rise to dominance of several eutrophic diatom indicators (e.g. Cyclostephanos dubius, Aulacoseira ambigua and Stephanodiscus parvus). This nearly complete compositional turnover was indicative of an increase in phosphorus supply to the lake with the onset of a warmer and moister climate and an increased frequency of strong dust storms. During the mid-Holocene (∼6000 cal yr BP), a striking increase in the relative abundance of Discostella pseudostelligera and Asterionella formosa, at the expense of previously dominant eutrophic indicators, signified another lake ecosystem change from well-mixed, turbid and phosphorus-rich conditions to a lower nutrient state with longer open-water periods and increased thermal stability. The turnover to oligotrophic diatom taxa was likely in response to variations in seasonal temperature, precipitation and dust deposition. The diatom shifts of Lake Moon during the past ∼17,500 years were directly or indirectly mediated by climate change that affected thermal stratification, productivity, lake level and trophic state. Our results indicate that climate change had an overarching control on aquatic ecosystem changes in the mountain regions of NE China since the last deglaciation.

Published

2021

9. Assessment of multi-trophic changes in a shallow boreal lake simultaneously exposed to climate change and aerial deposition of contaminants from the Athabasca Oil Sands Region, Canada

Author

Jamie C. Summers, Kathleen M. Rühland, John P. Smol, Joshua Kurek, and Erin E Neville

Subjects

0106 biological sciences, Canada, Geologic Sediments, Environmental Engineering, Climate Change, Climate change, 010501 environmental sciences, 01 natural sciences, Chironomidae, Deposition (geology), Alberta, Environmental monitoring, Animals, Environmental Chemistry, Oil and Gas Fields, 14. Life underwater, Waste Management and Disposal, 0105 earth and related environmental sciences, Trophic level, Diatoms, Ecology, 010604 marine biology & hydrobiology, Aquatic ecosystem, Cladocera, Biota, Pollution, Lakes, Oceanography, Boreal, 13. Climate action, Oil sands, Bioindicator, Water Pollutants, Chemical, Geology, Environmental Monitoring

Abstract

The Athabasca Oil Sands Region (AOSR) has been intensely developed for industrial bitumen extraction and upgrading since the 1980s. A paucity of environmental monitoring prior to development raises questions about baseline conditions in freshwater systems in the region and ecological responses to industrial activities. Further, climatic changes prompt questions about the relative roles of climate and industry in shaping aquatic ecosystems through time. We use aquatic bioindicators from multiple trophic levels, concentrations of petrogenic contaminants (dibenzothiophenes), and spectrally-inferred chlorophyll-a preserved in well-dated sediments of a closed-basin, shallow lake ~50km away from the main area of industry, in conjunction with climate observations, to assess how the biotic assemblages of a typical AOSR lake have changed during the past ~75years. We examine the contributions of the area's stressors in structuring aquatic communities. Increases in sedimentary measures of petrogenic contaminants provide clear evidence of aerial contaminant deposition from local industry since its establishment, while climate records demonstrate consistent warming and a recent period of reduced precipitation. Quantitative comparisons of biological assemblages from before and after the establishment of regional industry find significant (p0.05) differences; however, the magnitude and overall timing of the changes are not consistent with a threshold-type shift in response to the onset of regional industry. Rather, biotic assemblages from multiple trophic levels suggest transitions to an increasingly complex benthic environment and relatively warmer waters, which, like the increasing trends in inferred primary production, are consistent with a changing climate. These findings highlight the important role of climate conditions in regulating primary production and structuring aquatic communities in these shallow systems.

Published

2017

10. Long-term ecological changes in Mediterranean mountain lakes linked to recent climate change and Saharan dust deposition revealed by diatom analyses

Author

Kathleen M. Rühland, John P. Smol, Carmen Pérez-Martínez, Vivienne J. Jones, and José M. Conde-Porcuna

Subjects

Mediterranean climate, Environmental Engineering, 010504 meteorology & atmospheric sciences, Climate Change, Climate change, 010501 environmental sciences, Mineral dust, 01 natural sciences, Paleolimnology, Africa, Northern, Environmental Chemistry, Waste Management and Disposal, Ecosystem, 0105 earth and related environmental sciences, Diatoms, biology, Global warming, Dust, biology.organism_classification, Pollution, Lakes, Diatom, Spain, North Atlantic oscillation, Environmental science, Physical geography, Deposition (chemistry)

Abstract

Anthropogenic climate change and the recent increase of Saharan dust deposition has had substantial effects on Mediterranean alpine regions. We examined changes in diatom assemblage composition over the past ~180 years from high-resolution, dated sediment cores retrieved from six remote lakes in the Sierra Nevada Mountains of Southern Spain. In all lakes, changes in diatom composition began over a century ago, but were more pronounced after ~1970 CE, concurrent with trends in rising regional air temperature, declining precipitation, and increased Saharan dust deposition. Temperature was identified as the main predictor of diatom assemblage changes, whereas both Saharan dust deposition drivers, the Sahel precipitation index and the winter North Atlantic Oscillation, were secondary explanatory variables. Diatom compositional shifts are indicative of lake alkalinization (linked to heightened evapoconcentration and an increase in calcium-rich Saharan dust input) and reduced lake water turbulence (linked to lower water levels and reduced inflows to the lakes). Moreover, decreases in epiphytic diatom species were indicative of increasing aridity and the drying of catchment meadows. Our results support the conclusions of previous chlorophyll-a and cladoceran-based paleolimnological analyses of these same dated sedimentary records which show a regional-scale response to climate change and Saharan dust deposition in Sierra Nevada lakes and their catchments during the 20th century. However, diatom assemblages seem to respond to different atmospheric and climate-related effects than cladoceran assemblages and chlorophyll-a concentrations. The recent impact of climate change and atmospheric Saharan deposition on lake biota assemblages and water chemistry, as well as catchment water availability, will have important implications for the valuable ecosystem services that the Sierra Nevada provides.

Published

2020

11. The perils of using sedimentary phosphorus concentrations for inferring long-term changes in lake nutrient levels: Comments on Hiriart-Baer et al., 2011

Author

Joelle D. Young, Peter J. Dillon, Jessica Hawryshyn, Kathleen M. Rühland, Brian K. Ginn, Roberto Quinlan, and John P. Smol

Subjects

Hydrology, Ecology, Phosphorus, Sediment, chemistry.chemical_element, Aquatic Science, Paleolimnology, Term (time), Nutrient, chemistry, Environmental science, Sedimentary rock, Eutrophication, Ecology, Evolution, Behavior and Systematics

Published

2012

12. Examining 20th century water quality and ecological changes in the Lake of the Woods, Ontario, Canada: A paleolimnological investigation

Author

Crystal V. Hyatt, Andrew M. Paterson, Kathleen M. Rühland, and John P. Smol

Subjects

Ecology, biology, Environmental change, fungi, Aquatic Science, Plankton, biology.organism_classification, Paleolimnology, Fragilaria, Oceanography, Water column, Diatom, Benthic zone, Relative species abundance, Ecology, Evolution, Behavior and Systematics

Abstract

Comparisons between diatom assemblages preserved in modern and pre-industrial sediments were made to provide a lake-wide paleolimnological assessment of environmental change in 17 sites located throughout the Ontario portion of the Lake of the Woods (LoW). Diatom changes were consistent across all sites, although the magnitude of these changes varied along a trophic gradient (i.e., main channel sites versus isolated bays). The most notable taxonomic shift was towards a higher relative abundance of small, centric Cyclotella taxa and other planktonic, pennate diatoms (e.g., Asterionella formosa , Fragilaria crotonensis ) in the modern sediments, with corresponding lower relative abundances of heavily silicified Aulacoseira taxa and small benthic Fragilaria taxa. To aid in determining whether changes in nutrients can explain the diatom trends, weighted-averaging partial-least-squares (WA-PLS) techniques were used to develop a diatom-based inference model to reconstruct changes in total phosphorus (TP) concentrations. Diatom-inferrred TP (DI-TP) reconstructions revealed that 88% of the sites showed either no change or a slight, but not significant decline in DI-TP since pre-industrial times. Diatom-based inferences suggest that TP concentrations at many sites in the Ontario portion of the LoW were moderately elevated in nutrients prior to any major human disturbances (i.e., pre-1850). Results suggest that substantial increases in temperature over the last few decades, and the associated changes to ice cover and water column properties, have likely exacerbated the effects of existing stressors on the system and were key factors influencing a lake-wide restructuring of the diatom communities over the past ca. 150 years.

Published

2011

13. Diatom-inferred climatic and environmental changes over the last ∼ 9000 years from a low Arctic (Nunavut, Canada) tundra lake

Author

C. A. Paul, John P. Smol, and Kathleen M. Rühland

Subjects

010506 paleontology, 010504 meteorology & atmospheric sciences, biology, Ecology, Paleontology, Oceanography, biology.organism_classification, 01 natural sciences, Paleolimnology, Tundra, Fragilaria, Diatom, Arctic, 13. Climate action, Benthic zone, Dominance (ecology), Ecology, Evolution, Behavior and Systematics, Geology, Holocene, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Diatom assemblage changes over the Holocene were examined from a 14C-dated sediment core retrieved from Lake TK-2, a small low Arctic lake located ca. 200 km north of the forest–tundra ecotone in mainland Nunavut, Canada. Notable changes in the diatom assemblages were recorded throughout the core, suggesting that the Holocene epoch in this region has been environmentally and climatically dynamic. The earliest diatom assemblages (ca. 9000 cal yr BP) were dominated by taxa that are atypical of post-glacial assemblages commonly recorded throughout the Arctic, and may suggest that early Holocene conditions at Lake TK-2 were relatively warmer. A shift to dominance by small, benthic, opportunistic Fragilaria taxa followed (after ca. 8550 cal. yr BP), more typical of Arctic assemblages during initial lake ontogeny, suggesting the onset of cooler, more alkaline conditions. An abrupt and short-lived marked decrease in diatoms between ca. 8550 and 8500 cal. yr BP, with corresponding changes in physical and chemical indicators (e.g., sedimentation rate, siliciclastic content, % organic matter content), provides potential evidence for the 8.2 k cooling anomaly, an event rarely recognized from other paleolimnological studies in the Canadian north. Following ca. 7000 cal. yr BP, a substantial shift occurred to a more complex and diverse diatom assemblage that now included more acidophilic taxa. This compositional change is likely indicative of a natural, long-term loss of alkalinity in the lake, and marks the onset of the Holocene Thermal Maximum, consistent with the timing of this warm period for this region. The relatively stable diatom assemblage composition during the Neoglacial period was punctuated by fluctuations in key species potentially correlative with the so-called Medieval Warm Period and Little Ice Age. In the most recent sediments, the post-industrial expansion of the small, planktonic Cyclotella stelligera complex, and a concurrent decline in the heavily-silicified Aulacoseira lirata complex, are similar to shifts that are increasingly being recognized as geographically widespread diatom responses to recent climate warming. The Lake TK-2 diatom record provides important insights into the Holocene environmental history of this understudied region of the Canadian Arctic. Furthermore, it is one of the few Arctic lakes in which the 8.2 k cold event is possibly expressed.

Published

2010

14. Diatom shifts as evidence for recent Subarctic warming in a remote tundra lake, NWT, Canada

Author

John P. Smol and Kathleen M. Rühland

Subjects

biology, Environmental change, Ecology, fungi, Paleontology, Oceanography, biology.organism_classification, Subarctic climate, Tundra, Fragilaria, Diatom, Benthic zone, Navicula, sense organs, Ecology, Evolution, Behavior and Systematics, Holocene, Geology, Earth-Surface Processes

Abstract

Changes in diatom assemblage composition were examined from the sediments of Slipper Lake, an isolated tundra lake located ∼50 km north of current treeline in Canada's Northwest Territories. Diatom shifts over the last ca. 5600 years were related to the response of this ecosystem to climatic and environmental change during the late Holocene, with particular emphasis on the last few hundred years. To date, a detailed diatom analysis for this recent time frame has not been undertaken for the central Canadian Subarctic. The first ca. 5400 years of the sediment record was marked by modest shifts between benthic, alkaliphilous diatom taxa (e.g., Fragilaria , Achnanthes , and Navicula species) and heavily silicified, tychoplanktonic Aulacoseira species. In the 19th century, abrupt changes were delineated by a marked shift to a diatom assemblage characteristic of more planktonic habitats consisting of the Cyclotella stelligera complex ( C. stelligera , C. pseudostelligera ), which was absent in earlier sediments. Several possible mechanisms for these recent changes are examined, including atmospheric deposition of acidifying compounds and anthropogenically derived nutrient enrichment, however we conclude that climatically induced limnological changes associated with shorter duration of ice cover and a longer growing season can best explain the direction and magnitude of changes in our diatom record.

Published

2005

15. Holocene thermal maximum in the western Arctic (0–180°W)

Author

Larry Coats, Michael R. Kaplan, Anne E. Jennings, John P. Smol, Michael W. Kerwin, W. Wyatt Oswald, Nicholas John Anderson, Patrick J. Bartlein, Feng Sheng Hu, Bette L. Otto-Bliesner, David F. Porinchu, Anatoly V. Lozhkin, M. L. Duvall, Konrad Gajewski, Les C. Cwynar, Áslaug Geirsdóttir, Cary J. Mock, Eric J. Steig, Gifford H. Miller, Mary E. Edwards, Arthur S. Dyke, John T. Andrews, Patricia M. Anderson, Darrell S. Kaufman, Wendy R. Eisner, Thomas A. Ager, Kathleen M. Rühland, Linda B. Brubaker, Brent B. Wolfe, and Glen M. MacDonald

Subjects

010506 paleontology, Archeology, Global and Planetary Change, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Atmospheric circulation, Climate change, Geology, 01 natural sciences, Arctic, 13. Climate action, Climatology, Paleoclimatology, Glacial period, Ice sheet, Neoglaciation, Ecology, Evolution, Behavior and Systematics, Holocene, 0105 earth and related environmental sciences

Abstract

The spatio-temporal pattern of peak Holocene warmth (Holocene thermal maximum, HTM) is traced over 140 sites across the Western Hemisphere of the Arctic (0–180°W; north of ∼60°N). Paleoclimate inferences based on a wide variety of proxy indicators provide clear evidence for warmer-than-present conditions at 120 of these sites. At the 16 terrestrial sites where quantitative estimates have been obtained, local HTM temperatures (primarily summer estimates) were on average 1.6±0.8°C higher than present (approximate average of the 20th century), but the warming was time-transgressive across the western Arctic. As the precession-driven summer insolation anomaly peaked 12–10 ka (thousands of calendar years ago), warming was concentrated in northwest North America, while cool conditions lingered in the northeast. Alaska and northwest Canada experienced the HTM between ca 11 and 9 ka, about 4000 yr prior to the HTM in northeast Canada. The delayed warming in Quebec and Labrador was linked to the residual Laurentide Ice Sheet, which chilled the region through its impact on surface energy balance and ocean circulation. The lingering ice also attests to the inherent asymmetry of atmospheric and oceanic circulation that predisposes the region to glaciation and modulates the pattern of climatic change. The spatial asymmetry of warming during the HTM resembles the pattern of warming observed in the Arctic over the last several decades. Although the two warmings are described at different temporal scales, and the HTM was additionally affected by the residual Laurentide ice, the similarities suggest there might be a preferred mode of variability in the atmospheric circulation that generates a recurrent pattern of warming under positive radiative forcing. Unlike the HTM, however, future warming will not be counterbalanced by the cooling effect of a residual North American ice sheet.

Published

2004

16. Erratum to: Holocene thermal maximum in the western Arctic (0–180°W) [Quaternary Science Reviews 23 (2003) 529–560]

Author

John T. Andrews, Eric J. Steig, Gifford H. Miller, Bette L. Otto-Bliesner, Glen M. MacDonald, Linda B. Brubaker, Brent B. Wolfe, Les C. Cwynar, Cary J. Mock, Nicholas John Anderson, Anne E. Jennings, David F. Porinchu, Feng Sheng Hu, Wendy R. Eisner, Kathleen M. Rühland, Larry Coats, W. Wyatt Oswald, Patricia M. Anderson, Anatoly V. Lozhkin, Michael R. Kaplan, Darrell S. Kaufman, John P. Smol, M. L. Duvall, Thomas A. Ager, Arthur S. Dyke, Michael W. Kerwin, Mary E. Edwards, P. T. Bartlein, Konrad Gajewski, and Áslaug Geirsdóttir

Subjects

Archeology, Global and Planetary Change, Oceanography, Arctic, Carbon isotope excursion, Quaternary science, Geology, Ecology, Evolution, Behavior and Systematics, Holocene

Published

2004