Your search keyword '"Kathleen M. Rühland"' showing total 80 results

51. 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

52. 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

53. Environmental and spatial factors influencing the distribution of cladocerans in lakes across the central Canadian Arctic treeline region

Author

Kathleen M. Rühland, John P. Smol, and Jon N. Sweetman

Subjects

lcsh:GE1-350, Cladocera, treeline, Northwest Territories, Nunavut, subarctic, paleolimnology, Subfossil, Ecology, Environmental change, Community structure, lcsh:Geography. Anthropology. Recreation, Aquatic Science, Paleolimnology, Arctic, lcsh:G, Environmental science, Ordination, Transect, lcsh:GB3-5030, Spatial analysis, lcsh:Physical geography, lcsh:Environmental sciences, Water Science and Technology

Abstract

We examine the role of local environmental and spatial factors in explaining variation in the composition of cladoceran assemblages from surface sediments within a set of 50 lakes spanning a broad southwest to northeast transect across the central Canadian Arctic treeline region from Yellowknife (Northwest Territories) to the northern boundary of the Thelon Game Sanctuary (Nunavut Territory). Within each lake, the cladoceran fauna was identified based on the subfossil exoskeletal remains preserved in recently deposited lake sediments. Physical and chemical limnological data were measured in August of 1996 and 1998. Spatial data were generated based on latitude and longitude using Principal Coordinates of Neighbors Matrices analysis (PCNM). The relationships between cladocerans and the measured environmental and spatial variables were examined using both unconstrained (Principal Components Analysis, PCA) and constrained (Redundancy Analysis, RDA) ordination techniques. Variance partitioning, based on partial RDAs, was used to identify the relative importance of significant environmental and spatial explanatory variables. Three environmental variables were identified as significantly influencing cladoceran community structure: surface water temperature, dissolved organic carbon (DOC), and total phosphorus (TP). Five PCNM-generated spatial variables were also significant in explaining cladoceran distributions. Variance partitioning attributed 14% of the variance in the distribution of Cladocera to spatial factors, an additional 10% to spatially-structured environmental variables, and 8% to environmental factors that were not spatially-structured. Within the central Canadian Arctic treeline region, spatial and other environmental processes had an important influence on the distribution of cladoceran communities. The strong influence of spatial factors was related to the large ecoclimatic gradient across treeline. The distribution patterns of cladocerans suggest that they have potential for use in paleoenvironmental assessments of northern ecosystems, a region of considerable interest for environmental change research.

Published

2010

54. Paleolimnological evidence of the effects on lakes of energy and mass transfer from climate and humans

Author

Josef P. Werne, SC Fritz, William O. Hobbs, Jordi Catalan, Suzanne McGowan, Gavin Simpson, James A. Rusak, Kathleen M. Rühland, Nicholas John Anderson, Daniel J. Conley, Atte Korhola, Erik Jeppesen, Thorsten Blenckner, Lynda Bunting, Peter R. Leavitt, Paul A. Baker, and Nadia Solovieva

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, 010604 marine biology & hydrobiology, Limnology, Drainage basin, Flux, Climate change, 15. Life on land, Aquatic Science, Oceanography, 01 natural sciences, Paleolimnology, 6. Clean water, Atmosphere, 13. Climate action, parasitic diseases, Spatial variability, Precipitation, 0105 earth and related environmental sciences

Abstract

The premise of this article is that climate effects on lakes can be quantified most effectively by the integration of process-oriented limnological studies with paleolimnological research, particularly when both disciplines operate within a common conceptual framework. To this end, the energy (E)-mass (m) flux framework (Em flux) is developed and applied to selected retrospective studies to demonstrate that climate variability regulates lake structure and function over diverse temporal and spatial scales through four main pathways: rapid direct transfer of E to the lake surface by irradiance, heat, and wind; slow indirect effects of E via changes in terrestrial development and subsequent m subsidies to lakes; direct influx of m as precipitation, particles, and solutes from the atmosphere; and indirect influx of water, suspended particles, and dissolved substances from the catchment. Sedimentary analyses are used to illustrate the unique effects of each pathway on lakes but suggest that interactions among mechanisms are complex and depend on the landscape position of lakes, catchment characteristics, the range of temporal variation of individual pathways, ontogenetic changes in lake basins, and the selective effects of humans on m transfers. In particular, preliminary synthesis suggests that m influx can overwhelm the direct effects of E transfer to lakes, especially when anthropogenic activities alter m subsidies from catchments.

Published

2009

55. Lateglacial and Holocene paleoenvironmental changes recorded in lake sediments, Brock Plateau (Melville Hills), Northwest Territories, Canada

Author

Jeannine-Marie St. Jacques, Brandon D. Beierle, Arthur S. Dyke, Kathleen M. Rühland, John P. Smol, and Scott F. Lamoureux

Subjects

Palynology, Archeology, Global and Planetary Change, geography, geography.geographical_feature_category, Plateau, Ecology, Paleontology, Beringia, Oceanography, Arctic, Deglaciation, Younger Dryas, Ice sheet, Geology, Holocene, Earth-Surface Processes

Abstract

Sediments from South Lake, Brock Plateau (Melville Hills), Northwest Territories, provide one of the longest postglacial records from the mainland western Canadian Arctic, outside of eastern Beringia. Sedimentation commenced at least 13 900 cal. yr BP, and possibly as early as 16 000 cal. yr BP, in response to early deglaciation of the site. Pollen is present throughout the record, with an initial Artemisia-Salix assemblage indicative of very cold conditions, consistent with a locally severe Younger Dryas Stade or simply continued proximity of the Laurentide Ice Sheet margin ( c. 12 700 to 11 500 cal. yr BP). At c. 11 000 cal. yr BP, abiotic proxies signal a transition to warmer conditions, corroborated by a pollen assemblage dominated by Betula and Cyperaceae. Although South Lake was biologically productive during the early Holocene ( c. 11 000 to 7000 cal. yr BP), diatoms and other siliceous organisms are notably absent from the record, suggesting severe silica limitation. Rises in Alnus crispa and Picea mariana pollen at c. 7000 cal. yr BP suggest cooling and/or an increase in effective moisture. Wetter conditions and increased hydrological inputs and silica supply likely led to the establishment of a pioneering diatom community at c. 6500 cal. yr BP. Decreased organic sedimentation after c. 2000 cal. yr BP suggests cooler conditions. Additionally, changing niveo-eolian deposition of sand on lake ice varied with a c. 3000-year periodicity through the entire record. The South Lake multiproxy record supports the hypothesis that the Brock Plateau was one of the earliest deglaciated regions during the late Wisconsinan.

Published

2009

56. Do spectrally inferred determinations of chlorophyll a reflect trends in lake trophic status?

Author

Alexander P. Wolfe, Brian F. Cumming, Jules M. Blais, Kathleen M. Rühland, John P. Smol, Neal Michelutti, and Andrew M. Paterson

Subjects

Hydrology, Chlorophyll a, Sediment, Climate change, Aquatic Science, Diagenesis, chemistry.chemical_compound, Oceanography, chemistry, Arctic, Boreal, Environmental science, Sedimentology, Earth-Surface Processes, Trophic level

Abstract

Visible reflectance spectroscopy (VRS) has been used to reconstruct lake sediment chlorophyll a concentrations. Despite good concordance between inferred and measured chlorophyll a values, questions remain as to whether this spectral technique is tracking past changes in aquatic primary production, or simply recording a diagenetic signal. In this study, we critically evaluate how well VRS chlorophyll a determinations track past trends in aquatic primary production using sediment cores from several lake systems with well-known trophic histories. Our study sites include Arctic, boreal and prairie lakes that encompass a gradient of trophic states. In general, our spectrally inferred chlorophyll a values tracked past trends in lake trophic status consistent with historical measurements of production, or as inferred by independent proxies of primary production. We conclude that VRS chlorophyll a inferences indeed track histories of lake production trends and that this method is widely applicable as a rapid, inexpensive and non-destructive alternative to wet-chemical analyses of sediment chlorophyll a concentrations.

Published

2009

57. Evaluating the Response of Cladocera to Recent Environmental Changes in Lakes from the Central Canadian Arctic Treeline Region

Author

John P. Smol, Jon N. Sweetman, Elyse LaFace, and Kathleen M. Rühland

Subjects

Global and Planetary Change, biology, Ecology, fungi, Global warming, biology.organism_classification, Subarctic climate, Oceanography, Diatom, Arctic, Cladocera, Environmental science, Ecosystem, sense organs, skin and connective tissue diseases, Arctic ecology, Ecology, Evolution, Behavior and Systematics, Earth-Surface Processes, Trophic level

Abstract

Arctic and subarctic ecosystems have undergone considerable environmental changes in recent years as the result of climate warming. Fossil records of freshwater diatoms in lakes throughout the circumpolar Arctic, including the central Canadian Arctic treeline region, have revealed marked directional shifts in diatom assemblages in recent lake sediments. These algal changes have been linked to longer growing seasons, decreased duration of ice cover, and/or increased thermal stability. The effects of these recent environmental changes on higher trophic levels, such as the Cladocera, are still unclear. Using cladoceran remains preserved in the sediments of 50 lakes, which were previously examined for changes in diatoms, we show that significant changes in cladoceran species composition have occurred from pre-industrial times to the present. However, these changes are considerably muted compared to the more substantial changes observed in the diatom record. We found no consistent patterns of change i...

Published

2008

58. Hemispheric-scale patterns of climate-related shifts in planktonic diatoms from North American and European lakes

Author

Kathleen M. Rühland, Andrew M. Paterson, and John P. Smol

Subjects

Global and Planetary Change, Ecology, biology, Northern Hemisphere, biology.organism_classification, Freshwater ecosystem, Paleolimnology, Fragilaria, Oceanography, Geography, Diatom, Arctic, Benthic zone, Temperate climate, Environmental Chemistry, General Environmental Science

Abstract

A synthesis of over 200 diatom-based paleolimnological records from nonacidified/nonenriched lakes reveals remarkably similar taxon-specific shifts across the Northern Hemisphere since the 19th century. Our data indicate that these diatom shifts occurred in conjunction with changes in freshwater habitat structure and quality, which, in turn, we link to hemispheric warming trends. Significant increases in the relative abundances of planktonic Cyclotella taxa (P

Published

2008

59. ABSENCE OF EVIDENCE IS NOT EVIDENCE OF ABSENCE: IS STEPHANODISCUS BINDERANUS (BACILLARIOPHYCEAE) AN EXOTIC SPECIES IN THE GREAT LAKES REGION?(1)

Author

Jessica, Hawryshyn, Kathleen M, Rühland, Matthew, Julius, and John P, Smol

Abstract

The eutrophic, freshwater diatom species Stephanodiscus binderanus (Kütz.) Willi Krieg. has long been considered a nuisance exotic alga introduced from Eurasia to the Great Lakes in North America in the early to mid-20th century. However, our paleolimnological data from Lake Simcoe, Ontario, provide unequivocal evidence that this taxon has been present in the Great Lakes region since at least the late 17th century. Subfossil diatom valves were identified and enumerated at high resolution in (210) Pb-dated sediment cores from four sites across the lake. The taxonomic identification of S. binderanus was confirmed using SEM. The historical presence of this species in Lake Simcoe indicates somewhat naturally productive conditions and also refutes the idea that S. binderanus is a nonindigenous species to North America. This study underscores the caution that should be applied to questions of diatom (and protistan) distributions in time and space. Clearly, the absence of evidence is not evidence of absence.

Published

2016

60. 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

61. 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

62. Paleolimnological Evidence from Diatoms for Recent Environmental Changes in 50 Lakes across Canadian Arctic Treeline

Author

Kathleen M. Rühland, John P. Smol, and Alisha Priesnitz

Subjects

Global and Planetary Change, biology, Ecology, fungi, Plankton, biology.organism_classification, Fragilaria, Nutrient, Taxon, Oceanography, Diatom, Arctic, Benthic zone, Environmental science, Relative species abundance, Ecology, Evolution, Behavior and Systematics, Earth-Surface Processes

Abstract

Changes in diatom assemblage composition since preindustrial times were analyzed in a landscape paleolimnological study of 50 lakes and also in a more detailed analysis of a dated sediment core from Slipper Lake in the Canadian central arctic treeline region. The most apparent taxonomic shift was toward a higher relative abundance of the planktonic Cyclotella stelligera complex and a lower relative abundance of benthic Fragilaria taxa (F. pinnata, F. construens var. venter, F. construens, and F. brevistriata) in the modern versus the older sediments. Diatom assemblage composition in Slipper Lake recorded a marked change in the top 5.0 cm (ca. mid-1800s) of the core with a clear shift to a more planktonic diatom assemblage characterized by higher percentages of the Cyclotella stelligera complex. Possible causative factors, such as recent anthropogenic acidification, nutrient enrichment, or atmospheric deposition of contaminants, do not appear sufficient to explain these species changes. Instead, t...

Published

2003

63. Limnological characteristics of 56 lakes in the Central Canadian Arctic Treeline Region

Author

Derek C. G. Muir, John P. Smol, Kathleen M. Rühland, and Xiaowa Wang

Subjects

lcsh:GE1-350, Ecology, Biome, Taiga, lcsh:Geography. Anthropology. Recreation, Growing season, Aquatic Science, Plant litter, Permafrost, Tundra, Arctic, lcsh:G, Environmental science, arctic treeline, climatic change, dissolved inorganic carbon, dissolved organic carbon, major ions, nutrients, Arctic vegetation, lcsh:GB3-5030, lcsh:Physical geography, lcsh:Environmental sciences, Water Science and Technology

Abstract

Measured environmental variables from 56 lakes across the Central Canadian Treeline Region exhibited clear limnological differences among subpolar ecozones, reflecting strong latitudinal changes in biome characteristics (e.g. vegetation, permafrost, climate). Principal Components Analysis (PCA) clearly separated forested sites from tundra sites based on distinct differences in limnological characteristics. Increases in major ions and related variables (e.g. dissolved inorganic carbon, DIC) were higher in boreal forest sites in comparison to arctic tundra sites. The higher values recorded in the boreal forest lakes may be indirectly related to differences in climatic factors in these zones, such as the degree of permafrost development, higher precipitation and runoff, duration of ice-cover on the lakes, and thicker and better soil development. Similar to trends observed in DIC, substantially higher values for dissolved organic carbon (DOC) were measured in boreal forest lakes than in arctic tundra lakes. This was likely due to higher amounts of catchment-derived DOC entering the lakes from coniferous leaf litter sources. Relative to arctic tundra lakes, boreal forest lakes had higher nutrient concentrations, particularly total nitrogen (TN), likely due to warmer conditions, a longer growing season, and higher precipitation, which would enhance nutrient cycling and primary productivity. Results suggest that modern aquatic environments at opposite sides of the central Canadian arctic treeline (i.e. boreal forest and arctic tundra) exhibit distinct differences in water chemistry and physical conditions. These limnological trends may provide important information on possible future changes with additional warming.

Published

2003

64. Ecology and spatial distributions of surface-sediment diatoms from 77 lakes in the subarctic Canadian treeline region

Author

Kathleen M. Rühland, Reinhard Pienitz, and John P. Smol

Subjects

Fragilaria, Diatom, biology, Environmental change, Arctic, Ecology, Benthic zone, Taiga, Plant Science, biology.organism_classification, Subarctic climate, Tundra

Abstract

Diatom ecology and species compositional patterns across current arctic treeline can provide important paleoecological information associated with climatic and environmental change. In this paper we examine the relationships between measured environmental variables and modern diatom assemblage composition from 77 lakes across the treeline ecozones of the Central Canadian Arctic. The weighted-average optima for selected environmental variables were calculated for 74 of the most common diatoms, and photographic plates of these taxa are included. Our results indicated that both forest-tundra and arctic tundra lakes differed significantly in diatom assemblage composition from boreal forest lakes. In general, planktonic diatom taxa (e.g., Cyclotella species) were more common in forested lakes, which may be due to ecological conditions related to climate. Small, benthic, alkaliphilic Fragilaria taxa reached their highest abundances in forested lakes, likely because of the more alkaline nature of these lakes. Arctic tundra lakes were characterized by higher abundances of circumneutral to acidophilic taxa. Heavily silicified Aulacoseira taxa (e.g., Aulacoseira lirata, Aulacoseira perglabra) were more common in deeper tundra lakes, likely because of the less alkaline nature of these lakes and greater wind-induced turbulence in this zone. These trends provide important information on the variability of aquatic ecosystems across this climatically sensitive vegetational gradient.Key words: arctic treeline, Canada, diatoms, paleolimnology, weighted-average optima, climate change.

Published

2003

65. FRESHWATER DIATOMS FROM THE CANADIAN ARCTIC TREELINE AND DEVELOPMENT OF PALEOLIMNOLOGICAL INFERENCE MODELS 1

Author

Kathleen M. Rühland and John P. Smol

Subjects

biology, Ecology, Taiga, Sediment, Plant Science, Aquatic Science, biology.organism_classification, Paleolimnology, Tundra, Diatom, Arctic, Canonical correspondence analysis, Dissolved organic carbon, Physical geography

Abstract

Relationships between surface sediment diatom assemblages and measured environmental variables from 77 lakes in the central Canadian arctic treeline region were examined using multivariate statistical methods. Lakes were distributed across the arctic treeline from boreal forest to arctic tundra ecozones, along steep climatic and environmental gradients. Forward selection in canonical correspondence analysis determined that dissolved inorganic carbon (DIC), dissolved organic carbon (DOC), total nitrogen (TN), lake surface area, silica, lake-water depth, and iron explained significant portions of diatom species variation. Weighted-averaging (WA) regression and calibration techniques were used to develop inference models for DIC, DOC, and TN from the estimated optima of the diatom taxa to these environmental variables. Simple WA models with classical deshrinking produced models with the strongest predictive abilities for all three variables based on the bootstrapped root mean squared errors of prediction (RMSEP). WA partial least squares showed little improvement over the simpler WA models as judged by the jackknifed RMSEP. These models suggest that it is possible to infer trends in DIC, DOC, and TN from fossil diatom assemblages from suitably chosen lakes in the central Canadian arctic treeline region.

Published

2002

66. Arctic Holocene proxy climate database – New approaches to assessing geochronological accuracy and encoding climate variables

Author

Hanna S. Sundqvist, Yarrow Axford, Nicholas P. McKay, Heikki Seppä, Harry John Betteley Birks, Nicholas L. Balascio, Anne E. Jennings, Hans Petter Sejrup, Darrell S. Kaufman, John T. Andrews, John P. Smol, Jostein Bakke, Fredrik Charpentier Ljungqvist, Les C. Cwynar, A. E. Viau, Dmitry Subetto, Stephen J. Brooks, Jason P. Briner, A. de Vernal, Casey Saenger, and Kathleen M. Rühland

Subjects

010506 paleontology, 010504 meteorology & atmospheric sciences, lcsh:Environmental protection, Stratigraphy, Climate change, computer.software_genre, 01 natural sciences, Proxy (climate), lcsh:Environmental pollution, Paleoclimatology, lcsh:TD169-171.8, lcsh:Environmental sciences, Holocene, 0105 earth and related environmental sciences, lcsh:GE1-350, Global and Planetary Change, geography, geography.geographical_feature_category, Database, Paleontology, Glacier, 15. Life on land, Before Present, Arctic, 13. Climate action, Climatology, lcsh:TD172-193.5, Climate model, computer, Geology

Abstract

An extensive compilation of previously published Holocene proxy climate records from the Arctic. This database is the product of the PAGES endorsed Arctic Holocene Transitions (AHT) project. ABSTRACT: We present a systematic compilation of previously published Holocene proxy climate records from the Arctic. We identified 170 sites from north of 58° N latitude where proxy time series extend back at least to 6 cal ka (all ages in this article are in calendar years before present BP) are resolved at submillennial scale (at least one value every 400 ± 200 years) and have age models constrained by at least one age every 3000 years. In addition to conventional metadata for each proxy record (location proxy type reference) we include two novel parameters that add functionality to the database. First "climate interpretation" is a series of fields that logically describe the specific climate variable(s) represented by the proxy record. It encodes the proxy climate relation reported by authors of the original studies into a structured format to facilitate comparison with climate model outputs. Second "geochronology accuracy score" (chron score) is a numerical rating that reflects the overall accuracy of 14C based age models from lake and marine sediments. Chron scores were calculated using the original author reported 14C ages which are included in this database. The database contains 320 records (some sites include multiple records) from six regions covering the circumpolar Arctic: Fennoscandia is the most densely sampled region (31 of the records) whereas only five records from the Russian Arctic met the criteria for inclusion. The database contains proxy records from lake sediment (60) marine sediment (32) glacier ice (5) and other sources. Most (61) reflect temperature (mainly summer warmth) and are primarily based on pollen chironomid or diatom assemblages. Many (15) reflect some aspect of hydroclimate as inferred from changes in stable isotopes pollen and diatom assemblages humification index in peat and changes in equilibrium line altitude of glaciers. This comprehensive database can be used in future studies to investigate the spatio temporal pattern of Arctic Holocene climate changes and their causes. The Arctic Holocene data set is available from NOAA Paleoclimatology. © Author(s) 2014.

Published

2014

67. Response of Diatoms and Other Siliceous Indicators to the Developmental History of a Peatland in the Tiksi Forest, Siberia, Russia

Author

Barry G. Warner, John P. Smol, J. P. Paul Jasinski, and Kathleen M. Rühland

Subjects

010506 paleontology, Global and Planetary Change, geography, geography.geographical_feature_category, Peat, 010504 meteorology & atmospheric sciences, Ecology, Climate change, Wetland, 01 natural sciences, Aquatic organisms, Paleoclimatology, Bog, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Diatoms and other siliceous microfossils were examined from a 386-cm-long peat core, covering the last ca. 7200 yr, from north-central Siberia to gain insights into peatland developmental history, ...

Published

2000

68. Past environmental and climatic changes related to tree-line shifts inferred from fossil diatoms from a lake near the Lena River Delta, Siberia

Author

Tamsin E. Laing, John P. Smol, and Kathleen M. Rühland

Subjects

010506 paleontology, Archeology, 010504 meteorology & atmospheric sciences, 01 natural sciences, law.invention, law, Radiocarbon dating, Holocene, 0105 earth and related environmental sciences, Earth-Surface Processes, Hydrology, Global and Planetary Change, geography, River delta, geography.geographical_feature_category, Ecology, biology, Paleontology, biology.organism_classification, Tundra, Fragilaria, Diatom, Benthic zone, Physical geography, Tree line, Geology

Abstract

Changes in diatom assemblages in a sediment core taken from a tundra lake near the Lena River Delta, northeastern Siberia, reflect climatic and environmental changes throughout the Holocene. Significant limnological changes occurred at the same time as trees advanced into the region c. 9100 cal. yr BP (8500 radiocarbon yr BP) and subsequently retreated c. 3800 cal. yr BP (3500 radiocarbon yr BP). Prior to this tree-line shift, diatom assemblages were dominated by small benthic Fragilaria species, and diatom-inferred alka linity values were high, suggesting that climatic conditions were cool and relatively dry, and that lake pro ductivity was probably low. Coincident with tree-line advance into the region c. 9100 cal. yr BP, inferred alkalinity decreased and remained low throughout the forested period, reflecting soil development and increased organic runoff associated with the shift in catchment vegetation. The establishment of a larch forest in the catchment corresponded with an initial period of limnological change between 9100 and 7700 cal. yr BP, suggesting that soil and forest development took place over approximately 1400 years. Between c. 7700 cal. yr BP (c. 7000 radiocarbon yr BP) and 3800 cal. yr BP, a stable diatom assemblage dominated by Achnanthes species and low diatom-inferred alkalinity indicate the influence of organic runoff associated with a fully developed forest. A return to cooler conditions and reversion to shrub tundra c. 3800 cal. yr BP coincided with a shift back to a Fragilaria-dominated diatom assemblage and an increase in diatom-inferred alkalinity. Recent conditions have been marked by declining alkalinity estimates and a minor change in diatom assemblages, most likely reflecting an influx of humic substances from catchment peats. The close correlation between trends in reconstructed alkalinity and catchment vegetation suggests that diatom-inferred alkalinity may provide a sensitive record of soil and forest development in unpolluted circumneutral or alkaline tree-line lakes.

Published

1999

69. Limnological Characteristics of 70 Lakes Spanning Arctic Treeline from Coronation Gulf to Great Slave Lake in the Central Northwest Territories, Canada

Author

Kathleen M. Rühland and John P. Smol

Subjects

geography, geography.geographical_feature_category, Ecology, Limnology, Drainage basin, Climate change, Vegetation, Aquatic Science, Tundra, Arctic, Ecozone, Physical geography, Transect, Ecology, Evolution, Behavior and Systematics

Abstract

Latitudinal transects across subpolar ecozones display striking changes in lakewater chemistry reflecting steep gradients in vegetation, climate, and other variables. This paper explores the relationships among chemical and physical lakewater characteristics of 70 lakes spanning arctic treeline in Canada's Central Northwest Territories. Principal components analysis (PCA) was used to examine trends and relationships among environmental variables and these 70 sites. In general, lakes in this data set were dilute, slightly acidic to slightly alkaline, and nutrient-poor. However, a strong trend toward more concentrated lakewater conditions in densely forested areas was observed relative to tundra regions. Interrelationships among measured limnological variables appear to be strongly influenced by catchment characteristics associated with proximity of sites to treeline.

Published

1998

70. Global change revealed by palaeolimnological records from remote lakes: a review

Author

Alexander P. Wolfe, Roger J. Flower, Christian Kamenik, Karin A. Koinig, Peter R. Leavitt, Jordi Catalan, Kathleen M. Rühland, John P. Smol, Jiří Kopáček, Ingemar Renberg, Atte Korhola, Lluís Camarero, N. John Anderson, Roland Psenner, Evžen Stuchlík, Roland Schmidt, Oliver Heiri, and Sergi Pla-Rabes

Subjects

0106 biological sciences, Acidification, 010504 meteorology & atmospheric sciences, Environmental change, Arctic lakes, Earth science, Ecology (disciplines), Limnology, Remote lake palaeolimnology, Alpine lakes, Biodiversity, Climate change, 580 Plants (Botany), Aquatic Science, 01 natural sciences, High altitude, Ecosystem, 14. Life underwater, 910 Geography & travel, 550 Earth sciences & geology, 0105 earth and related environmental sciences, Earth-Surface Processes, 010604 marine biology & hydrobiology, Global change, High latitude, 15. Life on land, Earth system science, Oceanography, 13. Climate action, Nitrogen cascade, Long-range atmospheric pollution, Geology

Abstract

23 páginas, 7 figuras, 1 tabla., Over recent decades, palaeolimnological records from remote sites have provided convincing evidence for the onset and development of several facets of global environmental change. Remote lakes, defined here as those occurring in high latitude or high altitude regions, have the advantage of not being overprinted by local anthropogenic processes. As such, many of these sites record broad-scale environmental changes, frequently driven by regime shifts in the Earth system. Here, we review a selection of studies from North America and Europe and discuss their broader implications. The history of investigation has evolved synchronously with the scope and awareness of environmental problems. An initial focus on acid deposition switched to metal and other types of pollutants, then climate change and eventually to atmospheric deposition-fertilising effects. However, none of these topics is independent of the other, and all of them affect ecosystem function and biodiversity in profound ways. Currently, remote lake palaeolimnology is developing unique datasets for each region investigated that benchmark current trends with respect to past, purely natural variability in lake systems. Fostering conceptual and methodological bridges with other environmental disciplines will upturn contribution of remote lake palaeolimnology in solving existing and emerging questions in global change science and planetary stewardship., The authors acknowledge project support from GRACCIE (CSD2007-00067), NITROPIR (CGL2010- 19373), OCUPA (088/2009), the European Research Council (Starting Grant Project, 239858), the Natural Sciences and Engineering Research Council of Canada, the US Department of the Interior, the Commission for Scientific Research in Greenland, the Austrian Science Foundation (FWF R 29N10, FWF J 1963-Geo), the Alpine Research Programme of the Austrian Academy of Sciences (project DETECTIVE), and the Czech Science Foundation (project GACR 526/09/0567).

Published

2013

71. Corrigendum to: Why is the relative abundance of Asterionella formosa increasing in a Boreal Shield lake as nutrient levels decline?

Author

Branaavan Sivarajah, Kathleen M. Rühland, Andrew L. Labaj, Andrew M. Paterson, and John P. Smol

Subjects

Nutrient, Boreal, Ecology, Asterionella formosa, Climate change, Aquatic Science, Sedimentology, Relative species abundance, Geology, Earth-Surface Processes

Published

2016

72. Multiple stressor effects on water quality in Poplar Bay, Lake of the Woods, Canada: a midge-based assessment of hypolimnetic oxygen conditions over the last two centuries

Author

John P. Smol, Jamie C. Summers, Andrew M. Paterson, Joshua Kurek, Roberto Quinlan, and Kathleen M. Rühland

Subjects

Shore, lcsh:GE1-350, geography, geography.geographical_feature_category, Ecology, biology, lcsh:Geography. Anthropology. Recreation, Aquatic Science, biology.organism_classification, Paleolimnology, Diatom, lcsh:G, Midge, paleolimnology, multiple stressors, hypolimnetic oxygen, chironomid, Chaoborus, Lake of the Woods, Environmental science, Water quality, Hypolimnion, lcsh:GB3-5030, Bay, lcsh:Physical geography, Limnetic zone, lcsh:Environmental sciences, Water Science and Technology

Abstract

Chironomid and Chaoborus (midge) remains preserved in a dated sediment core from Poplar Bay, Lake of the Woods (LOW), Ontario, Canada, were used to assess the effects of multiple stressors (e.g., recent warming and shoreline development) on water quality over the past ~200 years. As monitoring data for LOW do not extend beyond recent decades, paleolimnological methods are used to reconstruct long-term limnological trends and to establish pre-disturbance conditions. The effects of recent warming and shoreline development on Poplar Bay water quality are examined using an index of hypolimnetic oxygen (O2) status based on the ratio of Chaoborus to chironomid remains (chaob:chir) and a midge-inferred volume-weighted hypolimnetic oxygen (VWHO) model. Our paleolimnological data indicate that hypolimnetic [O2] in Poplar Bay have been historically hypoxic (1-4 mg O2 L-1) but have declined further (generally

Published

2012

73. Paleolimnology of the North American Subarctic

Author

Kathleen M. Rühland, Bruce P. Finney, John P. Smol, and Marie-Andrée Fallu

Subjects

Oceanography, Geography, Before Present, Subarctic climate, Paleolimnology

Published

2007

74. Kociolek, Patrick J., Laslandes, Berengere, Benett, Danuta, Thomas, Evan, Brady, Mariska, and Graeff, Carrie. 2014. Diatoms of the United States 1: Taxonomy, Ultrastructure and Descriptions of New Species and Other Rarely Reported Taxa from Lake Sediments

Author

John P. Smol and Kathleen M. Rühland

Subjects

Taxon, Geography, Taxonomy (biology), Environmental ethics, Aquatic Science, Oceanography, Archaeology, Water Science and Technology

Published

2015

75. Abrupt climatic events during the last glacial-interglacial transition in Alaska

Author

Yongsong Huang, Darrell S. Kaufman, John P. Smol, Kathleen M. Rühland, David M. Nelson, Gina H. Clarke, and Feng Sheng Hu

Subjects

Geophysics, Oceanography, Boreal, Pleistocene, Interglacial, Paleoclimatology, General Earth and Planetary Sciences, Glacial period, Physical geography, Younger Dryas, Biogenic silica, Geology, Allerød oscillation

Abstract

[1] Evidence is mounting that abrupt climatic shifts occurred during the last glacial-interglacial transition (LGIT) in the North Atlantic and other regions. However, few high-resolution climatic records of the LGIT exist from the high latitudes of the North Pacific rim. We analyzed lake sediments from southwestern Alaska for biogenic silica, organic carbon, organic nitrogen, diatom assemblages, and compound-specific hydrogen isotopes. Results reveal climatic changes coincident with the Younger Dryas, Intra-Allerod Cold Period, and Pre-Boreal Oscillation. However, major discrepancies exist in the paleoclimate patterns of the Bolling-Allerod interstadial between our data and the GISP2 δ18O record from Greenland, and causes are uncertain. These data suggest that the North Pacific and North Atlantic experienced similar reversals during climatic warming of the LGIT but that the Bolling-Allerod cooling trend in the GISP2 δ18O record is probably not a hemispheric or global pattern.

Published

2006

76. Accelerated melting of Himalayan snow and ice triggers pronounced changes in a valley peatland from northern India

Author

Satish J. Sangode, John P. Smol, N. R. Phadtare, Kathleen M. Rühland, and R. K. Pant

Subjects

geography, geography.geographical_feature_category, Peat, Monsoon, Snow, Geophysics, Climatology, General Earth and Planetary Sciences, Ecosystem, Glacial period, Precipitation, Surface runoff, Bog, Geology

Abstract

[1] The Himalayan region of northern India depends on monsoon rains, together with snow and glacial melt, to supply life-sustaining water to one of the world's most densely populated areas. Here we provide high-resolution pollen and diatom evidence from a peat deposit in the Pinder Valley that shows a synchronous and abrupt ecosystem turnover toward a wetter state in the last two centuries that exceeded changes recorded over the last three millennia. Contrary to expectations, there was no relationship between recent proxy changes and summer monsoon precipitation. Strong relationships, however, were found with winter climate data. We link this recent unprecedented wetness to marked warming at higher elevations resulting in increased seasonal runoff and associated climatic feedbacks in this snow and ice-melt dominated region. In contrast to the expected desiccation and decomposition of most peat systems with warming, this site has instead become the wettest in its ca. 3500-year history.

Published

2006

77. Climate-driven regime shifts in the biological communities of arctic lakes

Author

Kathleen M. Rühland, Larisa Nazarova, John P. Smol, Alexander P. Wolfe, Nadia Solovieva, H. John B. Birks, Vivienne J. Jones, Dermot Antoniades, Neal Michelutti, Bronwyn E. Keatley, Stephen J. Brooks, Émilie Saulnier-Talbot, Tamsin E. Laing, Andrew M. Paterson, Bianca B. Perren, Sanna Sorvari, Roberto Quinlan, Jan Weckström, Reinhard Pienitz, Marjut Nyman, Milla Rautio, Marianne S. V. Douglas, Susanna Siitonen, Michael Hughes, Marie-Andrée Fallu, and Atte Korhola

Subjects

Greenhouse Effect, 0106 biological sciences, Time Factors, 010504 meteorology & atmospheric sciences, Biodiversity, Growing season, Climate change, Fresh Water, 01 natural sciences, Paleolimnology, Anthropocene, Animals, Indicators, Ecosystem, skin and connective tissue diseases, 0105 earth and related environmental sciences, Multidisciplinary, Arctic Regions, Ecology, 010604 marine biology & hydrobiology, Global warming, Eukaryota, Biological Sciences, 15. Life on land, Cold Climate, Invertebrates, Geography, Arctic, 13. Climate action, sense organs, Warming, Water Microbiology, Arctic ecology

Abstract

Fifty-five paleolimnological records from lakes in the circumpolar Arctic reveal widespread species changes and ecological reorganizations in algae and invertebrate communities since approximately anno Domini 1850. The remoteness of these sites, coupled with the ecological characteristics of taxa involved, indicate that changes are primarily driven by climate warming through lengthening of the summer growing season and related limnological changes. The widespread distribution and similar character of these changes indicate that the opportunity to study arctic ecosystems unaffected by human influences may have disappeared.

Published

2005

78. Global warming triggers the loss of a key Arctic refugium

Author

Andrew M. Paterson, Wendel Keller, Neal Michelutti, John P. Smol, and Kathleen M. Rühland

Subjects

Diatoms, Ontario, Arctic sea ice decline, Conservation of Natural Resources, General Immunology and Microbiology, Arctic dipole anomaly, Arctic Regions, Nitrogen, Global warming, Extinction risk from global warming, General Medicine, Biota, Global Warming, General Biochemistry, Genetics and Molecular Biology, Arctic geoengineering, Lakes, Oceanography, Arctic, Limnology, Environmental science, Arctic vegetation, General Agricultural and Biological Sciences, Arctic ecology, Research Articles, General Environmental Science

Abstract

We document the rapid transformation of one of the Earth's last remaining Arctic refugia, a change that is being driven by global warming. In stark contrast to the amplified warming observed throughout much of the Arctic, the Hudson Bay Lowlands (HBL) of subarctic Canada has maintained cool temperatures, largely due to the counteracting effects of persistent sea ice. However, since the mid-1990s, climate of the HBL has passed a tipping point, the pace and magnitude of which is exceptional even by Arctic standards, exceeding the range of regional long-term variability. Using high-resolution, palaeolimnological records of algal remains in dated lake sediment cores, we report that, within this short period of intense warming, striking biological changes have occurred in the region's freshwater ecosystems. The delayed and intense warming in this remote region provides a natural observatory for testing ecosystem resilience under a rapidly changing climate, in the absence of direct anthropogenic influences. The environmental repercussions of this climate change are of global significance, influencing the huge store of carbon in the region's extensive peatlands, the world's southern-most polar bear population that depends upon Hudson Bay sea ice and permafrost for survival, and native communities who rely on this landscape for sustenance.

Published

2013

79. 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

80. Cooling in down-slope peat ecosystems due to accelerated glacial melting in Higher Himalaya, India

Author

Kathleen M. Rühland, John P. Smol, R. K. Pant, and N. R. Phadtare

Subjects

geography, Peat, geography.geographical_feature_category, Abies pindrow, biology, Global warming, Glacier, biology.organism_classification, Fragilaria, Paleoclimatology, East Asian Monsoon, Physical geography, Glacial period, Geomorphology, Geology

Abstract

High-resolution paleoclimate data and numerous instrumental records report that, at higher elevations, Himalayan temperatures over the last ca. 100 years have been rising (Liu and Chen 2000, Thompson et al. 2000). However, many instrumental records from various lower elevation localities are reporting cooler temperatures in recent decades (Balling 2001). This recent cooling trend is not only opposite to the global warming trend but also with the accelerated retreat of the Himalayan glaciers. The effect that warming conditions and melting glaciers have on downslope ecosystems has not been fully explored. Here we present compelling evidence that, over the last 200 years, accelerated glacier retreat and increased melt waters have played a central role in changing the ecology (and perhaps local climate) of downslope sites. The Pinder Valley (~30° 50' 30° 52' N, 78° 47' 78° 51’E) of the Kumaon Higher Himalaya, receives precipitation from the Asian monsoon predominantly during the summer but also during winter seasons. The valley climate is also influenced by hanging glaciers (viz. Sunder Dunga, Pindari, and Kaphni), situated along the valley head. An ~ 125-cm thick peat deposit situated in oak dominated mixed evergreen forest 2650-m altitude, was trenched and continuously sampled at 2-cm intervals. Well-dated multi-proxy paleoclimate record (pollen, diatoms, phytoliths, % organic matter, and magnetic susceptibility) from this peat sequence revealed past ca. 3500year high-resolution climate history of the area. At the beginning of the peat sequence (ca. 3500 to ca. 3300 cal yr BP), the pollen assemblage was almost exclusively represented by conifers suggesting that the regional climate was cool and wet. A sudden increase in the dominance of grass, alder (Alnus nepalensis) and brown oak (Quercus semecarpifolia) pollen at ca. 3300 cal yr BP indicates an abrupt climatic shift towards drier conditions that continued until ca 2300 cal yr BP. The increase in silver fir (Abies pindrow) and other conifers [Himalayan spruce (Picea smithiana) and blue pine (Pinus wallichiana)] at the expanse of grasses, and the first appearance of diatoms ca. 2300 cal yr BP mark the end of the dry period. The progressive decrease in grass pollen for the following ~200 years reveals the improved wetness of climate until ca. 2100 cal yr BP. Variations in our proxy indicators throughout the remainder of the peat sequence suggest a stepwise increase in wetness until the present. A major shift in all of the proxy indicators at ca. 680 cal yr BP (~ 1320 AD) indicates an increase in SW monsoon at 1300 AD, evidence of which is widespread throughout the Asian monsoon region (Morrill et al. 2003). Around this time the once dominant Fragilaria diatoms abruptly diminished to trace abundances, Navicula minima appeared for the first time in the record in relatively high abundances, and epiphytic diatom taxa became more prominent. Circa 1580 to 1730 AD, a substantial cooling was inferred with a reduction to trace levels of the epiphytic proportion of the diatom assemblage and the strong re-appearance of Fragilaria species to abundances of 80 – 90%, not seen before or afterwards in the peat profile. A comparison of the last ~400 years of the peat record with reconstructed spring temperature trend derived from a series of 12 Himalayan tree-ring chronologies (Yadav and Singh 2002) is consistent with our proxy-based inferences from ca. 1600 AD onwards. The high rate of glacier melting over the last few centuries in the Himalayan mountains is a clear demonstration of a warming climate. Our data show that increased glacial meltwaters under this warmer climatic scenario has had a substantial impact on down-slope ecosystems. It appears that the glacial retreats are consistent with the global climate scenario but the resulting melt waters are having localized to regional cooling effects at lower elevation sites over the last few decades.

Published

2008