Your search keyword '"Anson W. Mackay"' showing total 31 results

1. Recent climate-driven ecological changes in tropical montane lakes of Rwenzori Mountains National Park, central Africa

Author

Anson W. Mackay, Rebecca Lee, and James M. Russell

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, biology, National park, Ecology, 010604 marine biology & hydrobiology, Biodiversity, Drainage basin, Climate change, Alpine climate, Glacier, Aquatic Science, biology.organism_classification, 01 natural sciences, Diatom, Glacial period, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Rwenzori Mountains National Park, which straddles the border between the Democratic Republic of Congo and Uganda, has experienced rapid glacier loss since the beginning of the twentieth century, yet there has been little investigation of aquatic biodiversity change in the park. This study presents a paleolimnological analysis from Lake Mahoma (2990 m asl), which is situated in the bamboo-forest transition zone. Diatom and organic geochemistry data from a 39-cm-long sediment core with a basal age of c. 1715 CE were compared with new analyses of previously published data from Lakes Bujuku (3891 m asl) and Lower Kitandara (3989 m asl), in the alpine zone. Comparisons were made to determine if aquatic ecosystem changes exhibited similar inter-lake patterns over the past ~ 150 years of climate warming and glacial recession, or if only local change was apparent. The diatom flora of Lake Mahoma is acidophilous, dominated by Aulacoseira ikapoënsis since at least the mid eighteenth century. In recent decades, the obligate nitrogen-heterotroph Nitzschia palea increased in importance, concurrent with declining δ15Norg values. We suggest that these late twentieth century changes were linked to regional warming and increased thermal stratification of Lake Mahoma. Regional comparisons of the Rwenzori lakes were done using existing organic geochemistry records (total organic carbon, C/N and δ13Corg) and through diatom compositional turnover analyses, and categorisation of species into one of four diatom growth morphology traits, or guilds: tychoplanktonic, high-profile, low-profile and motile. Over the past 150 years, all three lakes showed unidirectional, compositional diatom turnover, indicating that deterministic processes had affected diatom communities. Declining turnover at each site is broadly mirrored by an increase in tychoplanktonic taxa, along with concomitant declines in high-profile diatoms at Lake Mahoma, and low-profile diatoms at Lake Bujuku, and at least for the past 60 years, at Lower Kitandara. The interplay between diatom guilds at all sites is mainly a consequence of competition for available resources. Sediment organic carbon at all sites comes from both autochthonous and allochthonous sources, the relative abundances of which are influenced by the time elapsed since lakes had glaciers in their catchment.

Published

2020

2. Long term trends in aquatic diversity, productivity and stability: a 15,800 year multidecadal diatom study from Lake Baikal, southern Siberia

Author

Patrick Rioual, Anson W. Mackay, George E. A. Swann, Natalia Piotrowska, David Morley, Alistair W. R. Seddon, and Vivian A. Felde

Subjects

Diatom, biology, Productivity (ecology), Ecology, Biodiversity, Environmental science, Climate change, Ecosystem, Glacial period, biology.organism_classification, Freshwater ecosystem, Holocene

Abstract

Biological diversity is inextricably linked to community stability and ecosystem functioning, but our understanding of these relationships in freshwater ecosystems are largely based on short-term observational, experimental, and modelling approaches. Using a multidecadal diatom record for the past 15,800 years from Lake Baikal, we investigate how three ecosystem components – diversity, productivity, and stability – have responded to climate changes on long-timescales. In addition, we investigate how the relationships between diversity, productivity and stability have changed through time in response to these changes. We show that abrupt changes in diatom stability and diversity during the late glacial and early Holocene are part of a network of responses across southern Siberia as a result of extrinsically-forced climate instability. Productivity – diversity relationships were strongly coupled during the late glacial, which we suggest is linked to resource availability, but showed little relationship during the Holocene, perhaps due to few resources being limiting for extended periods of time. For example, periods of low diatom diversity are associated with peak palaeoproductivity, and coincide with climate disturbance events. Such strong negative relationships may reflect resources becoming limiting during palaeoproductivity, leading to monospecific diatom blooms. While species fluctuations respond rapidly to changing resources during much of the Holocene, the ecosystem function of primary production appears to be relatively resilient. Our study provides important perspectives on lake community stability and ecosystem function in relation to rapid periods of climate change.

Published

2020

3. Neoglacial trends in diatom dynamics from a small alpine lake in the Qinling Mountains of central China

Author

Bo Cheng, Qing Zhang, Aifeng Zhou, Jennifer K. Adams, Anson W. Mackay, and Jianhui Chen

Subjects

bepress|Social and Behavioral Sciences|Geography|Physical and Environmental Geography, Stratigraphy, lcsh:Environmental protection, bepress|Life Sciences, lcsh:Environmental pollution, EarthArXiv|Life Sciences, EarthArXiv|Social and Behavioral Sciences|Geography, lcsh:TD169-171.8, EarthArXiv|Social and Behavioral Sciences, Holocene, lcsh:Environmental sciences, lcsh:GE1-350, Global and Planetary Change, biology, Global warming, EarthArXiv|Social and Behavioral Sciences|Geography|Physical and Environmental Geography, Paleontology, Albedo, biology.organism_classification, bepress|Social and Behavioral Sciences|Geography, Arid, Diatom, Disturbance (ecology), Guild, lcsh:TD172-193.5, Period (geology), bepress|Social and Behavioral Sciences, Environmental science, Physical geography

Abstract

During the latter stages of the Holocene, and prior to anthropogenic global warming, the Earth underwent a period of cooling called the neoglacial. The neoglacial is associated with declining summer insolation and changes to Earth's surface albedo. Although impacts varied globally, in China the neoglacial was generally associated with a cooler climate and an attenuated Asian summer monsoon. Few studies in central China, however, have explored the impact of neoglacial cooling on freshwater diversity, especially in alpine regions. Here we take a palaeolimnological approach to characterise multi-decadal variability in diatom community composition, ecological guilds, and compositional turnover over the past 3500 years from the alpine Yuhuang Chi lake on Mount Taibai in the Qinling mountains. Diatoms in the high-profile guild dominate much of the record from 3500 to 615 cal BP, which suggests that few nutrients in the lake were limiting overall, and disturbance and herbivory were likely low. After 615 cal BP, low-profile and planktic guild diatoms increase, suggesting greater turbulence in the lake, alongside a decline in available nutrients. Diatom turnover highlights periods in the lake history when deterministic processes structured diatom communities. For example, an abrupt decline in turnover is coincident with the shift from high- to low-profile diatoms at 615 cal BP, and this is likely due to the onset of the Little Ice Age in the region. We suggest that Yuhuang Chi lake became more shallow during peak regional aridity, which led to the short-lived community restructuring observed in the record.

Published

2019

4. An experiment to assess the effects of diatom dissolution on oxygen isotope ratios

Author

David B. Ryves, George E. A. Swann, Anson W. Mackay, Andrew C. Smith, Michael Hems, Melanie J. Leng, Philip A. Barker, Hilary J. Sloane, and Simon Chenery

Subjects

010504 meteorology & atmospheric sciences, biology, Frustule, Isotope, δ18O, Chemistry, Organic Chemistry, Mineralogy, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Isotopes of oxygen, Analytical Chemistry, Diatom, Water column, Isotope-ratio mass spectrometry, Dissolution, Spectroscopy, 0105 earth and related environmental sciences

Abstract

Rationale Current studies which use the oxygen isotope composition from diatom silica (δ18Odiatom) as a palaeoclimate proxy assume that the δ18Odiatom value reflects the isotopic composition of the water in which the diatom formed. However, diatoms dissolve post mortem, preferentially losing less silicified structures in the water column and during/after burial into sediments. The impact of dissolution on δ18Odiatom values and potential misinterpretation of the palaeoclimate record are evaluated. Methods Diatom frustules covering a range of ages (6 samples from the Miocene to the Holocene), environments and species were exposed to a weak alkaline solution for 48 days at two temperatures (20 °C and 4 °C), mimicking natural dissolution post mucilage removal. Following treatment, dissolution was assessed using scanning electron microscope images and a qualitative diatom dissolution index. The diatoms were subsequently analysed for their δ18O values using step-wise fluorination and isotope ratio mass spectrometry. Results Variable levels of diatom dissolution were observed between the six samples; in all cases higher temperatures resulted in more frustule degradation. Dissolution was most evident in younger samples, probably as a result of the more porous nature of the silica. The degree of diatom dissolution does not directly equate to changes in the isotope ratios; the δ18Odiatom value was, however, lower after dissolution, but in only half the samples was this reduction outside the analytical error (2σ analytical error = 0.46‰). Conclusions We have shown that dissolution can have a small negative impact on δ18Odiatom values, causing reductions of up to 0.59‰ beyond analytical error (0.46‰) at natural environmental temperatures. These findings need to be considered in palaeoenvironmental reconstructions using δ18Odiatom values, especially when interpreting variations in these values of

Published

2015

5. Modelling silicon supply during the Last Interglacial (MIS 5e) at Lake Baikal

Author

Matthew S.A. Horstwood, George E. A. Swann, Anson W. Mackay, Vanessa Pashley, and Virginia N. Panizzo

Subjects

Marine isotope stage, Archeology, Global and Planetary Change, Eemian, 010504 meteorology & atmospheric sciences, biology, Climate change, Geology, Biogenic silica, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Diatom, Interglacial, Environmental science, Physical geography, Quaternary, Ecology, Evolution, Behavior and Systematics, Holocene, 0105 earth and related environmental sciences

Abstract

Limnological reconstructions of primary productivity have demonstrated its response over Quaternary timescales to drivers such as climate change, landscape evolution and lake ontogeny. In particular, sediments from Lake Baikal, Siberia, provide a valuable uninterrupted and continuous sequence of biogenic silica (BSi) records, which document orbital and sub-orbital frequencies of regional climate change. We here extend these records via the application of stable isotope analysis of silica in diatom opal (δ30Sidiatom) from sediments covering the Last Interglacial cycle (Marine Isotope Stage [MIS] 5e; c. 130 to 115 ka BP) as a means to test the hypothesis that it was more productive than the Holocene. δ30Sidiatom data for the Last Interglacial range between +1.29 and +1.78‰, with highest values between c. 127 to 124 ka BP (+1.57 to +1.78‰). Results show that diatom dissolved silicon (DSi) utilisation, was significantly higher (p = 0.001) during MIS 5e than the current interglacial, which reflects increased diatom productivity over this time (concomitant with high diatom biovolume accumulation rates [BVAR] and warmer pollen-inferred vegetation reconstructions). Diatom BVAR are used, in tandem with δ30Sidiatom data, to model DSi supply to Lake Baikal surface waters, which shows that highest delivery was between c. 123 to 120 ka BP (reaching peak supply at c. 120 ka BP). When constrained by sedimentary mineralogical archives of catchment weathering indices (e.g. the Hydrolysis Index), data highlight the small degree of weathering intensity and therefore representation that catchment-weathering DSi sources had, over the duration of MIS 5e. Changes to DSi supply are therefore attributed to variations in within-lake conditions (e.g. turbulent mixing) over the period, where periods of both high productivity and modelled-DSi supply (e.g. strong convective mixing) account for the decreasing trend in δ30Sidiatom compositions (after c. 124 ka BP).

Published

2018

6. Lake Baikal isotope records of holocene Central Asian precipitation

Author

E.G. Vologina, Hilary J. Sloane, Virginia N. Panizzo, George E. A. Swann, Andrea M. Snelling, Anson W. Mackay, Michael Sturm, Matthew Jones, and Melanie J. Leng

Subjects

Archeology, 010504 meteorology & atmospheric sciences, 010502 geochemistry & geophysics, 01 natural sciences, Paleolimnology, Isotopes of oxygen, Russia, Paleoclimatology, Ecosystem, Precipitation, Ecology, Evolution, Behavior and Systematics, Holocene, 0105 earth and related environmental sciences, Global and Planetary Change, biology, Diatom, Geology, Mongolia, biology.organism_classification, Geography, Climate model, Physical geography, sense organs

Abstract

Climate models currently provide conflicting predictions of future climate change across Central Asia. With concern over the potential for a change in water availability to impact communities and ecosystems across the region, an understanding of historical trends in precipitation is required to aid model development and assess the vulnerability of the region to future changes in the hydroclimate. Here we present a record from Lake Baikal, located in the southern Siberian region of central Asia close to the Mongolian border, which demonstrates a relationship between the oxygen isotope composition of diatom silica (?18Odiatom) and precipitation to the region over the 20th and 21st Century. From this, we suggest that annual rates of precipitation in recent times are at their lowest for the past 10,000 years and identify significant long-term variations in precipitation throughout the early to late Holocene interval. Based on comparisons to other regional records, these trends are suggested to reflect conditions across the wider Central Asian region around Lake Baikal and highlight the potential for further changes in precipitation with future climate change.

Published

2018

7. Paleolimnological features of a mega-lake phase in the Makgadikgadi Basin (Kalahari, Botswana) during Marine Isotope Stage 5 inferred from diatoms

Author

Mareike Schmidt, Melanie J. Leng, Markus Fuchs, Frank Riedel, Annette Kossler, Anson W. Mackay, Andrew C. G. Henderson, and Elisha Shemang

Subjects

Marine isotope stage, 010504 meteorology & atmospheric sciences, biology, Sediment, Context (language use), Aquatic Science, Structural basin, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Marine Isotope Stage 5, Oceanography, Diatom, East African Rift, Quaternary, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

The Makgadikgadi–Okavango–Zambezi basin (MOZB) is a structural depression in the south-western branch of the East African Rift System of the northern and middle Kalahari, central southern Africa. In the present day, the mainly dry subbasins of the MOZB are part of a long-lived lacustrine system that has likely existed since Early Pleistocene and from which an extant freshwater fish radiation emerged seeding all major river systems of southern Africa. During hydrologically favourable periods the subbasins were connected as a single mega-lake termed Lake Palaeo-Makgadikgadi. Previous geomorphological studies and OSL dates have provided evidence for repeated mega-lake periods since approximately 300 ka. The environmental and climatic implications of such large scale late Quaternary lake-level fluctuations are controversial, with the duration of mega-lake phases poorly constrained. Here, we present the first evidence for a Marine Isotope Stage (MIS) 5 mega-lake period (about 935–940 m a.s.l.) reconstructed from a diatom-rich, 30-cm-thick lacustrine sediment section, exposed close to a palaeo-shoreline of the Makgadikgadi Basin. Based upon the environmental setting and in comparison with sedimentation rates of other similar lake environments, we tentatively estimated that the highstand lasted approximately 1 ka during MIS 5d–b. The 30-cm section was sampled in 0.5-cm steps. Diatom species diversity ranges from 19 to 30 through the section. The dominant species are Pseudostaurosira brevistriata, Rhopalodia gibberula, Cyclotella meneghiniana and Epithemia sorex. The total of 60 sediment samples provide us with a record at decadal to bi-decadal resolution. Based on diatom assemblages and their oxygen isotope composition (δ18O) we infer an alkaline and mostly oligohaline lake with shallow water conditions prevailing in MIS 5, and is potentially analogous to a Heinrich event. The climate over southern Africa during MIS 5 has been considered very arid but the hydromorphological context of our sediment section indicates that we captured a mega-lake period providing evidence that short-term excursions to significantly higher humidity existed. A hydrologically more favourable environment during MIS 5 than formerly presumed is in line with the early human occupation of the Kalahari.

Published

2017

8. The use of multivariate statistics to resolve multiple contamination signals in the oxygen isotope analysis of biogenic silica

Author

Anson W. Mackay, K. E. Wilson, and Melanie J. Leng

Subjects

Multivariate statistics, biology, δ18O, Fluorescence spectrometry, Paleontology, Mineralogy, Biogenic silica, Contamination, biology.organism_classification, Isotopes of oxygen, Diatom, Arts and Humanities (miscellaneous), Earth and Planetary Sciences (miscellaneous), Tephra, Geology

Abstract

Analysis of the oxygen isotope composition (δ18O) of diatom silica is a commonly used tool for palaeoclimate reconstruction that recent studies have demonstrated may be complicated by the presence of non-diatom detrital material. Such contamination can mask any true climate-driven signal, leading to spurious results. Analysis of the 2.6-Ma Barsemoi diatomites from the East African Rift Valley highlights the presence of both tephra and clay in purified samples. Here we present a new method for assessing the relative contribution and geochemical composition of contamination components where sedimentary samples may be affected by more than one type of contamination. This approach shows that the incorporation of analytical techniques, such as X-ray fluorescence spectrometry, coupled with statistical modelling, can be used to develop a three end-member model to successfully resolve climate-driven changes in δ18Odiatom. Mass-balance corrections made to δ18Odiatom data demonstrate the importance of adopting quantitative geochemical analysis in tandem with the δ18O analysis of biogenic silica, to obtain accurate and meaningful results for palaeoclimate reconstruction.

Published

2014

9. Correction: Diatom evidence of 20th century ecosystem change in Lake Baikal, Siberia

Author

Michael Sturm, Suzanne McGowan, Elena G. Vologina, George E. A. Swann, Anson W. Mackay, Sarah Roberts, and Virginia N. Panizzo

Subjects

Multidisciplinary, Oceanography, Diatom, Geography, biology, Ecosystem change, lcsh:R, lcsh:Medicine, lcsh:Q, lcsh:Science, biology.organism_classification

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0208765.].

Published

2019

10. Hydrological instability during the Last Interglacial in central Asia: a new diatom oxygen isotope record from Lake Baikal

Author

David Morley, Nathalie Fagel, Pavel E. Tarasov, Melanie J. Leng, Patrick Rioual, Susanne Fietz, George E. A. Swann, and Anson W. Mackay

Subjects

δ18Odiatom, Archeology, Global and Planetary Change, geography, geography.geographical_feature_category, biology, Steppe, Drainage basin, Geology, Westerlies, biology.organism_classification, Last Interglacial, Isotopes of oxygen, Oceanography, Diatom, Interglacial, AMOC, Lake Baikal, Bond events, Ecology, Evolution, Behavior and Systematics, Holocene, Teleconnection

Abstract

Last Interglacial variability is commonly used as an analogue for variability in a future, warmer world. Pervasive cycles are increasingly apparent in Last Interglacial archives, although studies in continental regions are under-represented. Here we provide a new isotopic record of diatom silica (δ18Odiatom) spanning c. 127.5–115 ka BP from Lake Baikal in central Asia. Peak rain-fed discharge occurred c. 125.4 ka BP, shortly after July insolation maximum and initiation of Siberian soil development. Between 127 and 119.7 ka BP there are six marked fluctuations in δ18Odiatom values, with a pacing of approximately 1.26 ± 0.3 ka, similar to fluctuations of within lake productivity. Fluctuations in δ18Odiatom values show good agreement with patterns in Atlantic meridional overturning circulation (AMOC), supporting hypothesis of strong teleconnections via the Westerlies between the North Atlantic and central Asia. Two periods of low δ18Odiatom values are especially notable. The earliest between c. 126.5 and 126 ka BP is concurrent with the final stages of the Heinrich 11. The second between 120.5 and 119.7 ka BP is also concurrent with an increase in ice-rafted debris in the North Atlantic. Aquatic productivity in Lake Baikal increased between 119.7 and 117.4 ka BP before declining to the top of the record (115 ka BP) concomitant with a shift to predominately cool steppe catchment vegetation. However, isotopic composition of discharge into Lake Baikal provides evidence for strong penetration of Westerlies into central Asia during the latter stages of the Last Interglacial. Variability in δ18Odiatom values was compared between the Last Interglacial and the Holocene. Millennial-scale variability was significantly more stable during the Last Interglacial, possibly linked to diminished influence of freshwater discharge on AMOC during periods of higher, global mean temperatures.

Published

2013

11. Recent palaeolimnological change recorded in Lake Xiaolongwan, northeast China: Climatic versus anthropogenic forcing

Author

Patrick Rioual, Virginia N. Panizzo, Anson W. Mackay, Melanie J. Leng, and Neil L. Rose

Subjects

geography, geography.geographical_feature_category, biology, Northern Hemisphere, Drainage basin, Growing season, biology.organism_classification, Maar, Diatom, Oceanography, Productivity (ecology), Benthic zone, Radiometric dating, Geology, Earth-Surface Processes

Abstract

Lake Xiaolongwan is a closed maar lake located in the Long Gang Volcanic Field, northeast China. Core XLW2 was collected in 2007 from the central region of the lake and provides a palaeoecological reconstruction over the past ca. 130 years (dated using radiometric methods: 210Pb and 137Cs). Diatom floristic changes and catchment productivity (carbon isotope ratios) were analysed within the core. Indicators of atmospheric pollution (XRF and SCP inventories) were also measured. Results show a marked transition from a dominant benthic assemblage to a planktonic one (increasing P:B ratios) starting after ca. 1940 AD, becoming most prominent after ca. 1980 AD (P:B > 1). Most notable floristic changes result from the increase in the planktonic species Discostella woltereckii. These changes are concomitant with increased temperature trends from the region and reconstructed temperature anomalies of the Northern Hemisphere. SCP concentrations and flux rates also increase after ca. 1950 AD, with highest values seen at ca. 1980 AD after which values decline. Normalised elemental geochemistry (e.g. Pb/Ti) also show marked changes after ca. 1970 AD, most likely derived from atmospheric deposition of Pb. The recent increase in D. woltereckii precedes anthropogenic contamination (Pb/Ti) at the site and persists after the decline in SCP concentrations. This suggests that the recent increases are driven by increased mean annual temperature trends. These temperature trends may be manifested as changes in ice cover persistence, a longer growing season and/or increased DOC at Lake Xiaolongwan: conditions for which planktonic species have a more competitive advantage.

Published

2013

12. Insights into the transfer of silicon isotopes into the sediment record

Author

Anson W. Mackay, Michael Sturm, Virginia N. Panizzo, E.G. Vologina, Vanessa Pashley, George E. A. Swann, and Matthew S.A. Horstwood

Subjects

Hydrology, Biogeochemical cycle, biology, 010504 meteorology & atmospheric sciences, lcsh:QE1-996.5, lcsh:Life, Sediment, Structural basin, biology.organism_classification, 010502 geochemistry & geophysics, 01 natural sciences, lcsh:Geology, lcsh:QH501-531, Water column, Diatom, Oceanography, lcsh:QH540-549.5, Dominance (ecology), lcsh:Ecology, Bloom, Surface water, Ecology, Evolution, Behavior and Systematics, Geology, Earth-Surface Processes, 0105 earth and related environmental sciences

Abstract

The first δ30Sidiatom data from lacustrine sediment traps are presented from Lake Baikal, Siberia. Data are compared with March surface water (upper 180 m) δ30SiDSi compositions for which a mean value of +2.28‰ ± 0.09 (95 % confidence) is derived. This value acts as the pre-diatom bloom baseline silicic acid isotopic composition of waters (δ30SiDSi initial). Open traps were deployed along the depth of the Lake Baikal south basin water column between 2012 and 2013. Diatom assemblages display a dominance ( > 85 %) of the spring/summer bloom species Synedra acus var radians, so that δ30Sidiatom compositions reflect predominantly spring/summer bloom utilisation. Diatoms were isolated from open traps and, in addition, from 3-monthly (sequencing) traps (May, July and August 2012) for δ30Sidiatom analyses. Mean δ30Sidiatom values for open traps are +1.23‰ ± 0.06 (at 95 % confidence and MSWD of 2.9, n = 10). Total dry mass sediment fluxes are highest in June 2012, which we attribute to the initial export of the dominant spring diatom bloom. We therefore argue that May δ30Sidiatom signatures (+0.67‰ ± 0.06, 2σ) when compared with mean upper water δ30SiDSi initial (e.g. pre-bloom) signatures can be used to provide a snapshot estimation of diatom uptake fractionation factors (ϵuptake) in Lake Baikal. A ϵuptake estimation of −1.61 ‰ is therefore derived, although we emphasise that synchronous monthly δ30SiDSi and δ30Sidiatom data would be needed to provide more robust estimations and therefore more rigorously test this, particularly when taking into consideration any progressive enrichment of the DSi pool as blooms persist. The near-constant δ30Sidiatom composition in open traps demonstrates the full preservation of the signal through the water column and thereby justifies the use and application of the technique in biogeochemical and palaeoenvironmental research. Data are finally compared with lake sediment core samples, collected from the south basin. Values of +1.30‰ ± 0.08 (2σ) and +1.43‰ ± 0.13 (2σ) were derived for cores BAIK13-1C (0.6–0.8 cm core depth) and at BAIK13-4F (0.2–0.4 cm core depth) respectively. Trap data highlight the absence of a fractionation factor associated with diatom dissolution (ϵdissolution) (particularly as Synedra acus var radians, the dominant taxa in the traps, is very susceptible to dissolution) down the water column and in the lake surface sediments, thus validating the application of δ30Sidiatom analyses in Lake Baikal and other freshwater systems, in palaeoreconstructions.

Published

2016

13. A reassessment of late glacial - Holocene diatom oxygen isotope record from Lake Baikal using a geochemical mass-balance approach

Author

Patrick Rioual, Natalia Piotrowska, David Morley, Anson W. Mackay, Tim S. Brewer, Dustin White, George E. A. Swann, and Melanie J. Leng

Subjects

Delta, biology, Paleontology, Fluvial, Biogenic silica, biology.organism_classification, Oceanography, Diatom, Arts and Humanities (miscellaneous), Paleoclimatology, Earth and Planetary Sciences (miscellaneous), Glacial period, Younger Dryas, Holocene, Geology

Abstract

We present a new palaeoenvironmental record of hydrological variability in Lake Baikal, based on re-modelled delta O-18(diatom) values of diatom silica (delta O-18(modelled)), where the residual contaminants are identified and compensated for using electron optical imaging and whole-sample geochemistry. delta O-18(modelled) interpretations are based on the balance between rivers with high delta O-18 values and rivers with low delta O-18 values. Isotopic variability is related to latitudinal differences in precipitation which feed these rivers. The delta O-18(modelled) record suggests that rather moist conditions prevailed in the Lake Baikal region during the latter stages of the Younger Dryas. Throughout the Holocene, episodes of low delta O-18(modelled) values are, in general, in good agreement with increases in percentage haematite-stained grains in North Atlantic sediments (indicative of ice-rafted debris events). Rivers with southerly catchments dominate fluvial input especially between c. 3.3 and 2 cal ka BP, concurrent with high precipitation in the Lake Baikal region. Copyright (C) 2011 John Wiley & Sons, Ltd.

Published

2011

14. Diatom sensitivity to hydrological and nutrient variability in a subtropical, flood-pulse wetland

Author

Selina Woodward, Piotr Wolski, Anson W. Mackay, Martin C. Todd, Richard Mazebedi, Wellington R.F. Masamba, and Thomas Davidson

Subjects

Hydrology, Delta, geography, geography.geographical_feature_category, Ecology, Floodplain, Biplot, biology, Generalized additive model, Species diversity, Aquatic Science, biology.organism_classification, Diversity index, Diatom, Principal component analysis, Environmental science, Ecology, Evolution, Behavior and Systematics, Earth-Surface Processes

Abstract

The principal aim of this study was to disentangle hydrochemical influences on primary producers in a pristine, flood-pulse ecosystem. This was undertaken by analysing diatoms from 100 sample points from hydrologically distinct regions in the Okavango Delta, Botswana. Cluster analysis was undertaken using two-way indicator species analysis (TWINSPAN), and groups used to classify sample points in a principal components analysis (PCA) biplot. Linear discriminant analysis (LDA) was performed using hydrological data and diatom guilds as explanatory variables. A series of ordinations using redundancy analysis (RDA) was undertaken to assess which variables significantly accounted for diatom variation across the Delta. Species-response curves for major taxa were generated using generalized additive models (GAMs). Cluster analysis revealed six distinct groups. Groups 5 and 6 consisted mainly of seasonally inundated floodplain sites, which lay at one end of a significant gradient revealed by PCA. Floodplain diatoms were characteristically N-heterotrophs, requiring elevated concentrations of key resources such as total nitrogen (TN) and SiO2. Using forward selection, constrained RDA reveals five variables were significant in explaining diatom distributions across the Delta: hydroperiod class, flood frequency, flow velocity and nutrients SiO2 and TN. Species-response curves show that motile diatoms were most abundant in seasonally inundated floodplains. Species diversity was significantly higher in the upper Panhandle region of the Delta, which may be related to moderate levels of disturbance and increased resource limitation. Species diversity was significantly lower during the period of maximum flood extent, which may in turn be related to fewer limiting resources.

Published

2011

15. Palaeolimnological evidence of environmental change over the last 400 years in the Rwenzori Mountains of Uganda

Author

Melanie J. Leng, Gayle McGlynn, Richard G. Taylor, Anson W. Mackay, Daniel R. Engstrom, and Neil L. Rose

Subjects

geography, geography.geographical_feature_category, biology, Environmental change, Ecology, Climate change, Glacier, Aquatic Science, biology.organism_classification, Diatom, Paleoecology, Dominance (ecology), Ecosystem, Glacial period

Abstract

Tropical alpine areas may be highly sensitive to climate change. Yet, because high-resolution palaeoenvironmental studies in these regions are scant, patterns of environmental change over the last few centuries, and linkages with regional changes, remain poorly resolved. This article presents a 400-year palaeolimnological record from Lower Kitandara Lake (3,989 m above m.a.s.l.), located in the Rwenzori Mountains of Uganda, where marked glacial recession has been recorded over much of the twentieth century. An age model is produced for a 57.5 cm sediment core based on 210Pb and 14C dating, suggesting a basal date of approximately 1600 AD. Diatom and organic geochemistry (%TOC, C/N ratios, δ13C) analyses are carried out at an approximately decadal resolution. Twentieth-century glacial recession does not appear to have significantly impacted either the diatom or geochemical records. However, large ecological changes have occurred during the past 400 years, particularly shown by the diatom fluxes and geochemical data. Throughout the core, the diatom record reveals only minor changes in assemblage composition, which may be related to the dominance of Staurosira construens var. venter in the lake’s diatom flora, a tychoplanktonic taxon which is highly adaptive to environmental change. Geochemical analyses, however, reveal a marked change at around the end of the eighteenth century, when C/N ratios suggest an increase in the dominance of algal aquatic sources to lacustrine organic matter, concomitant with a stabilisation of catchment inputs and increased diatom productivity, which may have been caused by reduced glacial inputs. The relationship between these changes at Lower Kitandara Lake and wider regional climate change that occurred at the end of the eighteenth century is not well understood, but this study highlights the need for additional research to link drivers of alpine ecosystem change with those operating at low altitudes.

Published

2010

16. Diatom and stable isotope records of late-Holocene lake ontogeny at Indrepollen, Lofoten, NW Norway: a response to glacio-isostasy and Neoglacial cooling

Author

Keely Mills, Bruce P. Finney, Anson W. Mackay, and Raymond S. Bradley

Subjects

Archeology, Global and Planetary Change, geography, geography.geographical_feature_category, Ecology, biology, Lithostratigraphy, Paleontology, Fjord, biology.organism_classification, Oceanography, Diatom, Sedimentary organic matter, Sedimentary rock, Quaternary, Geology, Sea level, Holocene, Earth-Surface Processes

Abstract

Borg Indrepollen is a coastal lake on the island of Vestvågøy, Lofoten, NW Norway. A sedimentary sequence spanning the last 4500 cal. yr BP was analysed for diatom, C/N and stable isotopes (δ13C and δ15 N). The record provides clear evidence of glacio-isostatic rebound in the Lofoten region. Five distinct lithostratigraphic-geochemical zones (I—V) and four major diatom zones (A—D) were identified. The early record (I—III, A—Biii; 4500—550 cal. yr BP) contains coarse sedimentary material and diatoms indicative of more marine conditions. The correlation between the isotopic data (high δ13C and low C/N) and trends in the biological data (marine/brackish flora) suggest the marine influence on the Indrepollen basin is a controlling factor of the source of organic material. The latter part of the record (IV, C; 550 cal. yr 550—226) indicates a transitional phase from marine-dominated diatom to brackish taxa and is coincident with a section of microlaminations in the core. The youngest zone (V, D; 226 cal. yr BP—present) is indicative of an isolated basin, with the deposition of fine sediments; freshwater diatom taxa dominate the biological record and δ13C are indicative of freshwater conditions. C/N suggests a shift to a terrestrial source of organic matter. The proxies show a transition from full marine conditions, when Indrepollen was a submerged fjord, to more freshwater, lacustrine conditions in the last 200 years. The record of land uplift from Borg Indrepollen mirrors changes in sedimentary records from across Northern Norway and relative sea-level curves for the region.

Published

2009

17. Reconstructing hydrological variability in Lake Baikal during MIS 11: an application of oxygen isotope analysis of diatom silica

Author

Anson W. Mackay, Melanie J. Leng, Galina K. Khursevich, Virginia N. Panizzo, Hilary J. Sloane, David Morley, Eugene B. Karabanov, and Douglas F. Williams

Subjects

geography, geography.geographical_feature_category, biology, Northern Hemisphere, Paleontology, Biogenic silica, biology.organism_classification, Marine Isotope Stage 11, Diatom, Oceanography, Arts and Humanities (miscellaneous), Paleoclimatology, Earth and Planetary Sciences (miscellaneous), Stadial, Glacial period, Ice sheet, Geology

Abstract

In this paper we reconstruct hydrological variability in Lake Baikal during Marine Isotope Stage 11 (MIS 11) (427-362 ka BP) from oxygen isotope analysis of diatom silica. Highest d 18 Odiatom values are found during MIS 11.3, highlighting the dominance of hydrological input from rivers flowing into the south and central basins of Lake Baikal, especially the Selenga River. Hydrological input from south basin rivers dominated for over 30 ka. However, there is evidence from both biogenic silica and d 18 Odiatom records for an abrupt cooling event at ca. 390 ka BP. Stadial conditions at this time are coincident with an iceberg discharge event into the North Atlantic. The decline in d 18 Odiatom values suggests increasing proportion of hydrological input from rivers to the north of Lake Baikal, due to greater influence of winter precipitation and snow-melt. After a period of interstadial conditions during the early stages of MIS 11.1, biogenic silica and d 18 Odiatom values decline, mirroring the slow growth in Northern Hemisphere ice sheets. Despite rigorous cleaning procedures, palaeoclimatic inferences need to be treated with caution due to contamination of the d 18 Odiatom record; during stadial and glacial periods, contamination of the d 18 Odiatom record is even more significant. # Natural Environment Research Council (NERC) copyright 2008. Reproduced with the permission of NERC. Published by John Wiley & Sons, Ltd.

Published

2008

18. A 140-year record of recent changes in aquatic productivity in a remote, tropical alpine lake in the Rwenzori Mountain National Park, Uganda

Author

V.N. Panizzo, Melanie J. Leng, Neil L. Rose, Immaculate Ssemmanda, Anson W. Mackay, and Richard G. Taylor

Subjects

geography, geography.geographical_feature_category, biology, Environmental change, National park, Ecology, Climate change, Glacier, Aquatic Science, biology.organism_classification, Fragilaria, Diatom, Productivity (ecology), Glacial period, Geology, Earth-Surface Processes

Abstract

Environmental change in many tropical, alpine habitats remains poorly resolved due to an absence of proximate and sustained observations. In the Rwenzori Mountains of East Africa, glaciers have receded rapidly over the last century, and here we assess the impact of this recession through palaeolimnological analyses of a 45 cm sediment core (Buju3) from Lake Bujuku which is closest to the ice-fields and partly supplied by melt water in-flows. 210Pb and 137Cs suggest that Buju3 has an average sedimentation rate of 2.9 mm year−1 and the base of the core can be dated to 1864 ± 20 years. Contemporary diatom taxa found in the lake are dominated by Tabellaria flocculosa and Synedra spp., but also include Achnanthes minutissima and Fragilaria pinnata. However, the diatom flora for Buju3 is less diverse and dominated by small, tychoplanktonic species of Fragilaria. Over the period associated with glacial recession, organic carbon isotope analysis (δ13C) suggests a small but distinct increase in within-lake productivity, which increases in rate since the mid 1970s up to the present day, in line with a shift towards increased algal productivity (as highlighted by C/N ratios). However, the diatom and pollen records appear rather insensitive to changes in glacier recession since the late 19th century.

Published

2007

19. The paleoclimatology of Lake Baikal: A diatom synthesis and prospectus

Author

Anson W. Mackay

Subjects

Siberian High, Oceanography, Diatom, biology, Interglacial, Paleoclimatology, General Earth and Planetary Sciences, Thermohaline circulation, Glacial period, Biogenic silica, biology.organism_classification, Holocene, Geology

Abstract

The paleoclimatic archive held in Lake Baikal sediments is of significant importance, given the lake's position in one of the world's most continental regions where there are few continuous, high quality records spanning the Quaternary. Here I review diatom and associated biogenic silica records from Lake Baikal sediments and provide a paleoclimatic synthesis of changes at various timescales over the Quaternary. I initially highlight major climatic and hydrological aspects of Lake Baikal, as understanding the contemporary system (both regionally and within the lake) are fundamental to understanding past change interpreted from the sedimentary archive. In this respect, special attention is given to factors that can affect the integrity of the diatom record, most notably dissolution processes. These mechanisms are likely to have had a relatively greater impact on the preservation of diatom valves during glacial periods because of overall lower diatom productivity. Lower diatom numbers and relative increased dissolution during cold periods explains the lack of diatoms and low biogenic silica concentrations found in the lake sediments during glacial periods. The biogenic record highlights the nature of the 100 ka cycle especially during the last 800 ka, although there is also a strong precessional component. Further work is needed to reassess biological responses in Lake Baikal with respect to different orbital forcing mechanisms, together with their impacts on evolution and speciation of diatoms. The biological record from Lake Baikal confirms that the last interglacial in central Asia lasted approximately 10.5 ka. Productivity in the lake (as inferred from diatom biovolume accumulation rates) exhibits millennial-scale variability with the occurrence of centennial-scale reductions in diatom biomass throughout the last interglacial period. The most severe reduction in diatom biomass (at c. 120 ka BP) is concurrent with millennial-scale cooling in the North Atlantic region. Links to changes in North Atlantic ocean thermohaline circulation via teleconnections are also evident in the nature of the abrupt ecological changes in the lake throughout the last 60 ka, linked to ice-rafting into the North Atlantic, otherwise known as Heinrich events. New robust radiocarbon chronologies for sediments deposited during the late glacial and Holocene in Lake Baikal allow detailed, multi-decadal records to be constructed for the last 14,000 years. Cooling events associated with millennial-scale cycles are also apparent in the Lake Baikal record, and both the diatom record and oxygen isotope record of the diatom silica highlight that biological responses to these abrupt events are almost simultaneous. Comparisons made between Lake Baikal records with others worldwide highlights that many of the Holocene cooling events are associated with melt-water outburst from the Laurentide ice sheet, and changes in solar insolation. During the last 1000 years, snow cover on Lake Baikal has been inferred from past diatom assemblages, and is closely linked to weakening of the North Atlantic Oscillation, allowing increasing intensity of the Siberian High to develop and during the 17th and 18th centuries. In the last 150 years, diatom species have been shown to be sensitive indicators of recent warming. However, impacts from future global warming will be complex, and are likely to impact not only on the balance between endemic and cosmopolitan diatoms throughout the lake, but on the balance between siliceous and non-siliceous algae, and sources of primary productivity.

Published

2007

20. A High-resolution diatom-inferred palaeoconductivity and lake level record of the Aral Sea for the Last 1600 yr

Author

Anson W. Mackay, Melanie J. Leng, Olga Palagushkina, and Patrick Austin

Subjects

Mediterranean climate, 010506 paleontology, Irrigation, 010504 meteorology & atmospheric sciences, biology, Present day, Structural basin, biology.organism_classification, 01 natural sciences, Paleolimnology, Natural (archaeology), Oceanography, Diatom, Arts and Humanities (miscellaneous), General Earth and Planetary Sciences, Geology, Holocene, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Formerly the world's fourth largest lake by area, the Aral Sea is presently undergoing extreme desiccation due to large-scale irrigation strategies implemented in the Soviet era. As part of the INTAS-funded CLIMAN project into Holocene climatic variability and the evolution of human settlement in the Aral Sea basin, fossil diatom assemblages contained within a sediment core obtained from the Aral Sea have been applied to a diatom-based inference model of conductivity (r2 = 0.767, RMSEP = 0.469 log10 μS cm− 1). This has provided a high-resolution record of conductivity and lake level change over the last ca. 1600 yr. Three severe episodes of lake level regression are indicated at ca. AD 400, AD 1195–1355 and ca. AD 1780 to the present day. The first two regressions may be linked to the natural diversion of the Amu Darya away from the Aral Sea and the failure of cyclones formed in the Mediterranean to penetrate more continental regions. Human activity, however, and in particular the destruction of irrigation facilities are synchronous with these early regressions and contributed to the severity of the observed low stands.

Published

2007

21. 1000 years of climate variability in central Asia: assessing the evidence using Lake Baikal (Russia) diatom assemblages and the application of a diatom-inferred model of snow cover on the lake

Author

Patrick Rioual, Anson W. Mackay, David B. Ryves, Richard W. Battarbee, Roger J. Flower, Michael Sturm, and David H. Jewson

Subjects

Global and Planetary Change, biology, Stratification (water), Structural basin, Oceanography, biology.organism_classification, Snow, Diatom, Anticyclone, Phytoplankton, Period (geology), Sedimentary rock, Geology

Abstract

The mainly endemic phytoplankton record of Lake Baikal has been used in this study to help interpret climate variability during the last 1000 years in central Asia. The diatom record was derived from a short core taken from the south basin and has been shown to be free from any sedimentary heterogeneities. We employ here a diatom-based inference model of snow accumulation on the frozen lake for the first time (r 2=0.709; RMSEP=0.120 log cm). However, palaeoenvironmental reconstructions have been improved by the use of correction factors, specifically developed for the dominant phytoplankton (Aulacoseira baicalensis, Aulacoseira skvortzowii, Cyclotella minuta, Stephanodiscus meyerii and Synedra acus) in the south basin of Lake Baikal. Cluster analysis identifies three significant zones in the core, zone 1 (c. 880 AD–c. 1180 AD), zone 2 (c. 1180–1840 AD) and zone 3 (c. 1840–1994 AD), coincident with the Medieval Warm Period (MWP), the Little Ice Age (LIA) and the period of recent warming, respectively. Our results indicate that S. acus dominated the diatom phytoplankton within zone 1 coincident with the MWP. S. acus is an opportunistic species that is able to increase its net growth when A. baicalensis does not. During this period, conditions are likely to have been unfavourable for the net increases in A. baicalensis growth due to the persistence of warm water in the lake, together with an increased length of summer stratification and delay in timing of the autumnal overturn. In zone 2, spring diatom crops blooming under the ice declined in abundances due in part to increased winter severity and snow cover on the lake. Accumulating snow on the lake is likely to have arisen from increased anticyclonic activity, resulting in prolonged winters expressed during the LIA. Thick, accumulating snow cover inhibits light penetration through the ice, thereby having negative effects on cell division rate and extent of turbulence underneath the ice. Consequently, only taxa whose net growth occurs during autumn overturn (C. minuta) predominate in the lake at this time. Diatom census data and reconstructions of snow accumulation suggest that warming in the Lake Baikal region started as early as c. 1750 AD, with a

Published

2005

22. A diatom record of centennial resolution for the Kazantsevo Interglacial stage in Lake Baikal (Siberia)

Author

Anson W. Mackay and Patrick Rioual

Subjects

Global and Planetary Change, Paleomagnetism, Eemian, biology, Holocene climatic optimum, Structural basin, Oceanography, biology.organism_classification, Diatom, Interglacial, Period (geology), Sedimentary rock, Geology

Abstract

Diatom analysis of a sediment core from the Northern basin of Lake Baikal (Siberia) has been carried out with focus on the Kazantsevo Interglacial period (equivalent to the Eemian in Europe). The age model, based on palaeomagnetism, indicates that this stage lasted about 11,000 years in the region of Lake Baikal, from ca. 128 to 117 ky BP. Diatom data (sampling resolution of 1-cm interval, ca. 130 years), including both relative percentage and biovolume accumulation rate (BVAR) data, are used to infer past limnological conditions and the climatic factors that drove them. Our record reveals that peak interglacial conditions, characterized by highest diatom production, occurred between ∼124 and 120 ky BP. During that period, the diatom record suggests stable, warm and moist conditions. This climatic optimum is then interrupted by a low amplitude cold event at ∼120 ky BP. The last part of the interglacial in Lake Baikal, between ∼120 and ∼117 ky BP, is marked by colder and probably drier climate. Low-resolution diatom analysis spanning the Kazantsevo was also carried out on another core taken further south at Academician Ridge. Diatom successions at the two sites investigated were remarkably similar suggesting that our sedimentary records are complete and representative for at least a large part of Lake Baikal.

Published

2005

23. Differential dissolution of Lake Baikal diatoms: correction factors and implications for palaeoclimatic reconstruction

Author

David B. Ryves, Richard W. Battarbee, Michael Sturm, David H. Jewson, and Anson W. Mackay

Subjects

Global and Planetary Change, biology, Ecology, Sediment, Structural basin, Biogenic silica, Plankton, Oceanography, biology.organism_classification, Water column, Diatom, Phytoplankton, Holocene, Geology

Abstract

In order to assess how faithfully the composition of diatom assemblages in the recent sediments of Lake Baikal represents the composition of the planktonic diatom populations in the lake, we have compared the flux of diatoms from the water column (i.e., "expected' in the sediment) with the accumulation rates of the same diatom taxa (i.e., "observed' in the sediment) from BAIK 38, a sediment core collected in the south basin of the lake. Whilst there are many uncertainties, the results indicate that only approximately 1% of the phytoplankton crop is preserved in the sediment and some species are more affected by dissolution than others. These findings are comparable to similar studies undertaken in the marine environment. In terms of differential dissolution, our studies suggest that the endemic taxa (e.g., Cyclotella minuta and Aulacoseira baicalensis) are the most resilient, whereas cosmopolitan taxa such as Nitzschia acicularis and Synedra acus are the least resilient. N. acicularis dissolves in the water column, but for other taxa, most dissolution takes place at the surface sediment-water interface. We use the data to develop a series of species-specific correction factors that allow the composition of the source populations to be reconstituted, and we argue that failure to take these processes into account can undermine the use of the diatom and biogenic silica record in Lake Baikal for palaeo-productivity and palaeoclimate reconstruction. (C) 2004 Elsevier B.V. All rights reserved.

Published

2005

24. Quantitative and qualitative relationships between planktonic diatom communities and diatom assemblages in sedimenting material and surface sediments in Lake Baikal, Siberia

Author

Anson W. Mackay, Nikolai Granin, David H. Jewson, David B. Ryves, Richard W. Battarbee, Roger J. Flower, and Michael Sturm

Subjects

biology, fungi, Sediment, Aquatic Science, Sedimentation, Plankton, Oceanography, biology.organism_classification, Deposition (geology), Water column, Diatom, Interglacial, Phytoplankton, Geology

Abstract

Endemic planktonic diatoms are a major component of Lake Baikal sediments during interglacial periods. To investigate how these diatom assemblages are altered during sediment formation, quantitative plankton monitoring (1995‐1998) was integrated with sediment trapping over 2 yr (1996‐1997) in Baikal’s southern basin (depth ;1,400 m). The traps consisted of both open (;6 monthly) and sequential (;2 weekly) collectors deployed throughout the water column. Sedimentation was seasonal, with diatom species composition, valve abundance, and total dry mass reflecting changes in the planktonic communities. Sedimented assemblages were transmitted largely intact to the deepest traps (;1,300‐1,390 m); some compositional blurring occurred from differential sinking rates and dissolution of diatom valves. A rapid mass flux event of Aulacoseira skvortzowii and A. baicalensis was recorded in summer 1997 with particle sinking rates between 60 and 100 m d 21 and dry mass fluxes . 5gm 22 d 21 . Although dissolution was evident for all species, more delicate taxa were preferentially affected (e.g., A. skvortzowii vegetative cells and fineSynedra species), whereas Nitzschia acicularis valves were almost entirely dissolved within the water column. Comparing trap and plankton diatom assemblages with those in nearby core tops demonstrated that a fundamental taphonomic change occurs in the surface sediment, with sedimentary diatom accumulation rates being only about 1% of trap deposition and plankton production rates. Dissolution was significant in explaining 5‐30% of species variance between all taphonomic levels (plankton, trap samples, and surface sediments). Results indicate that diatom-based paleoclimatic records in Lake Baikal sediments could be improved and refined by taking taphonomic considerations into account.

Published

2003

25. Climate change in Lake Baikal: diatom evidence in an area of continuous sedimentation

Author

David H. Jewson, M. Sturm, Richard W. Battarbee, M. Bangs, JA Lees, E.G. Vologina, Roger J. Flower, and Anson W. Mackay

Subjects

Diatom, Oceanography, biology, General Earth and Planetary Sciences, Climate change, Sediment, Ecological succession, Structural basin, Sedimentation, Sedimentology, biology.organism_classification, Geology, Turbidite

Abstract

The presence of inhomogeneous sedimentation is acknowledged as being an important problem in palaeolimnological studies. Sediment records can be disturbed by erosional and redepositional events, which redeposit microfossils within a basin and may then lead to misinterpretations of fossil diatom assemblages. This study uses a combination of sedimentological tools, magnetic susceptibility measurements and high-resolution diatom analysis to show that a sediment core, BAIK80, taken in 345 m water depth from a shoulder region in the North Basin of Lake Baikal, is free of disturbances. Our results confirm that the sediment record is consistent and continuous for the uppermost sediment. Consequently, the fossil diatom data can be used to establish a continuous record of past climate variability over approximately the past 1300 years. Distinct changes occur in downcore abundances of endemic taxa Aulacoseira baicalensis and Cyclotella minuta, and principal components analysis (PCA) indicates a gradual transformation of taxa over the past 1300 years. These changes are likely to be related to climate, although definite links still have to be established.

Published

2000

26. Diatom succession trends in recent sediments from Lake Baikal and their relation to atmospheric pollution and to climate change

Author

Roger J. Flower, Neil L. Rose, Richard W. Battarbee, Anson W. Mackay, L. Z. Granina, Peter G. Appleby, John Boyle, and AE Kuzmina

Subjects

geography, geography.geographical_feature_category, biology, Environmental change, Ecology, Drainage basin, Sediment, Structural basin, biology.organism_classification, Article, General Biochemistry, Genetics and Molecular Biology, Deposition (geology), Diatom, Oceanography, Environmental science, Box corer, General Agricultural and Biological Sciences, Eutrophication

Abstract

Recent environmental change in Lake Baikal has been attributed to anthropogenic influences on the ecosystem, especially through pollution and cultural eutrophication. These hypotheses are tested in this paper principally by diatom analyses in 20 short sediment cores. Most of the cores were collected with a new type of box corer specifically designed for use on Lake Baikal. Most cores contain a good sediment record but turbidites occur in some sediment profiles which may be best recognized using a combination of techniques, such as radiometric dating and percentage dry weight analyses. The most recent sediments, especially those in the southern basin and in the very north of Baikal, contain a record of anthropogenic contamination in the form of lead and spheroidal carbonaceous particles, which confirms that the southern basin of Baikal is most affected by atmospheric sources of pollution. However, there is no sedimentary diatom evidence indicating offshore water quality deterioration in Baikal owing to air pollution or eutrophication. Small increases in diatoms which indicate nutrient enrichment (e.g. Stephanodiscus minutulus , Synedra acus v. radians and Synedra acus v. acus ) may reflect local eutrophication of the shallow waters close to the Selenga Delta and certain coastal sites in the southern basin near to the Baikalsk paper and pulp mill. By using numerical techniques, Lake Baikal can be split into at least four regions on the basis of its surface sediment flora: the south, middle and north basins, and the shallow waters surrounding the Selenga Delta region. Diatom analyses reveal that the endemic flora of Lake Baikal has been constantly changing over at least the last 2000 years and that these fluctuations are probably responses to natural climatic variability. Recent sediments of Baikal may be affected by taphanomic processes (e.g. dissolution) and turbidite deposition, and these must be taken into account when interpreting the sedimentary diatom record. The diatom flora of the lake is currently dominated by several species, such as Aulacoseira baicalensis , A. islandica , Cyclotella minuta and Stephanodiscus binderanus v. baicalensis . All these species, except for C. minuta , have become more common in the lake in approximately the last 130 years, and we hypothesize that these changes may be attributed to a number of different processes linked to an ameliorating climate after the end of the Little Ice Age. The results presented here have important implications for this recently designated World Heritage Site, with regard to future pollution controls and catchment management policies.

Published

1998

27. Sedimentary records of recent environmental change in Lake Baikal, Siberia

Author

AE Kuzmina, L. Z. Granina, J.L. Boyle, Neil L. Rose, John A. Dearing, Peter G. Appleby, Anson W. Mackay, and Roger J. Flower

Subjects

Pollution, 010506 paleontology, Archeology, Global and Planetary Change, 010504 meteorology & atmospheric sciences, Ecology, Environmental change, biology, media_common.quotation_subject, Paleontology, Sediment, Biota, biology.organism_classification, 01 natural sciences, Paleolimnology, Oceanography, Diatom, Sedimentary rock, Ecosystem, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes, media_common

Abstract

Lake Baikal is the world's largest freshwater lake and is internationally famous for its rich and largely endemic biota. Concern about this unique ecosystem has grown since the late 1970s but whether recent biological changes result from natural fluctuations or pollution is unclear. One way of discriminating between these processes is to examine records of recent change in radiometrically dated deep-water sediment cores. Here we use high-resolution diatom analysis of one core to show that abundances have not changed significantly over recent decades. By contrast, we demonstrate that the lake is contaminated by atmospheric pollutants and has experienced a small qualitative change in soil derived magnetic minerals. Sedimentary lead concentrations show an increasing trend in the c. 150-year core sequence and spheroidal carbonaceous particles (SCPs) contaminate post-1930 sediment. Although we provide no evidence that twentieth-century pollution has affected the endemic planktonic diatoms in the central western region of southern Lake Baikal, longer trends in species abundances could be related to naturally occurring climatic cycles or to global warming.

Published

1995

28. Unravelling contamination signals in biogenic silica oxygen isotope composition: the role of major and trace element geochemistry

Author

Nicholas G. Marsh, Jonathan J. Tyler, Angela L. Lamb, Anson W. Mackay, Melanie J. Leng, and Tim S. Brewer

Subjects

biology, fungi, Trace element, Geochemistry, Paleontology, Sediment, Biogenic silica, Contamination, Silt, biology.organism_classification, Isotopes of oxygen, chemistry.chemical_compound, Diatom, Arts and Humanities (miscellaneous), chemistry, Earth and Planetary Sciences (miscellaneous), Carbonate, Geology

Abstract

The oxygen isotope composition of diatom silica (δ18Odiatom) provides valuable information for palaeoclimate studies where carbonate proxies are either rare or absent in many lakes and ocean sediments. Unfortunately, mineral and rock fragments found alongside diatoms in most sediments can be problematic as the method used will liberate oxygen from all components within the sediment, producing both high-frequency noise and low-frequency excursions that can resemble climate signals. Removal of mineral contamination to date has largely relied upon the combination of chemical leaching and physical separation techniques (e.g. sieving, density). This combination can be inefficient and often significant proportions of contaminants are present in the 'purified' diatom sample. Using electron optical imaging and whole-rock geochemistry on previously 'purified' diatom samples, a mass balance approach has been developed whereby the types and proportions of residual contaminants are identified. By integrating this information with measured oxygen isotope ratios of the contaminants, it is then possible to remove contamination effects from the δ18Odiatom record. Contamination effects relating to carbonates, tephra and silt are modelled for cores from Lake Tilo (Ethiopia) and Lake Baikal (Siberia). In both lakes the new modelled δ18Odiatom curves show less high-frequency noise, thus enabling better resolution of low-frequency climate signals. © Natural Environment Research Council (NERC) copyright 2008. Reproduced with the permission of NERC. Published by John Wiley and Sons, Ltd.

Published

2008

29. Potential limitations of biogenic silica as an indicator of abrupt climate change in Lake Baikal, Russia

Author

George E. A. Swann and Anson W. Mackay

Subjects

Delta, biology, Climate change, Aquatic Science, Sedimentation, Biogenic silica, biology.organism_classification, Oceanography, Diatom, Abrupt climate change, Stadial, Glacial period, Geology, Earth-Surface Processes

Abstract

Biogenic Silica (BSi) has been one of the most important proxies for determining the palaeoclimate from Lake Baikal over glacial-interglacial cycles. Concentrations (calculated through a 1% Na2CO3 wet-alkaline digestion) at a site in the north basin, however, reveal consistently low values during MIS 3 compared to greater than tenfold changes in diatom concentrations and biovolumes from c. 53.3–51.5 kyr BP. With similar glacial trends present at other low sedimentation sites, we suggest that significant amounts of BSi are removed from diatoms during glacials due to a relative increase in diatom dissolution at the sediment–water interface. This contrasts with existing results from other, higher sedimentation, sites such as those within the Selenga Delta, which display a strong relationship between diatoms and BSi. Site selection is therefore essential when searching for Heinrich and other glacial millennial-scale events in Lake Baikal, and we recommend that both BSi and diatom concentrations be calculated together in future studies.

Published

2006

30. Climatic change in Central Asia during MIS 3/2: a case study using biological responses from Lake Baikal

Author

Anson W. Mackay, George E. A. Swann, François Demory, Melanie J. Leng, and 5.2 Climate Dynamics and Landscape Evolution, 5.0 Earth Surface Processes, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum

Subjects

Total organic carbon, Marine isotope stage, Global and Planetary Change, geography, geography.geographical_feature_category, δ13C, biology, Drainage basin, 550 - Earth sciences, Structural basin, Oceanography, biology.organism_classification, Diatom, Phytoplankton, Stadial, Geology

Abstract

A Marine Isotope Stage (MIS) 3/early MIS 2 section from a structural high along the east coast of the North Basin of Lake Baikal was analysed for diatoms, C/N ratios, and organic carbon isotope ratios. Diatoms were present throughout MIS 3 and early MIS 2, with high concentrations of the planktonic taxa Cyclotella sp. c.f. gracilis between 54 and 51.5 kyr BP indicating relatively warm, interstadial, conditions. Following a %TOC inferred climatic cooling between 43.2 and 39.1 kyr BP, evidence of a more muted δ13C(organic) and %TOC inferred climatic warming from c. 39.1–34.7 kyr BP coincides with a period of very high diatom concentrations, indicating high aquatic productivity, at the Buguldeika Saddle in the South Basin of Lake Baikal. No evidence exists for a ‘Kuzmin’ catchment erosional event in the North Basin during MIS 3. This, however, may reflect the location of the coring site away from major riverine inputs. Abrupt climatic cooling at the culmination of both warm phases in the North Basin are associated, on the basis of the palaeomagnetic age-model and correlations to existing sites in Lake Baikal, with the initiation of Heinrich events 5 (c. 50 kyr BP) and 4 (c. 35 kyr BP), respectively, in the North Atlantic. The amount of organic material declines across the MIS 3/MIS 2 transition while constant C/N ratios suggest organic material to be predominantly derived from phytoplankton. An increase in δ13C(organic) at the MIS 3/MIS 2 transition may therefore indicate changes in aquatic productivity, pCO2 or the inorganic carbon pool.

Published

2005

31. A late glacial – Holocene record of hydrological variability in Lake Baikal inferred from oxygen isotope analysis of diatom silica

Author

Anson W. Mackay

Subjects

Paleontology, Diatom, biology, Glacial period, biology.organism_classification, Geology, Isotopes of oxygen, Holocene, Earth-Surface Processes

Published

2012