共查询到20条相似文献,搜索用时 31 毫秒
1.
A decade of widespread increases in surface water concentrations of total organic carbon (TOC) in some regions has raised
questions about longer term patterns in this important constituent of water chemistry. This study uses near-infrared spectroscopy
(NIRS) to infer lake water TOC far beyond the decade or two of observational data generally available. An expanded calibration
dataset of 140 lakes across Sweden covering a TOC gradient from 0.7 to 24.7 mg L−1 was used to establish a relationship between the NIRS signal from surface sediments (0–0.5 cm) and the TOC concentration
of the water mass. Internal cross-validation of the model resulted in an R
2 of 0.72 with a root mean squared error of calibration (RMSECV) of 2.6 mg L−1. The TOC concentrations reconstructed from surface sediments in four Swedish lakes were typically within the range of concentrations
observed in the monitoring data during the period represented by each sediment layer. TOC reconstructions from the full sediment
cores of four lakes indicated that TOC concentrations were approximately twice as high a century ago. 相似文献
2.
M. Catherine Eimers Andrew M. Paterson Peter J. Dillon Sherry L. Schiff Brian F. Cumming Roland I. Hall 《Journal of Paleolimnology》2006,35(1):99-109
Stable isotopic compositions and concentrations of total sedimentary sulphur (S) were determined in cores from 6 lakes in
the acid-sensitive Muskoka-Haliburton region of south-central Ontario. The isotopic composition of S in deep sediment (> ~
20 cm) was approximately constant in all lakes, and indicated a pre-industrial δ 34S value between +4.0 and +5.3‰, which is similar to current bulk deposition. Similarly, total S concentrations in deep sediment
were relatively low (1.9–5 mg S g−1 dwt) and approximately constant with depth within cores. All lakes exhibited up-core increases in total S and decreases in
δ 34S at a depth corresponding to the beginning of industrialization in the Great Lakes region ( ~ 1900), resulting in a generally
reciprocal depth pattern between total S concentration and δ 34S ratios. While initial shifts in total S and δ 34S were likely due to enhanced SO4 reduction of newly available anthropogenic SO4, both the magnitude and pattern of up-core S enrichment and shifts in δ 34S varied greatly among lakes, and did not match changes in S deposition post 1900. Differences between lakes in total S and
δ 34S were not related to any single hydrologic (e.g., residence time) or physical (e.g., catchment-area-to-lake area ratio) lake
characteristic. This work indicates that sediment cores do not provide consistent records of changes in post-industrial S
deposition in this region, likely due to redox-related mobility of S in upper sediment. 相似文献
3.
Lake sediments can be significantly impacted by industrial activities. These impacts vary among sites and include both local
point sources and atmospherically-derived pollution. Here we present results of a lake sediment pollution record from Ullswater,
UK, where lead mining activities have taken place within the catchment since 1690, although large-scale mining did not begin
until 1840. Metal concentration data from 12 cores taken along a lake bed transect illustrate that lead mining at Greenside
Mine had a significant impact on the lake sediments. High Pb concentrations were identified throughout Ullswater, and exhibited
a spatial gradient from south to north, with concentrations decreasing with greater distance from the main source of input
at Glenridding. Furthermore, inter-element correlations exhibit spatial variation that reflects the processes by which they
are incorporated into the lake sediment record. Together, these observations illustrate potential shortcomings in palaeoenvironmental
reconstructions and pollution studies based on single cores from large and morphologically variable lakes. Sedimentation rates
were estimated by matching this pollution record with the historical record of mining activities. Within Ullswater, sedimentation
rates from 1840 to the present varied from 0.67 to 2.33 mm year−1 with a mean of 1.4 mm year−1; highest sedimentation rates were observed in the deepest section of the lake and close to the main inputs, and lowest sedimentation
rates were observed in the northern part of the lake, furthest from the main input. Despite the considerable changes in mining
techniques and production, there is little evidence to suggest significant changes in sedimentation rates over time. 相似文献
4.
Neil L. Rose David Morley Peter G. Appleby Richard W. Battarbee Tiiu Alliksaar Piero Guilizzoni Erik Jeppesen Atte Korhola Jaan-Mati Punning 《Journal of Paleolimnology》2011,45(4):447-468
Sediment accumulation rate (SAR) is an important physical parameter in all lakes and increases have been observed in many
over the last c.100 years. This has been ascribed to changes in land-use and land-management causing accelerated catchment
soil erosion and an increase in autochthonous organic matter production. The EU Water Framework Directive requires that assessment
of biological, hydromorphological and chemical elements of water quality should be based on the degree to which present day
conditions deviate from those expected in the absence of significant anthropogenic influence, termed reference conditions.
Currently however, the reference condition for sediment accumulation rate for lakes of different types is undefined. To improve
our understanding of the controls on SARs we compiled SAR and lake typology data for 207 European lakes derived from 210Pb dated cores to assess how rates have changed through time (in 25 year classes) both overall and for lakes of different
types. Seventy-one percent of these sediment cores showed surface SARs higher than “basal” (mainly nineteenth century) rates,
11% showed no change while 18% showed a decline. Lakes were then classified into lake-types using four variables: alkalinity
(3 classes), altitude (3 classes), maximum depth (2 classes) and lake area (2 classes). This generated a possible 36 lake
classes of which 25 were represented in the dataset. Nine lake-types contained >10 lakes. Little change in SAR occurred prior
to 1900 and most increases occurred in more recent periods, in particular 1950–1975 and post-1975. This indicates a general
acceleration in SAR in European lakes during the second half of the twentieth century. Reference SARs were estimated for six
lake-types with the highest number of sites. European mountain lakes had the lowest reference SAR (0.005 ± 0.003 g cm−2 yr−1) while lowland, high alkalinity sites had the highest (0.03–0.04 g cm−2 yr−1). SARs for other lake-types ranged between 0.012 and 0.024 g cm−2 yr−1. Using the mountain lake-type as an example, the 1850 reference SAR appears to show good agreement with available data for
lakes beyond Europe indicating these values may be more broadly applicable. Contemporary SARs in lakes of all classes showed
exceedence over their defined reference SAR. This may be partly due to diagenetic processes. Greatest exceedences were found
in shallow, low altitude lakes and these are considered to be the ones under the greatest threat from continued elevation
of SAR. It is considered that climate change may play a progressively more important role in driving SAR in the future. 相似文献
5.
Reservoir sediments are rarely used as environmental archives because of the potential for sediment disturbance by fluctuating
water levels. However, rapid rates of sedimentation, proximity to urban centres and often the existence of management records,
may make them potentially important resources for reconstructing recent, anthropogenically-derived environmental change. This
project assesses the potential of reservoir sedimentary records for reconstructing past atmospheric and drainage basin fluxes
of heavy metals (manganese, iron, nickel, copper, zinc and lead) in the southern Pennines, UK. Five reservoirs were selected
on the basis of management history and drainage basin characteristics. Multi-parameter analysis showed sediments to be replicable
across the ȁ8accumulating zone’ with reasonably consistent rates of sedimentation. Water level fluctuations were not found
to detrimentally affect sediment records in the deepwater area of the reservoirs. In fact, spheroidal carbonaceous particle
(SCP) profiles show trends in inputs that closely reflect major changes in industrialisation, indicating the reservoir sediments
to be excellent records of particulate inputs. Only lead (Pb) and zinc (Zn) were significantly enriched in the reservoir sediment
in comparison to background levels. Manganese (Mn), iron (Fe) and to a limited degree, copper (Cu), appeared to be affected
by post-deposition mobility. Preliminary calculations of Pb fluxes indicate that over 80% of the current Pb input to the reservoirs
is from Pb deposited onto drainage basin soils in the past, rather than from direct atmospheric deposition or natural background
inputs. In Howden reservoir, for example, the total Pb flux to deepwater sediment cores in 2000 was 119 mg m−2 a−1. Of this, an estimated 99 mg m−2 a−1 was from anthropogenically-derived Pb, initially deposited onto drainage basin soils and subsequently entering the reservoir
via erosion and leaching processes. There is, therefore, no indication that the flux of Pb to the aquatic system is declining
in response to reductions in Pb deposition. The ecotoxicological effects of the high and continuing Pb flux to these reservoirs,
despite recent decreases in atmospheric deposition, is an area requiring further investigation. 相似文献
6.
Alexandra Rouillard Peter Rosén Marianne S. V. Douglas Reinhard Pienitz John P. Smol 《Journal of Paleolimnology》2011,46(2):187-202
We developed an inference model to infer dissolved organic carbon (DOC) in lakewater from lake sediments using visible-near-infrared
spectroscopy (VNIRS). The inference model used surface sediment samples collected from 160 Arctic Canada lakes, covering broad
latitudinal (60–83°N), longitudinal (71–138°W) and environmental gradients, with a DOC range of 0.6–39.6 mg L−1. The model was applied to Holocene lake sediment cores from Sweden and Canada and our inferences are compared to results
from previous multiproxy paleolimnological investigations at these two sites. The inferred Swedish and Canadian DOC profiles
are compared, respectively, to inferences from a Swedish-based VNIRS-total organic carbon (TOC) model and a Canadian-based
diatom-inferred (Di-DOC) model from the same sediment records. The 5-component Partial Least Squares (PLS) model yields a
cross-validated (CV) RCV2 R_{CV}^{2} = 0.61 and a root mean squared error of prediction (RMSEP
CV
) = 4.4 mg L−1 (11% of DOC gradient). The trends inferred for the two lakes were remarkably similar to the VNIRS-TOC and the Di-DOC inferred
profiles and consistent with the other paleolimnological proxies, although absolute values differed. Differences in the calibration
set gradients and lack of analogous VNIRS signatures in the modern datasets may explain this discrepancy. Our results corroborate
previous geographically independent studies on the potential of using VNIRS to reconstruct past trends in lakewater DOC concentrations
rapidly. 相似文献
7.
Trace metals and polycyclic aromatic hydrocarbons (PAH) were analyzed in sediment cores from three central Alberta lakes to
determine the contributions of local coal-fired power plants to contaminant loadings. In Wabamun Lake, with four power plants
built since 1950 within a 35-km radius, sediment concentrations of mercury, copper, lead, arsenic and selenium have increased
by 1.2- to 4-fold. Trace metal enrichments were less pronounced in Lac Ste. Anne and Pigeon Lake, situated 20 km north and
70 km south of Wabamun Lake, respectively. Total Hg flux to Wabamun Lake sediments (21–32μg m−2 yr−1) has increased 6-fold since 1950, compared to 2- and 1.5-fold increases in Lac Ste. Anne and Pigeon Lake, respectively, since
circa 1900. Total PAH flux to surface sediments was 730–1100μg m−2 yr−1 in Wabamun Lake, 290–420μg m−2 yr−1 in Lac Ste. Anne, and 140–240μg m−2 yr−1 in Pigeon Lake. Without adoption of pollution-abatement technology that compensates for increases in generating capacity,
continued expansion of coal-burning industry in Alberta will result in increased contaminant deposition, primarily from local
sources. 相似文献
8.
A knowledge of pre-disturbance conditions is important for setting realistic restoration targets for lakes. For European waters
this is now a requirement of the European Council Water Framework Directive where ecological status must be assessed based
on the degree to which present day conditions deviate from reference conditions. Here, we employ palaeolimnological techniques,
principally inferences of total phosphorus from diatom assemblages (DI-TP) and classification of diatom composition data from
the time slice in sediment cores dated to ~1850 AD, to define chemical and ecological reference conditions, respectively,
for a range of UK lake types. The DI-TP results from 169 sites indicate that reference TP values for low alkalinity lakes
are typically <10 μg L−1 and in many cases <5 μg L−1, whilst those for medium and high alkalinity lakes are in the range 10–30 and 20–40 μg L−1, respectively. Within the latter two alkalinity types, the deeper waters (>3 m mean depth) generally had lower reference
TP concentrations than the shallow sites. A small group of shallow marl lakes had concentrations of ~30 μg L−1. Cluster analysis of diatom composition data from 106 lakes where the key pressure of interest was eutrophication identified
three clusters, each associated with particular lake types, suggesting that the typology has ecological relevance, although
poor cross matching of the diatom groups and the lake typology at type boundaries highlights the value of a site-specific
approach to defining reference conditions. Finally the floristic difference between the reference and present day (surface
sample) diatom assemblages of each site was estimated using the squared chord distance dissimilarity coefficient. Only 25
of the 106 lakes experienced insignificant change and the findings indicate that eutrophication has impacted all lake types
with >50% of sites exhibiting significant floristic change. The study illustrates the role of the sediment record in determining
both chemical and ecological reference conditions, and assessing deviation from the latter. Whilst restoration targets may
require modification in the future to account for climate induced alterations, the long temporal perspective offered by palaeolimnology
ensures that such changes are assessed against a sound baseline. 相似文献
9.
We analyzed lake sediment deposits and local hydrometric records to assess the potential for developing a high-resolution
record of sediment delivery from the Rock Lake catchment, situated in the non-glacierized Front Ranges of the Rocky Mountains,
Canada. Rhythmic couplets of silt–clay characterized the clastic sediments recovered from the deep central basin of the lake.
Contemporary sediment yield to Rock Lake (10.7 ± 1.8 Mg km−2 year−1) is comparable to other studied Canadian Cordillera lakes that have sedimentary lithologies and absence of glacier cover,
but distinct rhythmic deposition is relatively unique to this basin. Spatial patterns of deposition within the lake were assessed
by correlating rhythmites between multiple sediment cores and by sub-bottom, acoustic profiling. Bracketed dates for a spatially
continuous sequence of eight thick rhythmites were established by correlating laminations between core samples collected more
than 30 years apart. We identified a consistent pattern between the rhythmite and hydrometric data series between 1975 and
2006 and determined that specific flooding events caused by summer rainstorms are associated with each of the eight thick
rhythmites. We observed a good relationship between rhythmite thickness and total flood volume that exceeded a threshold discharge.
Acoustic profiling showed that the lake could be a good candidate for longer-term proxy development. We discuss how some of
the methods used in this study could benefit ongoing paleoenvironmental assessments based on lacustrine rhythmite series. 相似文献
10.
Piero Guilizzoni Aldo Marchetto Andrea Lami Stefano Gerli Simona Musazzi 《Journal of Paleolimnology》2011,45(4):433-445
We propose a palaeolimnological method for inferring past total phosphorus (TP) concentrations in lake water from spectrophotometrically-measured
sedimentary pigments, particularly total carotenoids (TC). Our approach is based on a highly significant statistical correlation
(P < 0.0001) between pigment concentrations (total carotenoids) in the surface sediment of 28 Italian lakes (subalpine, large,
deep, shallow, volcanic) and TP concentrations measured in these lakes at overturn when the core was collected. A transfer
function was developed from this “training” set, and used to estimate past TP concentrations from pigment concentrations in
sediment cores. The results generally agreed with TP values as measured by long-term water quality monitoring programs. Contrasting
results were obtained by a comparison with diatom-inferred TP. While the diatom model showed a tendency to overestimate TP
values higher than 100 μg l−1, the pigment model correctly estimated TP in lakes when TP was <100 μg l−1, but not when lakes were rich in macrophytes. In fact, lakes with extensive populations of aquatic submersed macrophytes
and epiphytes are outliers in terms of the TC versus TP relationship. The root mean square error of prediction of the pigment
model is lower than those derived from certain diatom—based inference models. The predicted and residual values are not related
to the estimated values and their average is not statistically different from zero. Errors were estimated via a ‘leave-one-out’
re-sampling technique. The proposed method permits rapid and relatively inexpensive determination of reference trophic conditions. 相似文献
11.
Mark Brenner Thomas J. Whitmore Melanie A. Riedinger-Whitmore Brandy DeArmond Douglas A. Leeper William F. Kenney Jason H. Curtis Byron Shumate 《Journal of Paleolimnology》2006,36(4):371-383
We studied sediment cores from four Florida (USA) lakes that have received groundwater hydrologic supplements (augmentation) for >30 years to maintain lake stage. Top samples (0–4 cm) from sediment cores taken in Lakes Charles, Saddleback, Little Hobbs, and Crystal had 226Ra activities of 44.9, 17.5, 7.6, and 8.5 dpm g−1, respectively, about an order of magnitude greater than values in deeper, older deposits. The surface sample from Lake Charles yielded the highest 226Ra activity yet reported from a Florida lake core. Several lines of evidence suggest that groundwater augmentation is responsible for the high 226Ra activities in recent sediments: (1) 226Ra activity in cores increased recently, (2) the Charles, Crystal, and Saddleback cores display 226Ra/210Pb disequilibrium at several shallow depths, suggesting 226Ra entered the lakes in dissolved form, (3) cores show recent increases in Ca, which, like 226Ra, is abundant in augmentation groundwater, and (4) greater Sr concentrations are associated with higher 226Ra activities in recent Charles and Saddleback sediments. Sr concentrations in Eocene limestones of the deep Floridan Aquifer are high relative to Sr concentrations in surficial quartz sands around the lakes. Historical water quality inferences for the lakes were based on diatom assemblages in sediments. Recent alkalization in Lakes Charles, Saddleback, Little Hobbs, and Crystal was inferred from weighted-averaging calibration (WACALIB). The lakes also show recent trophic state increases based on WACALIB-derived estimates for limnetic total P. Although residential and agricultural sources might contribute to increased P loading, P in augmentation waters probably has had significant influence on eutrophication. Dystrophic diatoms were abundant in the early history of Lakes Saddleback, Little Hobbs, and Crystal, which suggests that these lakes contained more tannic waters during the past than at present, perhaps as a consequence of greater inflows from surrounding wetlands. Ionic content of lake waters increased, as indicated by diatom autecological analysis. Recent geochemical and biological changes detected in cores from these lakes probably are a result of deliberate groundwater augmentation, although inputs of groundwater pumped for agricultural and residential development in the watersheds also might have contributed to limnological changes. 相似文献
12.
Atmospheric deposition of reactive nitrogen (Nr) has enriched oligotrophic lakes with nitrogen (N) in many regions of the
world and elicited dramatic changes in diatom community structure. The lakewater concentrations of nitrate that cause these
community changes remain unclear, raising interest in the development of diatom-based transfer functions to infer nitrate.
We developed a diatom calibration set using surface sediment samples from 46 high-elevation lakes across the Rocky Mountains
of the western US, a region spanning an N deposition gradient from very low to moderate levels (<1 to 3.2 kg Nr ha−1 year−1 in wet deposition). Out of the fourteen measured environmental variables for these 46 lakes, ordination analysis identified
that nitrate, specific conductance, total phosphorus, and hypolimnetic water temperature were related to diatom distributions.
A transfer function was developed for nitrate and applied to a sedimentary diatom profile from Heart Lake in the central Rockies.
The model coefficient of determination (bootstrapping validation) of 0.61 suggested potential for diatom-inferred reconstructions
of lakewater nitrate concentrations over time, but a comparison of observed versus diatom-inferred nitrate values revealed
the poor performance of this model at low nitrate concentrations. Resource physiology experiments revealed that nitrogen requirements
of two key taxa were opposite to nitrate optima defined in the transfer function. Our data set reveals two underlying ecological
constraints that impede the development of nitrate transfer functions in oligotrophic lakes: (1) even in lakes with nitrate
concentrations below quantification (<1 μg L−1), diatom assemblages were already dominated by species indicative of moderate N enrichment; (2) N-limited oligotrophic lakes
switch to P limitation after receiving only modest inputs of reactive N, shifting the controls on diatom species changes along
the length of the nitrate gradient. These constraints suggest that quantitative inferences of nitrate from diatom assemblages
will likely require experimental approaches. 相似文献
13.
Steven J. Balogh Daniel R. Engstrom James E. Almendinger Charlene McDermott Jie Hu Yabing H. Nollet Michael L. Meyer D. Kent Johnson 《Journal of Paleolimnology》2009,41(4):623-639
Sediment cores from Lake Pepin, a natural lake on the Upper Mississippi River, reveal the historical trends in trace metal
use and discharge in the watershed. Lead-210 dated concentration profiles of trace metals (Ag, Cd, Cr, Cu, Hg, Pb, V, Zn)
in sediment cores from throughout the lake generally showed low and stable concentrations prior to settlement (circa 1830),
peak concentrations between 1940 and 1975, and substantial decreases thereafter. Whole-lake sediment accumulation rates increased
greatly over the period of record, from 79,000 metric tons year−1 prior to 1830, to 876,000 metric tons year−1 during the 1990s. Whole-lake accumulation rates of most trace metals peaked in the 1960s but decreased sharply after that.
Sediment and trace metal accumulation rates decreased in the downstream direction, and approximately two-thirds of the sediment
and trace metal mass accumulated in Lake Pepin since 1800 was deposited in the upper 30% (by area) of the lake. The dramatic
declines in trace metal concentrations and accumulation rates in Lake Pepin sediments since 1970 coincide with increased pollution
control and prevention efforts throughout the watershed, including the implementation of secondary treatment at a large municipal
wastewater treatment plant upstream.
This is one of eight papers dedicated to the “Recent Environmental History of the Upper Mississippi River” published in this
special issue of the Journal of Paleolimnology. D.R. Engstrom served as guest editor of the special issue. 相似文献
14.
The status of tropical glaciers is enormously important to our understanding of past, present, and future climate change,
yet lack of continuous quantitative records of alpine glacier extent on the highest mountains of tropical East Africa prior
to the 20th century has left the timing and drivers of recent glacier recession in the region equivocal. Here we investigate
recent changes (the last 150–700 years) in lacustrine sedimentation, glacier extent, and biogeochemical processes in the Rwenzori
Mountains (Uganda- Democratic Republic of Congo) by comparing sedimentological (organic and siliciclastic component determined
by loss-on-ignition; LOI) and organic geochemical profiles (carbon and nitrogen abundance, ratio, and isotopic composition
of sedimentary organic matter) from lakes occupying presently glaciated catchments against similar profiles from lakes located
in catchments lacking glaciers. The siliciclastic content of sediments in the ‘glacial lakes’ significantly decreases towards
the present, whereas ‘non-glacial lakes’ generally show weak trends in their siliciclastic content over time, demonstrating
that changes in the siliciclastic content of glacial lake sediments primarily record fluctuations in glacier extent. Radiometric
dating of our sediment cores indicates that prior to their late 19th-century recession Rwenzori glaciers stood at expanded
‘Little Ice Age’ positions for several centuries under a regionally dry climate regime, and that recession was underway by
1870 AD, during a regionally wet episode. These findings suggest that the influence of late 19th century reductions in precipitation
in triggering Rwenzori glacier recession is weaker than previously thought. Our organic geochemical data indicate that glacier
retreat has significantly affected carbon cycling in Afroalpine lakes, but trends in aquatic ecosystem functioning are variable
among lakes and require more detailed analysis. 相似文献
15.
Nina Reuss Peter R. Leavitt Roland I. Hall Christian Bigler Dan Hammarlund 《Journal of Paleolimnology》2010,43(1):149-169
A surface-sediment survey of pigments in 100 lakes in the Scandes Mountains, northern Sweden, was combined with a reconstruction
of Holocene sedimentary pigments from Lake Seukokjaure to assess the major factors regulating phototrophic communities, and
how these controls may have changed during the period from the deglaciation (~9700 cal. years BP) to the present. The study
area covers a pronounced gradient of temperature and precipitation, and encompasses the subarctic tree line, an important
ecotonal boundary in this region. Lake Seukokjaure is located in a presently treeless basin close to the modern tree line.
The spatial survey of sedimentary pigments was analyzed using principle components analysis (PCA) and redundancy analysis
(RDA). PCA explained 73–83% of variance in pigment abundance and composition, whereas RDA explained 22–32% of variation in
fossil assemblages. Dissolved organic carbon (DOC) content of lake water, sediment δ13C, maximum lake depth, elevation and lake-water conductivity were all identified as environmental variables with significant
association with pigment abundances in the spatial survey, although phototrophic communities of lakes situated in different
vegetation zones (alpine, birch, conifer/birch) were incompletely distinguished by the ordinations. In the RDAs, the primary
pigment variability occurred along a production gradient that was correlated negatively to water-column DOC content and δ13C signature of sediments. This pattern suggested that the important controls of primary production were light regime and terrestrial
supplies of 13C-depleted carbon. In contrast, depth, elevation and conductivity were found to be more important for the differentiation
of the phototrophic community composition. Application of these spatial survey results to the Holocene sediment record of
Lake Seukokjaure demonstrated the importance of DOC for the temporal development of the lake, from an early state of high
production to a period of slight oligotrophication. In general, the algal changes were regulated by the interaction of DOC
and conductivity, although transitions in the phototrophic community during the late Holocene were less easily interpreted.
Terrestrial vegetation development thus appears to be of utmost importance for the regulation of primary production in oligotrophic
alpine and subarctic lakes and climate impacts on lakes, whereas other basin-specific factors may control the ontogeny of
algal community composition. 相似文献
16.
Isabela C. Torres Patrick W. Inglett Mark Brenner William F. Kenney K. Ramesh Reddy 《Journal of Paleolimnology》2012,47(4):693-706
Lake sediments contain archives of past environmental conditions in and around water bodies and stable isotope analyses (δ13C and δ15N) of sediment cores have been used to infer past environmental changes in aquatic ecosystems. In this study, we analyzed
organic matter (OM), carbon (C), nitrogen (N), phosphorus (P), and δ13C and δ15N values in sediment cores from three subtropical lakes that span a broad range of trophic state. Our principal objectives
were to: (1) evaluate whether nutrient concentrations and stable isotope values in surface deposits reflect modern trophic
state conditions in the lakes, and (2) assess whether stratigraphic changes in the measured variables yield information about
shifts in trophic status through time, or alternatively, diagenetic changes in sediment OM. Three Florida (USA) lakes of very
different trophic status were selected for this study. Results showed that both δ13C and δ15N values in surface sediments of the oligo-mesotrophic lake were relatively low compared to values in surface sediments of
the other lakes, and were progressively lower with depth in the sediment core. Sediments of the eutrophic lake had δ13C values that declined upcore, whereas δ15N values increased toward the sediment surface. The eutrophic lake displayed δ13C values intermediate between those in the oligo-mesotrophic and hypereutrophic lakes. Sediments of the hypereutrophic lake
had relatively higher δ13C and δ15N values. In general, we found greater δ13C and δ15N values with increasing lake trophic state. 相似文献
17.
Daniel R. Engstrom James E. Almendinger Julie A. Wolin 《Journal of Paleolimnology》2009,41(4):563-588
Long-term changes in sediment and phosphorus loading to the upper Mississippi River were quantified from an array of 25 sediment
cores from Lake Pepin, a large natural impoundment downstream of the Minneapolis-St Paul metropolitan area. Cores were dated
and stratigraphically correlated using 210Pb, 137Cs, 14C, magnetic susceptibility, pollen analysis, and loss-on-ignition. All cores show a dramatic increase in sediment accumulation
beginning with European settlement in 1830. Accumulation rates are highest and show the greatest post-settlement increases
in the upper end of the lake. Present-day sediment-phosphorus concentrations are roughly twice those of pre-settlement times,
and the Fe/Al-bound fraction makes up a greater portion of the total. Diatom assemblages record a marked increase in nutrient
availability over the last 200 years, changing from clear-water benthic forms and mesotrophic planktonic taxa in pre-settlement
times to exclusively planktonic assemblages characteristic of highly eutrophic conditions today. Lake-water total-phosphorus
concentrations, estimated by weighted averaging regression and calibration, increased from 50 to 200 μg l−1 during this period. Sediment loading to Lake Pepin from the Mississippi River has increased by an order of magnitude since
1830. Modern fluxes are about 900,000 metric tons annually, and are more than 80% detrital mineral matter. About 17% of the
lake’s volume in 1830 has been replaced by sediment, and at current accumulation rates the remainder will be filled in another
340 years. Phosphorus accumulation in Lake Pepin sediments has increased 15-fold since 1830, rising from 60 to 900 metric
tons annually. This rise represents a sevenfold increase in phosphorus loading from the Mississippi River coupled with more
efficient retention of phosphorus inflows by bottom sediments. More efficient trapping of phosphorus in Lake Pepin over the
last century resulted from higher rates of sediment burial. The most dramatic changes in nutrient and sediment inputs to Lake
Pepin have occurred since 1940, although gradual increases began shortly following European settlement. Sediment accumulation
rates rose sharply between 1940 and 1970 and then leveled off, while phosphorus inflows record their largest increases after
1970.
This is one of eight papers dedicated to the “Recent Environmental History of the Upper Mississippi River” published in this
special issue of the Journal of Paleolimnology. D. R. Engstrom served as guest editor of the special issue. 相似文献
18.
Heavy metal pollution and lake acidity changes caused by one thousand years of copper mining at Falun, central Sweden 总被引:1,自引:3,他引:1
One thousand years of mining of sulfurous ores at the Falun copper mine, central Sweden, and the resulting atmospheric emissions of metals and sulfur dioxide, gives a unique opportunity to study long-term responses to acid deposition. Copper production peaked in the 17th century, when Falun supplied 2/3 of the world's copper production. Thereafter production and associated emissions have declined, and the mine was closed in the 1990's. Sediment cores from 14 lakes situated between 3-27 km from the mine have been analyzed for Cu, Pb, Zn, Cd, S and 206Pb/207Pb isotope ratios to study the historical and geographical distribution of airborne pollutants. Diatoms have been analyzed to infer past lake acidity and to assess whether lake acidification has occurred and, if so, whether any recovery from acidification has occurred following the reduction in sulfur emissions. Eight of the fourteen lakes have acidified, beginning as early as the late 17th century, when the estimated annual emissions of SO2 amounted to 40,000 tons. This is perhaps the earliest known record of anthropogenic lake acidification. Despite the large historical deposition of sulfur, the pH has only decreased by 0.4–0.8 units, with the lowest diatom-inferred pH being 5.8. Effects of agriculture and forestry following the expanding mining industry may have counteracted acidification. Despite the 300 yrs of lowered emissions the diatom record shows no recovery in pH. There are still large amounts of sulfur accumulated in the soils in the area that may delay recovery from lake acidification. Afforestation in the area over the last 100 yrs may also play an important role in delaying the recovery process. 相似文献
19.
210Pb and 137Cs dating methods in lakes: A retrospective study 总被引:1,自引:0,他引:1
210Pb has been used for more than two decades to provide the geochronology of annually deposited sediments and to construct pollution histories. Evidence from some lakes suggests that this radionuclide may be adequately mobile to compromise dating reliability. This study provides one test of that possibility by comparing recent measurements of 210Pb and trace metals to ones carried out more than 20 yrs in the past. 137Cs dating is used to confirm sediment accumulation rates in the recent cores. In the three Connecticut, USA, lakes studied, sediment accumulation rates changed abruptly to higher values between 40-50 yrs ago (increasing by factors of 2.2, 2.9, and 3.0). In all three lakes, rates calculated from 210Pb distributions both above and below this horizon agreed, within measurement uncertainty, in recent and older cores. Furthermore, when the older data were corrected for 20 yrs of burial, the changes in slope in 210Pb distributions occurred at the same depth in each pair of cores. The depth of sharp peaks in concentrations of trace metals also matched. In general, this evidence supports the idea that sediments in these lakes have simply been buried, without significant diagenetic remobilization of 210Pb and trace metals . Nevertheless, some important differences were also observed. For two of the three lakes, there was a significant difference in average sediment accumulation rate during the past 33 yrs as calculated from 137Cs and 210Pb in the recent cores. Most potential causes for this difference can be ruled out, and it appears that one of the two nuclides is remobilized compared to the other. There were also significant differences in the total inventories of both 210Pb and trace metals (both up to 2 ×) between recent and older cores in some cases. This may be due to dissimilar sediment focusing, since it is not known for certain whether the new cores were collected at exactly the same sites as in the past. 相似文献
20.
Historical trace metal loading to a large river recorded in the sediments of Lake St. Croix,USA 总被引:1,自引:0,他引:1
Steven J. Balogh Laura D. Triplett Daniel R. Engstrom Yabing H. Nollet 《Journal of Paleolimnology》2010,44(2):517-530
The global cycling of anthropogenic trace metals intensified during the twentieth century, impacting aquatic systems throughout
the world. There are, however, few quantitative records showing the history of this contamination in large rivers. Here we
present a well-dated sedimentary record of trace metal accumulation in Lake St. Croix, a natural riverine lake on the St.
Croix River (Minnesota and Wisconsin, USA), revealing the history of heavy metal inputs to the river over the past 200 years.
Concentrations of Hg, Pb, Ag, Cd, Cr and Zn and stable Pb isotopes were measured in eight 210Pb-dated sediment cores collected from profundal depositional areas throughout the lake. Time trends of trace metal concentrations
and accumulation rates differed greatly between the upper lake (above Valley Creek) and the lower lake, reflecting contrasting
sediment sources along the flow axis of the lake. For most of the study period (1800–2000 AD), sediment deposited throughout
the lake derived almost exclusively from the suspended sediment load carried by the main-stem river into the lake. From 1910
through 1970, however, large inputs of eroded soils and stream channel sediments from side-valley tributaries resulted in
greatly increased sediment and trace metal accumulation in the lower lake. Anthropogenic accumulation rates of Hg, Pb, Cd,
Zn, and Ag in the upper lake correlate well with those from Square Lake, a small, relatively undisturbed nearby lake that
has received trace metal inputs almost exclusively via atmospheric deposition. The similarity of these records suggests that
atmospheric deposition was primarily responsible for trace metal accumulation trends in upper Lake St. Croix. Trace metal
accumulation in the lower lake was also strongly influenced by atmospherically derived inputs, but metal contributions from
native soils were important, as well, during the period of elevated sediment inputs from side-valley tributaries. Concentrations
and accumulation rates of trace metals in both upper and lower lake sediments have decreased substantially since the 1970s
due to decreased atmospheric inputs and sediment loadings, but accumulation rates remain well above pre-settlement values.
Metal inputs to Lake St. Croix have been far lower than those to nearby Lake Pepin, located on the Mississippi River downstream
of the Minneapolis-St. Paul metropolitan area, but there nevertheless remains a clear record of anthropogenic impact on the
relatively pristine St. Croix River. 相似文献