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1.
B. Lang A. S. Medeiros A. Worsley A. Bedford S. J. Brooks 《Journal of Paleolimnology》2018,59(4):397-410
Reliable estimates of Holocene temperatures are important for understanding past climate dynamics, the response of biota to climate change, and validating climate models. Chironomids in lake sediment cores are used widely to quantify past summer temperatures, for which high-latitude and/or high-altitude lakes, remote from human influence, are usually considered appropriate. Temperature inferences from lowland lakes are likely influenced by other variables, specifically eutrophication and industrial pollution, but their reliability has never been tested. We used a Norwegian chironomid-based transfer function (r 2 = 0.91; RMSEP = 1.01 °C) to infer mean July air temperature over the last 200 years, using chironomid assemblages in a core collected from a polluted, nutrient-enriched lake at Speke Hall, Liverpool, England. The chironomid-inferred temperatures correlate significantly with the local instrumental temperature record and follow long-term national temperature trends. These results show that chironomids can be used to produce reliable estimates of past mean July air temperature, even when other variables have also influenced the composition of the chironomid community. These findings underline the value of chironomids as sensitive and reliable quantitative proxies for summer temperature. 相似文献
2.
Chironomid remains from the sediment of Lake Vuolep Njakajaure reflect limnological conditions resulting from changing climate and vegetation throughout the Holocene, but do not strictly follow accepted climate trends or the vegetation history based on regional pollen and macrofossil analyses. Chironomid community changes appear to be influenced by organic nutrient input from the surrounding catchment vegetation and lake hydrology, both of which are indirectly responding to some combination of climate change, hypolimnetic oxygen concentration, and changes in basin morphology. The chironomid-based quantitative mean July air-temperature reconstruction differs from other regional quantitative records; this discrepancy is likely related to limnological conditions particular to Lake Vuolep Njakajaure. Comparison of a northern Swedish temperature transfer function and one from western Canada reveals differences in the mean July air-temperature optima of several common taxa, suggesting that the existing conservative estimates of Holocene climate change in northern Sweden may be underestimated due to the limited temperature gradient captured by the Swedish training set. 相似文献
3.
Matthew J. Wooller Donna Francis Marilyn L. Fogel Gifford H. Miller Ian R. Walker Alexander P. Wolfe 《Journal of Paleolimnology》2004,31(3):267-274
A paleoenvironmental perspective of temperature change is paramount to understanding the significance of recent warming in the Arctic. Late Quaternary sediments from many arctic lakes provide environmental archives with decadal resolution, but reconstructions are hampered by the relative insensitivity of many traditional proxies to temperature. Here, we show that the δ18O of head capsules of chironomid larvae are equilibrated with the δ18O of lakewaters in which they live. In suitable lakes, lakewater δ18O is controlled by the δ18O of local precipitation, which is strongly correlated to mean annual air temperature (MAT). From this correlation, chironomid δ18O can be used to examine past changes in MAT. We illustrate the potential of this novel approach to paleothermometry with examples from two arctic lakes that reveal strong regional paleoclimatic gradients in the early Holocene. 相似文献
4.
Climate change involves alterations in seasonality as well as shifts in mean annual temperature. Cold temperate lakes show
strong seasonality, with winter ice cover and alternating mixing and stratification periods during the ice-free season. These
physical changes are ultimately related to seasonal weather variation and also drive annual phytoplankton succession. Therefore,
phytoplankton remains in lake sediment records are potentially useful for reconstructing past seasonal climate signals. With
the exception of investigations on varved sediments, however, little research has been carried out on the subject. Here we
present two lines of evidence demonstrating that chrysophyte stomatocysts can be useful for inferring past climatic seasonality.
First, we show that marked seasonal stomatocyst replacement is related to periods of the main physical processes in the lake.
Second, using instrumental climate data and microfossils in sediment cores, we show that two main components of stomatocyst
variability over the last ~150 years are related to seasonal fluctuations. The first of these components is related to stomatocysts
present during summer stratification that respond to general warming trends, particularly in July and August. The second component
relates to stomatocysts typically present in the spring and autumn mixing periods. Numbers of these two stomatocyst types
vary inversely in response to variation in spring (April–May) temperatures. The number of stomatocyst types affected by spring
temperatures is much greater than those related to summer temperatures. We provide evidence that chrysophyte stomatocysts
are an excellent proxy for spring air temperature reconstructions, with little influence from summer or general annual trends.
We also show that with relatively little effort, it is possible to categorise the chrysophyte stomatocyst assemblage of a
lake to carry out detailed investigation of the record of seasonal changes preserved within the sediment. 相似文献
5.
Modelling diatom responses to climate induced fluctuations in the moisture balance in continental Antarctic lakes 总被引:3,自引:0,他引:3
Elie Verleyen Dominic A. Hodgson Wim Vyverman Donna Roberts Andrew McMinn Koenraad Vanhoutte Koen Sabbe 《Journal of Paleolimnology》2003,30(2):195-215
The water chemistry of lake systems on the edge of the Antarctic continent responds quickly to changes in the moisture balance. This is expressed as increasing salinity and decreasing lake water level during dry periods, and the opposite during wet periods. The diatom composition of the lakes also changes with these fluctuations in salinity and lake water depth. This is important, as their siliceous remains become incorporated into lake sediments and can provide long-term records of past salinity using transfer functions. In order to develop transfer functions, diatoms and water chemistry data were inter-calibrated from five different East Antarctic oases, namely the Larsemann Hills, the Bølingen Islands, the Vestfold Hills, the Rauer Islands and the Windmill Islands. Results indicate that salinity is the most important environmental variable explaining the variance in the diatom flora in East Antarctic lakes. In oligo- saline lakes the variance is mainly explained by lake water depth. This dataset was used to construct a weighted averaging transfer function for salinity in order to infer historical changes in the moisture balance. This model has a jack-knifed r2 of 0.83 and a RMSEP of 0.31. The disadvantage of this transfer function is that salinity changes in oligo-saline lakes are reconstructed inaccurately due to the edge effect and due to the low species turnover along the salinity gradient at its lower end. In order to infer changes in the moisture balance in these lakes, a second transfer function using weighted averaging partial least squares (with two components) for depth was constructed. This model has a jack-knifed r2 of 0.76 and a RMSEP of 0.22. Both transfer functions can be used to infer climate driven changes in the moisture balance in lake sediment cores from oligo-, hypo-, meso- and hyper-saline lakes in East Antarctic oases between 102–75°E. The transfer function for lake water depth is promising to track trends in the moisture balance of small freshwater lakes, where changes in shallow and deep-water sediments are readily reflected in changing diatom composition. 相似文献
6.
G. J. Reati M. Florín G. J. Fernández C. Montes 《International Journal of Salt Lake Research》1996,5(3):187-219
Although the Laguna de Mar Chiquita is among the largest saline lakes of the world (2,000–6,000 km2 area), knowledge about it is scarce. Like other large salt lakes, Mar Chiquita undergoes strong inter-annual changes in water level that are primarily linked to the variable expression of three different types of climate throughout its extensive catchment area. Water-level fluctuations and their overall environmental influence, especially on salinity (25–360 g L–1) and biota, have significant results. Comparison of Mar Chiquita with other fluctuating large salt lakes shows an independent long-term pattern of water-level (and salinity) changes. Primary determinants of its limnology are (1) its extensive catchment, (2) the occurrence of three different types of climate on the catchment, (3) the shallowness of the basin and (4) the effects of strong wind, water circulation within the lake, and sediment inputs from rivers. The effects of fluctuation on the lake biota are more evident at the level of dominant organisms at every fluctuation stage and their functions than in overall biodiversity and food-web complexity. 相似文献
7.
Environmental controls on modern chironomid faunas from NW Iceland and implications for reconstructing climate change 总被引:1,自引:1,他引:0
Reconstructing climate change quantitatively over millennial timescales is crucial for understanding the processes that affect
the climate system. One of the best methods for producing high resolution, low error, quantitative summer air temperature
reconstructions is through chironomid analyses. We analysed over 50 lakes from NW and W Iceland covering a range of environmental
gradients in order to test whether the distribution of the Icelandic chironomid fauna was driven by summer temperature, or
whether other environmental factors were more dominant. A range of analyses showed the main environmental controls on chironomid
communities to be substrate (identified through loss-on-ignition and carbon content) and mean July air temperature, although
other factors such as lake depth and lake area were also important. The nature of the Icelandic landscape, with numerous volcanic
centres (many of which are covered by ice caps) that produce large quantities of ash, means that relative lake carbon content
and summer air temperature do not co-vary, as they often do in other chironomid datasets within the Arctic as well as more
temperate environments. As the chironomid–environment relationships are thus different in Iceland compared to other chironomid
training sets, we suggest that using an Icelandic model is most appropriate for reconstructing past environmental change from
fossil Icelandic datasets. Analogue matching of Icelandic fossil chironomid datasets with the Icelandic training set and another
European chironomid training set support this assertion. Analyses of a range of chironomid-inferred temperature transfer functions
suggest the best to be a two component WA-PLS model with r
2
jack = 0.66 and RMSEP = 1.095°C. Using this model, chironomid-inferred temperature reconstructions of early Holocene Icelandic
sequences show the magnitude of temperature change compared to contemporary temperatures to be similar to other NW European
chironomid sequences, suggesting that the predictive power of the model is good. 相似文献
8.
During recent years, numerous studies dealing with Holocene lake level fluctuations have been conducted in Finnish Lapland. However, no quantification of lake level variations exists to date. Here, we applied a recently developed modern cladocera – lake depth transfer model to subfossil cladocerans analysed from three small and shallow (< 6 m) kettle-hole lakes in northwestern Finnish Lapland to provide estimates of the amplitudes of long-term lake-level changes in the region. The quantitative inferences were compared to pollen, charcoal and geochemical records from one of the study sites. The lake levels were inferred to be high during the early Holocene; they faced marked reduction up to 4–6 m in the mid-Holocene (≈7000–4000 cal yr BP), and rose again during the latter part of the Holocene. There is some indication of lowered lake levels around 1500 cal yr BP, but interpretation of such small-scale changes is hazardous due to large prediction errors in the initial cladoceran model. The overall pattern of the Holocene lake level variation generally followed the regional changes in climate humidity as reconstructed in previous studies by means of other sedimentary proxy indicators, such as pollen and oxygen isotopic compositions. We postulate that changes in winter precipitation may have had a greater influence on lake-levels than variations in summer precipitation or evaporation. 相似文献
9.
Nadia Solovieva Vivienne J. Jones Larisa Nazarova Stephen J. Brooks H. J. B. Birks John-Arvid Grytnes Peter G. Appleby Tommi Kauppila Boris Kondratenok Ingemar Renberg Vasily Ponomarev 《Journal of Paleolimnology》2005,33(4):463-482
The recent sediments from two deep arctic lakes, Mitrofanovskoe and Vanuk-ty, situated in the permafrost belt within the Bolshezemelskaya Tundra in the northern Ural region, were studied for diatoms, chironomids, spheroidal carbonaceous particles and stable lead isotopes. The magnitudes and rates-of-change in diatom and chironomid assemblages were numerically estimated. Instrumental climate records were used to assess statistically the amount of variance in diatom and chironomid data explained by temperature. August and September air temperatures have a statistically significant effect on diatom composition at both lakes. At Mitrofanovskoe Lake, major compositional changes in diatom and chironomid assemblages occurred at the turn of the 20th century and might be related to the regional increase in temperature. Chironomid-inferred air temperature also increased by approximately 1 °C since the early 1900s. At both lakes diatom compositional changes, coincident with the increase in June and September temperatures, also occurred in the late 1960s. These compositional changes are correlated with the increase in diatom production, sediment organic content and diatom species richness, and are likely to be a diatom response to the lengthening of the growing season. These changes are also correlated with the circum-Arctic temperature increase from the 1960s. A chironomid response to the late 1960s temperature increase was less pronounced at both lakes. Pollution levels are relatively low and pollution history is unrelated to ecological changes. Both lead isotopes and spheroidal carbonaceous particles show a clear atmospheric pollution signal, peaking in the 1980s. 相似文献
10.
F. Šporka E. Štefková P. Bitušík A.R. Thompson A. Agustí-Panareda P.G. Appleby J.A. Grytnes C. Kamenik I. Krno A. Lami N. Rose N.E. Shilland 《Journal of Paleolimnology》2002,28(1):95-109
Sedimentological climate proxies and a 200-year long climate record, reconstructed using a data-set of European-wide meteorological data, have been compared at the high mountain lake Niné Terianske pleso in the High Tatras, Slovakia. Diatoms, chrysophyte stomatocysts, chironomids, plant pigments and spheroidal carbonaceous particles (SCPs) were analysed as well as sediment lithostratigraphic parameters. Using a radiometric approach the sediment core was dated and a depth of 4.6 cm was found to correspond to 1852 AD. The sediment accumulation rate (0.0034 g·cm–2·yr–1) was one of the lowest identified in the European mountain lake project, MOLAR. Despite this slow accumulation rate a remarkably coherent lithological and stratigraphic record has been recovered. The sediments of this remote mountain site, largely free from the effects of direct human impact, have been found to display a wealth of variability over the last 200 years.The record of spheroidal carbonaceous particles, indicators of anthropogenic pollution deposition, begins around 4.5–5.0 cm in depth (1833–1857). Temporal patterns are typical of European lake sites with the concentration peaking in the late 1970's. The SCP/210Pb inventory ratio for the site is also in good agreement with the European latitudinal pattern. A strong influence of sample age on the chrysophyte assemblage composition in the upper-most 4–6 cm indicates that the main changes in the cysts have been related to long term environmental changes, probably pH. Analysis of chironomid remains revealed a stable profundal community. Chironomids as a whole showed no correlations to temperature fluctuations in the last 200 years. Relatively abundant remains of Diamesa sp. head capsules and other taxa closely associated with stream conditions in the older layers contrast with the absence of Diamesa sp. in the recent sediments. This change is considered to be evidence for the existence of a stronger, more stable inlet supplied from permanent granular snow fields in the lake basin. The most important changes in diatom assemblages were observed at 3cm. Many species of the genus Achnanthes spp. together with Navicula schmassmannii and Orthoseira roeseana made up the greatest part of the diatom community above 3 cm, being absent or rare lower in the record. A positive correlation between diatoms and mean summer temperature was found. 相似文献
11.
近30年来西藏那曲地区湖泊变化对气候波动的响应 总被引:33,自引:4,他引:29
根据1975年地形图、20世纪80年代至2005年的TM、CBERS卫星遥感资料和近45年的气温、降水量、蒸发量、最大积雪深度和最大冻土深度等气候资料分析得出,西藏那曲地区东南部的巴木错、蓬错、东错、乃日平错等四个湖泊的水位面积在近30年来呈较显著的扩大趋势,2005年与1975年相比,分别增加了48.2 km2、38.2km2、19.8 km2 (比2004年)、26.0 km2,增长幅度分别为25.6%、28.2%、16.2%、37.6%。其主要原因与该地区近年来气温的上升、降水量的增加和蒸发量的减少、冻土退化等暖湿化的气候变化有很大关系。 相似文献
12.
David F. Porinchu Glen M. MacDonald Amy M. Bloom Katrina A. Moser 《Journal of Paleolimnology》2002,28(3):355-375
Surface lake sediment was recovered from 57 lakes along an elevation gradient in the central, eastern Sierra Nevada of California. The surface sediment was analysed for subfossil chironomid remains in order to assess the modern distribution of chironomids in the region. The lakes sampled for the calibration dataset were between 2.0 and 40.0 m in depth, spanned an altitudinal gradient of 1360 m and a surface water temperature gradient of approximately 14 °C. Redundancy analysis (RDA) identified that five of the measured environmental variables – surface water temperature, elevation, depth, strontium, particulate organic carbon – accounted for a statistically significant amount of the variance in chironomid community composition. Quantitative transfer functions, based on weighted-averaging (WA), partial least squares (PLS) and weighted-averaging partial least squares (WA-PLS), were developed to estimate surface water temperature from the chironomid assemblages. The best model was a WA model with classical deshrinking, which had a relatively high coefficient of determination (r2 = 0.73), low root mean square error of prediction (RMSEP = 1.2 °C) and a low maximum bias (0.90 °C). The results from this study suggest that robust quantitative estimates of past surface water temperature can be derived from the application of these models to fossil chironomid assemblages preserved in late-Quaternary lake sediment in this region. 相似文献
13.
In pal\sgmaelig;olimnological studies, inference models based on aquatic organisms are frequently used to estimate summer lake surface water temperatures. However, the calibration of such models is often unsatisfactory because of the sparseness of measured water temperature data. This study investigates the feasibility of using air temperature data, usually available at much higher resolution, to calibrate such models by comparing regional air temperatures with surface water temperatures in 17 lakes on the Swiss Plateau. Results show that altitude-corrected air temperatures are sufficiently uniform over the entire Swiss Plateau to allow local air temperatures at any particular lake site to be adequately estimated from standard composite air temperature series. In early summer, day-to-day variability in air temperature is reflected extremely well in the temperature of the uppermost metre of the water column, while monthly mean air temperatures correspond well, with respect to both absolute value and interannual variations, with water temperatures in most of the epilimnion. Standardised altitude-corrected air temperature series may therefore be a useful alternative to surface water temperatures for the purposes of calibrating lake temperature inference models. In Northern Hemisphere temperate regions, mean air and water temperatures are likely to correspond most closely in July, suggesting that calibration and reconstruction efforts be concentrated on this month. 相似文献
14.
Limnological responses to warming on the Xizang Plateau,Tibet, over the past 200 years 总被引:1,自引:0,他引:1
Paleolimnological analyses can be used to evaluate limnological responses to changing climate over decadal to centennial timescales,
especially in regions with sparse lake monitoring data. We used a training set with 90 lakes to develop a diatom-based conductivity
transfer function and address climate-driven changes in lakes on the Qinghai-Xizang Plateau, Tibet. This new training set
is an expanded version of a previous model (Yang et al. in J Paleolimnol 30:1–19, 2003) and shows improved performance statistics for the conductivity model. The expanded training set also contains diatom species
not previously identified from the region, such as Stephanodiscus sp. and Cyclotella sp., which are common eutrophic indicator species in other regions, but can also be influenced by water column conductivity.
The new conductivity transfer function was applied to Lakes Nam Co and Chen Co in Tibet. Recent conductivity inferences were
compared with climate data from the Dangxiong weather station and water level records from Yangzhuyong Co, which show increasing
temperature and lower water levels, respectively, since AD 1960. Other studies showed that the water balance for many lakes
on the Qinghai-Xizang Plateau is complex, affected by both evaporation and glacial melting. Our paleolimnological reconstructions,
which include sediment particle size data, indicate that over relatively short timescales glacial meltwater can influence
lake hydrology, but over decadal timescales, increases in evaporation, driven by rising temperatures, dominate. Our findings
suggest that regional warming is lowering water levels at these sites and will continue to do so given predicted future climate
warming. 相似文献
15.
Seasonal ecosystem variability in remote mountain lakes: implications for detecting climatic signals in sediment records 总被引:5,自引:0,他引:5
J. Catalan M. Ventura A. Brancelj I. Granados H. Thies U. Nickus A. Korhola A.F. Lotter A. Barbieri E. Stuchlík L. Lien P. Bitušík T. Buchaca L. Camarero G.H. Goudsmit J. Kopáćek G. Lemcke D.M. Livingstone B. Müller M. Rautio M. Šiško S. Sorvari F. Šporka O. Strunecký M. Toro 《Journal of Paleolimnology》2002,28(1):25-46
Weather variation and climate fluctuations are the main sources of ecosystem variability in remote mountain lakes. Here we describe the main patterns of seasonal variability in the ecosystems of nine lakes in Europe, and discuss the implications for recording climatic features in their sediments. Despite the diversity in latitude and size, the lakes showed a number of common features. They were ice-covered between 5–9 months, and all but one were dimictic. This particular lake was long and shallow, and wind action episodically mixed the water column throughout the ice-free period. All lakes showed characteristic oxygen depletion during the ice-covered-period, which was greater in the most productive lakes. Two types of lakes were distinguished according to the number of production peaks during the ice-free season. Lakes with longer summer stratification tended to have two productive periods: one at the onset of stratification, and the other during the autumn overturn. Lakes with shorter stratification had a single peak during the ice-free period. All lakes presented deep chlorophyll maxima during summer stratification, and subsurface chlorophyll maxima beneath the ice. Phosphorus limitation was common to all lakes, since nitrogen compounds were significantly more abundant than the requirements for the primary production observed. The major chemical components present in the lakes showed a short but extreme dilution during thawing. Certain lake features may favour the recording of particular climatic fluctuations, for instance: lakes with two distinct productive periods, climatic fluctuations in spring or autumn (e.g., through chrysophycean cysts); lakes with higher oxygen consumption, climatic factors affecting the duration of the ice-cover (e.g., through low-oxygen tolerant chironomids); lakes with higher water retention time; changes in atmospheric deposition (e.g., through carbon or pigment burial); lakes with longer stratification, air temperature changes during summer and autumn (e.g., through all epilimnetic species). 相似文献
16.
Qinghai Lake and Zhuye Lake, ~400 km apart, are located in the northwest margin of the Asian summer monsoon. Water of these two lakes mostly comes from the middle and eastern parts of the Qilian Mountains. Previous studies show that the Holocene climate changes of the two lakes implied from lake records are different. Whether lake evaporation plays a role in asynchronous Holocene climate changes is important to understand the lake records. In this paper, we used modern observations beside Qinghai Lake and Zhuye Lake to test the impact factors for lake evaporation. Pan evaporation near the two lakes is mainly related to relative humidity, temperature, vapor pressure and sunshine duration. But tem-perature has different impacts to lake evaporation of the two lakes, which can affect Holocene millennial-scale lake level changes. In addition, differences in relative humidity on the millen-nial-scale would be more significant, which also can contribute to asynchronous lake records. 相似文献
17.
Diatom-based models for reconstructing past water quality and productivity in New Zealand lakes 总被引:17,自引:12,他引:5
The trophic status of lakes in New Zealand is, on average, low compared to more densely populated areas of the globe. Despite this, trends of eutrophication are currently widespread due to recent intensification in agriculture. In order to better identify baseline productivity and establish long-term trends in lake trophic status, diatom-based transfer functions for productivity-related parameters were developed. Water quality data and surface sediment diatom assemblages from 53 lakes across the North and South Islands of New Zealand were analysed to determine species responses to the principal environmental gradients in the data set. Repeat sampling of water chemistry over a 12-month period enabled examination of species responses to annual means as well as means calculated for stratified and mixed periods. Variables found to be most strongly correlated with diatom species distributions were chlorophyll a (Chl a), total phosphorus (TP), dissolved reactive phosphorus (DRP), ionic concentration (measured as electrical conductivity (EC)) and pH. These variables were used to develop diatom-based transfer functions using weighted averaging regression and calibration (simple, tolerance down-weighted and with partial least squares algorithm applied). Overall, models derived for stratified means were weaker than those using annual or isothermal means. For specific variables, the models derived for the isothermal mean of EC (WA-tol r2jack = 0.79; RMSEP = 0.15 log10 S cm–1),the annual mean of pH (WA r2jack = 0.72; RMSEP = 0.25 pH units) and the isothermal mean of Chl a (WA r2jack = 0.71; RMSEP = 0.18 log10 mg m–3 Chl a) performed best. The models derived for TP were weak in comparison (for the annual mean of TP: WA r2jack = 0.50; RMSEP = 0.24 log10 mg m–3 TP) and residuals on estimates for this model were correlated with several other water quality variables, suggesting confounding of species responses to TP concentrations. The model derived for the isothermal mean of DRP was relatively strong (WA-tol r2jack = 0.78; RMSEP = 0.17 log10 mg m–3 DRP); however, residual values for this model were also found to be strongly correlated with several other water quality variables. It is concluded that the poor performance of the TP and DRP transfer functions relative to that of the Chl a model reflects the coexistence of nitrogen and phosphorus limitation within the lakes in the data set. In spite of this, the suite of transfer functions developed from the training set is regarded as a valuable addition to palaeolimnological studies in NewZealand. 相似文献
18.
采用1:5万地形图、Landsat MSS/TM/ETM+/OLI遥感影像及数字高程模型数据,利用遥感和地理信息系统技术,并结合狮泉河、和田和于田3个气象站点1968-2013年的气温、降水量数据对松木希错流域的冰川、湖泊面积变化及其原因进行分析。结果表明:① 1968-2013年流域冰川面积不断退缩,由139.25 km2减少至137.27±0.02 km2,共减少1.98±0.02 km2,减少百分比为1.42%,2001年以后冰川退缩速度加快;② 1968-2013年松木希错面积不断扩张,由25.05 km2增加至32.62±0.02 km2,共扩张7.57±0.02 km2,扩张百分比为30.22%,且2001年之后扩张速率加快,在年代际上与冰川的退缩具有较好的耦合性;③ 1968-2013年湖面潜在蒸散量减少和降水增加分别是导致湖泊扩张的第一和第二影响因素,而升温引起的冰川、冻土融水增加有一定贡献,但影响较小且在年际尺度上不显著。 相似文献
19.
Predicted changes in future climate necessitate a better understanding of climate impacts on lake biota, and the role of within-lake
processes in modifying biotic response. Therefore we examined two climate-related variables (lake-water conductivity and GRIP
temperatures) and lake ontogeny (lake age), to determine their influence on lake autotrophic communities in two neighbouring
closed-basin lakes from West Greenland spanning the past 8,000 years. Using sedimentary pigments as proxies for lake autotrophic
communities, we used synchrony and variance partitioning analyses (VPA) to test three specific hypotheses (a) that lake primary
production would increase with lake age, (b) that climate would be the dominant process controlling autotrophic communities
in these pristine lakes and (c) that the response of autotrophs to conductivity and temperature would vary depending upon
the age of the lake. The results supported our first hypothesis, showing that lakes changed significantly with age, exhibiting
an increase and decline in production in the first millennium of their existence, followed by a steady increase in production
and increasingly frequent abrupt switches between mixed and meromictic states. The highly synchronous detrended response (r = 0.769) of lake autotrophs in the two study lakes, supported our hypothesis that climate was the dominant factor controlling
lake autotrophs. However, VPA revealed that our climate-related variables (temperature and conductivity) explained only small
amounts of variance alone (<12.9%) because covariance among them hindered efficient partitioning. In support of our third
hypothesis, autotrophs responded significantly to temperature and conductivity in interaction with lake age (>50% variance
explained) and with each other (>28% variance explained), such that autotrophic response changed as lakes aged. In spite of
this, lakes sometimes responded independently, as a result of differences in the relative proportion of benthic to pelagic
production and because of differences in lake morphometry. Together these results show that long-term control of lake autotrophs
by climate and lake age is modified on shorter timescales by non-linear responses related to within-lake processes, and by
the interaction of different climate variables with each other and with lake age. 相似文献
20.
量化湖泊与邻近陆地的表面温度差异,拆分生物物理因子对其贡献是明确湖泊气候效应的基础。本文基于耦合CLM4.5的CESM模式模拟的1991—2010年全球气候数据,分析了全球湖泊表面温度效应(湖泊与邻近陆地的表面温度差异)的时空格局,利用IBPM因子拆分理论量化了生物物理因子对其贡献。结果表明:① 湖泊表面温度效应的季节变化明显,但年际变化不显著,北半球湖泊最强增温(4.37 K)和降温效应(-0.99 K)分别出现在9月和4月。② 除干旱区湖泊呈降温效应外,其他气候区的湖泊以增温效应为主,热带湖泊增温效应最强。③ 湖泊表面温度效应的生物物理主控因子随气候区改变,湖陆之间的蒸发差异是干旱区湖泊呈降温效应的主控因子,较低的对流散热效率是热带和温带湖泊呈增温效应的主控因子,反照率差异和冰雪融化潜热分别对寒带、极地湖泊表面温度效应的正贡献和负贡献最大。全球尺度上,湖陆之间的对流效率差异(3.77±0.13 K)和蒸发差异(-2.01±0.1 K)对湖泊表面温度效应的正、负贡献最大。 相似文献