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1.
探讨了全新世中国西南地区红原泥炭地的碳积累速率与气候变化的响应机制,综合腐殖化度、有机碳含量、干容重和纤维素碳氧同位素多指标,重建了红原泥炭地全新世气候变化和碳积累速率变化历史。在温暖湿润早全新世(11.5~6.2ka B.P.)初级生产力超过泥炭分解,是其快速积累期。此阶段红原泥炭碳积累具有明显北方泥炭碳特征。4.5~2.5ka B.P.气候温凉湿润既能促进初级生产力发展,又能抑制泥炭分解,出现高速积累期,此阶段红原泥炭积累速率具有明显热带泥炭碳特征。 相似文献
2.
《地层学杂志》2015,(1)
对天目山千亩田2个泥炭剖面的研究显示,样品中Rb和Sr含量变化呈现出较好的正相关性,Rb/Sr比值与总有机碳含量(TOC)、烧失量和腐殖化度等指标有很好的相关性。Rb/Sr比值和Rb、Sr含量对古降水有指示意义,三者结合可用来重建过去气候的干湿变化。千亩田泥炭剖面Rb/Sr比值和Rb、Sr含量详细记录了晚全新世以来的气候变化,表明其大体存在3个阶段:4.1~3.2cal.ka B.P.,季风降水出现大幅下降,气候向干旱演变;3.2~1.2cal.ka B.P.,气候干冷,且有频繁波动;1.2cal.ka B.P.以来,气候呈现出向湿润变化的趋势,但伴有大幅波动,其中包含了1.2~0.9cal.ka B.P.的中世纪暖期暖干气候以及0.6~0.3cal.ka B.P.的明清小冰期冷湿气候。千亩田泥炭Rb/Sr比值和Rb、Sr含量记录的气候变化与东亚季风区中其他地区的多种高分辨率气候记录具有一致性,表明其共同响应了东亚季风的变迁。 相似文献
3.
位于珠江三角洲西北边缘地区的肇庆高要钻孔岩芯长610cm,其泥炭沉积物记录了全新世的沉积过程、植被演变和人类活动历史.根据木屑及泥炭沉积物的AMS-14C测年,钻孔底部年龄按沉积速率外推大约为6100cal.a B.P..在孔深536~ 175cm段发现以水松(Glyptostrobus pensilis)为主的原位腐木根茎和泥炭沉积.孢粉研究表明近6000年来钻孔所在区域植被类型发生了明显变化,经历了常绿阔叶林→水松森林沼泽→常绿阔叶林→草地沼泽→次生林及草地农田5个阶段.当地的水松沼泽群落在4900~ 2900cal.aB.P.期间十分繁盛,该阶段后期随着沼泽湿地面积的缩小呈现缓慢衰退的趋势;在2900cal.aB.P.左右水松林面积大幅缩小,水松森林沼泽快速转变成浅水及早地莎草科、禾本科为主的草地沼泽;约1700cal.aB.P.后研究区域残余的天然水松基本消失.炭屑分析表明,火灾事件始于距今3500cal.aB.P.,与该地区新石器时代末期相对应,揭示了该区域早期农业的初始时代.乔木植物的比例在2660cal.a B.P.骤减,禾本科、里白/芒箕、松属等先锋属种大量生长,这个过程伴随着炭屑浓度的大幅增加,指示人类刀耕火种活动逐渐增强.研究表明,晚全新世三角洲进积、海岸带推移、潜水位下降和人类活动等综合因素导致了研究区域水松林的消亡,近2600年三角洲早期农业的发展大大加剧了当地水松群落的衰退速度. 相似文献
4.
以广东佛山市西樵山(22°56'15"N,112°57'16"E)全新统厚153 cm的河湖相及红土为研究对象,在11个AMS-14C测年数据和沉积物主量元素分析的基础上探讨全新世以来该剖面的化学风化特征及古环境意义,对具有明确指示化学风化意义的脱硅富铝铁化指标Al2O3/SiO2和(Al2O3+TFeO)/SiO2进行分析,结合孢粉指示的古生态,确定了气候旋回与化学风化旋回之间的关系,为南亚热带地区全新世环境演变提供了地球化学证据。研究结果表明,西樵山全新统共记录了13次弱风化-冬季风事件,其中发生于2000 cal.a B.P.(xc1)、2900 cal.a B.P.(xc3)、4100 cal.a B.P.(xc4)、5300 cal.a B.P.(xc5)、7800 cal.a B.P.(xc10)、9300 cal.a B.P.(xc11)、9500 cal.a B.P.(xc12)和9700 cal.a B.P.(xc13)的事件可对应北大西洋深海沉积Bond事件1~8,前6次事件与南海陆坡北部的17940孔10 ka B.P.以来的6个弱季风事件相应,且这13个冷事件几乎都可与太阳黑子活动最小值阶段相对应。这意味着西樵山剖面全新世突变事件除受北半球高纬冰量变化的影响外,可能还在相当程度上受到太阳活动的强迫。 相似文献
5.
全球变暖背景下频发的极端气候事件,严重影响了经济社会可持续发展。研究过去人类活动背景下的气候变化特征可为预测气候变化趋势、制定应对策略提供历史借鉴。本研究选取福建梅花山国家级自然保护区山间泥炭岩芯(长度238 cm)119个沉积物进行腐殖化度分析,结合粒度和烧失量记录,重建近千年来福建地区高分辨率气候历史。研究结果显示,在东亚季风区的低纬亚高山山间盆地,泥炭沉积物腐殖化度越高,指示气候越冷干;腐殖化度越低,指示气候越暖湿。梅花山泥炭腐殖化度在980~1529 A.D.呈现低值(均值8.4%),指示中世纪暖期较强的东亚季风和暖湿气候;1529~1926 A.D.呈显著高值(均值24.8%),指示明清小冰期较弱的季风和冷干气候;1926 A.D.以来波动下降(均值22.8%),对应了现代暖期。梅花山泥炭腐殖化度记录与区域沉积记录显示出对东亚季风的同步响应。研究结果记录了小冰期的第二次和第三次冷期,分别为1589~1757 A.D.和1842~1926 A.D.。梅花山泥炭腐殖化度记录的近千年气候变化可能受太阳辐射、热带辐合带和厄尔尼诺/南方涛动等的共同驱动。 相似文献
6.
内蒙古鄂尔多斯高原泊江海子全新世气候变化初步研究 总被引:2,自引:0,他引:2
以10个AMS~(14)C测年为框架,利用BJH01孔438cm沉积物岩芯的粒度、烧失量以及孢粉阔叶树含量等代用指标,初步重建了泊江海子地区冰消期以来的气候和环境变化:1)11820cal.a B.P.以前,钻孔处为风成环境,流域发育荒漠或草原化荒漠,气候寒冷干燥;2)11820~11390cal.a B.P.,湖泊形成,流域植被好转,降水略增加,气候变暖湿;3)11390~7510cal.a B.P.,湖泊维持高湖面,降水增加,区域植被演化为阔叶疏林草原,气候温暖湿润,其中10500~8500cal.a B.P.为最宜期;4)7510~6800cal.a B.P.,湖泊水位降低,区域植被退化,气候变干;5)6800~1590cal.a B.P.,气候总体波动变干,其中5000~4000cal.a B.P.为湖侵阶段,气候湿润,4000~1590cal.a B.P.为湖退阶段,气候最为干旱;6)1590cal.a B.P.以来湖泊扩张,水位升高至钻孔位置以上,流域植被为典型草原,气候与现在相当。泊江海子重建的全新世气候变化序列与区域乃至更大尺度的气候变化具有相关性,表现出早全新世湿润、中晚全新世变干的趋势,是季风系统通过海气耦合对北半球夏季日辐射增加的快速响应。 相似文献
7.
长江三角洲西部地区对气候变化反应敏感,但由于缺乏高分辨率的研究材料使学者们对该区域的气候演变过程有着不同的解释,另外,新石器时代环境演变对长江两岸文化交流与传播的影响也还没有引起学者们的关注,为了解决上述科学问题我们在长江三角洲西部高淳地区获得了一个13200 cal a B.P.以来的406 cm厚湖泊沉积剖面,依据孢粉、腐殖化度、烧失量、元素地球化学等古气候记录重建了13200 cal a B.P.以来的气候演变过程并在此基础上探讨了长江两岸新石器时代文化交流与传播路线,研究表明:13200~4400 cal a B.P.期间气候以暖湿为主要特征,但在早期有波动,属于从冷干向暖湿转化的过渡期,4400 cal a B.P.以来以温凉湿润为主要特征,另外,长江三角洲西部地区13200 cal a B.P.以来的气候演变过程并不稳定,高淳剖面古气候代用指标记录了三次气候突变事件,分别为"新仙女木"事件、"8.2 ka"事件和"4.2 ka"事件,6000~4000 cal a B.P.期间的气候变化过程有利于长江三角洲西部长江两岸新石器时代文化之间的交流与传播,沿古中江两岸分布的考古遗址发掘出土的器物表明古中江是长江两岸文化交流与传播的重要通道。 相似文献
8.
通过对贵州东南部雷公坪泥炭进行年代学和有机碳同位素测定,雷公坪泥炭剖面底部150 cm处年龄为13 360±40 a BP,在中部70 cm处年龄为4 570±30 a BP,顶部10 cm处年龄为420±30 a BP,建立了雷公坪泥炭沉积的年代学序列,计算出泥炭层堆积速率由上至下分别为2381 cm·ka-1、1446 cm·ka-1、910 cm·ka-1。获得泥炭层泥炭有机碳同位素δ13C分别为-275‰、-288‰、-285‰,结合其他区域气候记录推断,说明研究区泥炭发育于相对温暖湿润的气候环境。 相似文献
9.
通过对新疆博斯腾湖湖芯沉积物中有机质饱和烃、有机质碳同位素组成(δ~(13)C_(crg))以及与前人得到的环境代用指标结果综合分析,重建了博斯腾湖从早全新世晚期以来古生态环境和湖泊水文的变化历史。结果表明,博斯腾湖大约在8130cal.a B.P.之前气候冷湿,湖泊不发育;约在8130~6400cal.a B.P.为暖湿的全新世适宜期,博斯腾湖流域降水和开都河径流量增加,湖泊水位上升外溢,水生植物及陆生植物发育;6400~5500cal.a B.P.左右冷湿,有效湿度较高,湖泊仍处于较高水位;5500~3000cal.a B.P.左右气候波动明显,为温干时期,而大约在4500—3900cal.a B.P.期间降温,为冷干环境;3000cal.a B.P.以来气温降低,2300~1250cal.a B.P.左右气温有所回升,大约自1250cal.a B.P.以来博斯腾湖地区自然环境逐渐干旱恶化,陆生植物发育较差,而湖泊中沉水植物发育较好。 相似文献
10.
气候变化是影响全球泥炭沼泽分布和演化的最重要的因子之一,而泥炭地由于自身的特点成为过去气候变化的良好地质档案。在介绍泥炭沉积过程及不同类型的泥炭沼泽的发育特点基础上,从过去气候变化的常用泥炭记录和泥炭地碳记录等方面总结了国际上针对泥炭地反演气候变化研究的若干重要进展,重点剖析了泥炭腐殖化度、植物残体、有壳变形虫、生物标志化合物、同位素和孢粉等泥炭地过去气候变化重建的代用指标的适用范围和优缺点,同时也分析了泥炭地碳累积和碳循环等热点研究问题。最后从泥炭地作为过去气候变化的记录档案、泥炭地对现在气候变化的响应与反馈及在泥炭地进行现场气候变化监测与实验等方面对泥炭地与气候变化研究进行了展望。 相似文献
11.
Humification degree of peat and its implications for Holocene climate change in Hani peatland, Northeast China 总被引:2,自引:0,他引:2
The humification degree of peat is a significant climatic proxy for paleoclimate change.Using the alkali-extraction method,a time series of absorbance values of the Hani peatland,Northeast China,was determined,which is used as an indicator for the humification degree of peat.Combined with14C dating data of peat cellulose,and compared withδ18O andδ13C time series of the cellulose in the Hani peatland,the evidence for the existence of14 ka paleoclimate was provided.Higher humification degrees hint a warmer-wetter climate,and vice versa.It also reconstructs the four stages of Holocene climate evolution in this region:11.5–9.8 cal ka B.P.,warm and wet period;9.8–9.0 cal ka B.P.,cold and dry period;9.0–4.8 cal ka B.P.,warm and wet period;and 4.8–0 cal ka B.P.,warm-wet and dry-cold alternation period.Meanwhile,it is revealed that the abrupt climate shifts signals such as the "8.2 ka" event and the "4.2 ka" event.Results showed that the Hani peat humification degree is of sensitive response to paleoclimate change.Therefore,it is a feasible method to analyze the relationship between paleoclimate change and peat humification degree. 相似文献
12.
Multiple proxies from a 319-cm peat core collected from the Hudson Bay Lowlands, northern Ontario, Canada were analyzed to determine how carbon accumulation has varied as a function of paleohydrology and paleoclimate. Testate amoeba assemblages, analysis of peat composition and humification, and a pollen record from a nearby lake suggest that isostatic rebound and climate may have influenced peatland growth and carbon dynamics over the past 6700 cal yr BP. Long-term apparent rates of carbon accumulation ranged between 8.1 and 36.7 g C m? 2 yr? 1 (average = 18.9 g C m? 2 yr? 1). The highest carbon accumulation estimates were recorded prior to 5400 cal yr BP when a fen existed at this site, however following the fen-to-bog transition carbon accumulation stabilized. Carbon accumulation remained relatively constant through the Neoglacial period after 2400 cal yr BP when pollen-based paleoclimate reconstructions from a nearby lake (McAndrews et al., 1982) and reconstructions of the depth to the water table derived from testate amoeba data suggest a wetter climate. More carbon accumulated per unit time between 1000 and 600 cal yr BP, coinciding in part with the Medieval Climate Anomaly. 相似文献
13.
Stratigraphic relationships, radiocarbon dating, sediment and peat characteristics, and rates of peat and carbon accumulation from a soligenous peatland, or “bofedal,” in the Chilean Altiplano shows the peatland to be unusually young, dynamic, and sensitive to environmental changes. The site lies in the National Park Nevado de Tres Cruces in the puna desert grassland at an elevation of 4300 m a.s.l. Eight peat cores were extracted from a 1.75-km transect yielding a maximum of 3.6 m of organic sediment. Organic matter began to accumulate 1700-1100 cal yr B.P. under a progressively arid local climate, after a period when regional climate is believed to have been more humid than at present. Areas of greater relief and better drainage in the valley bottom eventually fostered the growth of a riparian cushion plant community after water flowing down the valley began to diminish. This led to rapid lateral expansion of the riparian peatland communities over open water in topographic depressions at a rate heretofore unprecedented in the peatland literature. It appears that development of the peatland has been encouraged by autoregulation of internal hydrology. The drainage impediment created by organic mass accumulation in lower-relief areas probably reduced the amount of water arriving at the lower reaches of the peatland. These areas have become progressively drier and have since died and oxidized. Through endogenous peat accumulation and a concomitant drainage impediment, the ecosystem has been migrating upstream over the past 50 years. 相似文献
14.
Holocene lateral expansion, peat growth and carbon accumulation on Haukkasuo, a raised bog in southeastern Finland 总被引:1,自引:0,他引:1
Paludification intensity and peat deposition on Haukkasuo bog in southeastern Finland were studied with peat stratigraphic investigations by taking 79 samples for 14 C carbon dating and 164 volumetric samples. Peat formation of Haukkasuo, a concentric raised bog, began about 10 400 cal. BP. Lateral expansion has been largely controlled by the flat clayey floor, which has favoured rapid growth of the bog. During the first 400 years of its existence the bog covered one-fifth, and in the following 2000 years one-half, of its present extent. The long-term carbon accumulation rate averages 22.3 g C/m2 /yr in the central part of Haukkasuo and 16.7 g C/m2 /yr in its margins. The highest rates of carbon accumulation over 500-year periods were recorded in the central part of the bog in 6500–5500, 3500–2500 and 1500–0 cal. BP. The rate of vertical peat increment was higher than average in these periods, and the peat was mainly slightly humified and, when close to the surface, un compacted. The rate of carbon accumulation was lowest in 5500–3500 and 2500–2000 cal. BP, when the rate of vertical growth was lower than average and the peat was more humified than average. The formation of peat, the rate of vertical peat increment and the succession of peat types in Haukkasuo have mainly been controlled by hydrological changes caused by local factors, although climatic factors might also be important. In particular, the formation of slightly humified peat in 3300–2700 cal. BP and during the last 1300 years can be related to humid climate. 相似文献
15.
A. BRITTA K. SANNEL PETER KUHRY 《Boreas: An International Journal of Quaternary Research》2009,38(1):13-24
Peat and net carbon accumulation rates in two sub-arctic peat plateaus of west-central Canada have been studied through geochemical analyses and accelerator mass spectrometry (AMS) radiocarbon dating. The peatland sites started to develop around 6600–5900 cal. yr BP and the peat plateau stages are characterized by Sphagnum fuscum peat alternating with rootlet layers. The long-term peat and net carbon accumulation rates for both profiles are 0.30–0.31 mm/yr and 12.5–12.7 gC/m2 yr, respectively. These values reflect very slow peat accumulation (0.04–0.09 mm/yr) and net carbon accumulation (3.7–5.2 gC/m2 yr) in the top rootlet layers. Extensive AMS radiocarbon dating of one profile shows that accumulation rates are variable depending on peat plateau stage. Peat accumulation rates are up to six times higher and net carbon accumulation rates up to four times higher in S. fuscum than in rootlet stages. Local fires represented by charcoal remains in some of the rootlet layers result in very low accumulation rates. High C/N ratios throughout most of the peat profiles suggest low degrees of decomposition due to stable permafrost conditions. Hence, original peat accretion has remained largely unaltered, except in the initial stages of peatland development when permafrost was not yet present. 相似文献
16.
MARKKU MÄKILÄ MARKKU MOISANEN 《Boreas: An International Journal of Quaternary Research》2007,36(2):198-210
Holocene lateral expansion and carbon accumulation within Luovuoma, a northern fen in Finnish Lapland, were examined utilizing stratigraphy, peat properties such as humification and macrofossil composition, 58 radiocarbon dates and the carbon content of 31 volumetric samples, in an attempt to understand variations in carbon accumulation over time. Paludification started about 9800 years ago. The lateral expansion of the mire was most rapid during phases subsequent to the first signs of paludification, with the result that by 5000 cal. yr BP 79% of the present area of Luovuoma supported mire vegetation. The mire initially expanded laterally at a relatively fast rate with an irregular outline, and only gradually attained its more regular existing form. This is corroborated by the amounts of carbon accumulated during different times: 58% of the carbon had formed before the time point of 5000 cal. yr BP. The long-term net carbon accumulation rate, based on the vertical and lateral growth of the peat deposit, was 11.8 g C/m2/yr. Variations in carbon accumulation rates can be explained to a great extent by natural succession and variable local conditions, but the role of climate cannot be ignored. A marked decline in average carbon accumulation rates (from 26 to 9 g C/m2/yr) during the period between 7800 and 4900 cal. yr BP may indicate a relatively dry and warm climate. The levelling out and subsequent increase in carbon accumulation rates after 4900 cal. yr BP, with special reference to the youngest areas of Luovuoma, indicates a change to a predominantly cooler and moister climate. The stratigraphy of Luovuoma suggests that carbon exchange and accumulation by the mire has always been sensitive to climatic fluctuations, which have been characteristic of the entire Holocene. 相似文献
17.
通过对贵州龙里高山草原泥炭进行加速器(AMS)14C测年和有机碳的测定,获得泥炭层底部0.90 m和0.55 m处年龄分别为(7 933±33)a B.P.和(7 733±28)a B.P.,计算出泥炭层堆积速率为1.75 mm/a。获得泥炭层δ13C为-28.9‰~-26.6‰,平均为-27.8‰,说明植被以C3植物为主,与现在坪台沼泽上苔藓繁盛相似。结合其他地区的气候记录推断,研究区泥炭发育于相对温暖湿润的气候环境,是全新世大暖期的第一个暖湿期形成的产物。 相似文献
18.
J.J. Blackford R.J. Payne M.P. Heggen A. de la Riva Caballero J. van der Plicht 《Quaternary Research》2014
The mid-Holocene eruption of Aniakchak volcano (Aniakchak II) in southwest Alaska was among the largest eruptions globally in the last 10,000 years (VEI-6). Despite evidence for possible impacts on global climate, the precise age of the eruption is not well-constrained and little is known about regional environmental impacts. A closely spaced sequence of radiocarbon dates at a peatland site over 1000 km from the volcano show that peat accumulation was greatly reduced with a hiatus of approximately 90–120 yr following tephra deposition. During this inferred hiatus no paleoenvironmental data are available but once vegetation returned the flora changed from a Cyperaceae-dominated assemblage to a Poaceae-dominated vegetation cover, suggesting a drier and/or more nutrient-rich ecosystem. Oribatid mites are extremely abundant in the peat at the depth of the ash, and show a longer-term, increasingly wet peat surface across the tephra layer. The radiocarbon sample immediately below the tephra gave a date of 1636–1446 cal yr BC suggesting that the eruption might be younger than previously thought. Our findings suggest that the eruption may have led to a widespread reduction in peatland carbon sequestration and that the impacts on ecosystem functioning were profound and long-lasting. 相似文献
19.
《Boreas: An International Journal of Quaternary Research》2018,47(2):454-468
Under changing climatic conditions permafrost peatlands can play an important role in the global carbon budget through permafrost carbon feedbacks and shifts in carbon assimilation. To better predict future dynamics in these ecosystems an increased understanding of their Holocene carbon and permafrost history is needed. In Tavvavuoma, northern Sweden, we have performed detailed analyses of vegetation succession and geochemical properties at six permafrost peatland sites. Peatland initiation took place around 10 000 to 9600 cal. a BP, soon after retreat of the Fennoscandian Ice Sheet, and the peatlands have remained permafrost‐free fens throughout most of the Holocene. At the four sites that showed a continuous accumulation record during the late Holocene radiocarbon dating of the shift from wet fen to dry bog vegetation, characteristic of the present permafrost peatland surface, suggests that permafrost developed at around 600–100 cal. a BP. At the other two sites peat accumulation was halted during the late Holocene, possibly due to abrasion, making it more difficult to imply the timing of permafrost aggradation. However also at these sites there are no indications of permafrost inception prior to the Little Ice Age. The mean long‐term Holocene carbon accumulation rate at all six sites was 12.3±2.4 gC m−2 a−1 (±SD), and the mean soil organic carbon storage was 114±27 kg m−2. 相似文献
20.
《Boreas: An International Journal of Quaternary Research》2018,47(4):1084-1101
The initial conditions for the development of a large peatland complex in the St Lawrence Lowlands were reconstructed to increase the understanding of early development and expansion modes in this region. Peatland basin morphometry was identified by creating a model based on over 1500 existing peat depth measurements, and six cores were extracted along transects from a central (deepest) location towards the margins. C accumulation rates and ecohydrological conditions were reconstructed from plant macrofossils, testate amoeba assemblages and 14C chronologies. Luminescence dating was performed to better delineate the timing of dune stabilization in the area and potentially related climate changes. Shallow freshwater plant communities acted as nuclei for the development of a rich minerotrophic fen around 10 300 cal. a BP in the deepest part of a shallow depression at the surface of the St‐Maurice river delta. Peat inception was followed by the paludification of peripheral parabolic dune systems. Luminescence dating suggested dune stabilization between 11 500 and 10 900 years ago. The initial rich fen persisted until 9500 cal. a BP, and was replaced by a poor fen dominated by sedges as a result of a decrease in mineral nutrient influx from upland runoff. The shift to ombrotrophic conditions in the oldest section of Lac‐à‐la‐Tortue peatland started around 5150 cal. a BP. This major ecohydrological change coincides with those observed in several other peatlands in southern Québec. Variations in carbon and peat accumulation rates in both ombrotrophic and minerotrophic sectors appear to have been primarily controlled by hydroseral succession, peat‐forming vegetation, hydrological conditions, topography and fire activity. This study is the first to provide a quantification of the total carbon pool of a peatland complex in southern Québec at 6.39 Mt C, corresponding to a mean C mass per area of 96.9 kg C m−2 (σ = 50.60 kg C m−2). 相似文献