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1.
泥炭沼泽有机地球化学研究进展 总被引:1,自引:0,他引:1
近几十年来,国内外泥炭沼泽地球化学研究取得了一系列重要进展,特别是在脂类化合物和稳定同位素等方面。泥炭沼泽是一个良好的地质档案,泥炭纤维素碳、氢和氧同位素组成和比值是环境变化的综合参数,沉积脂类化合物含有反映有机质母源先质的骨架结构,这些标志物高分辨率地记录了全新世以来古气候、古植被和古环境的演变信息,在当今全球变化研究中占有相当重要的地位。本文综述了泥炭沼泽地球化学研究进展,侧重于泥炭沼泽脂类化合物和稳定同位素等标志物的地球化学研究现状和发展趋势;侧重论述了研究技术的发展、定性说明到定量分析的过渡、研究精度的提高及存在的问题,分析了这些分子标志物与植被演替、气候变迁和环境变化间的对应关系,指出了我国在该方面的薄弱之处以及需加强的领域。 相似文献
2.
中国典型泥炭区现代植物的碳、氧同位素组成及在古环境研究中的意义 总被引:7,自引:2,他引:7
本文测定了中国 3个典型泥炭沼泽四川红原、吉林金川和哈尼的现代沼泽植物中的碳、氧同位素组成。吉林金川和哈尼的沼泽在相似的气候和环境条件下发育演化 ,而四川红原的泥炭发育在截然不同的气候条件下。结果表明 ,每个泥炭沼泽现代植物中的碳、氧同位素均有较大的离散度 ,表现为不同营养状况下的成沼植物之间的同位素差异 ;从δ1 3C值来看 ,三个沼泽中的植物均属C3植物 ;红原与金川、哈尼有着明显不同的现代植物稳定氧同位素组成 ,前者更富集1 8O。同一泥炭植物碳、氧同位素的不均一性要求在利用泥炭沉积物恢复过去气候变化方面一定要谨慎。非常有意义的是贫营养泥炭 (高位泥炭 )的成沼植物有着非常接近的同位素组成 ,揭示贫营养型泥炭可能是更为理想的过去全球变化信息档案 相似文献
3.
来自北方泥炭地的研究表明,沼泽表面湿度变化时常受控于气候变化。然而火山活动区泥炭地的表面湿度是否受到了火山地质的影响?这个问题值得进一步明晰。本研究以长白山赤池泥炭地38 cm深的沉积物作为对象,通过植物大化石、有壳变形虫和腐殖化度多指标分析,重建该泥炭地过去近50年的地表湿度变化。研究表明,3个指标揭示的地表湿度变化趋势总体一致,即38~27 cm(1957~1965 A.D.)由干向湿转变;27~18 cm(1965~1976 A.D.)干湿波动;18~0 cm(1976~2008 A.D.)由湿向干转变。与当地的气象数据对比,发现剖面底部湿度偏低与地热引起的强烈蒸发有关;而剖面上部湿度偏低与降水少、温度高的气候变化模式较吻合。理解泥炭地表面湿度变化对于泥炭记录的古气候、古环境和古生态重建具有重要意义。 相似文献
4.
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
5.
自工业革命以来,大气中CO2浓度快速升高导致了全球变暖,并引发了一系列气候和环境问题。应对气候变化、实现“碳达峰与碳中和”(以下简称“双碳”)已成为世界各国共同倡导的目标;而理解自然系统的碳源汇功能,对实现这一目标具有重要的意义。泥炭地是世界上分布最为广泛的湿地类型,对全球碳循环和气候变化有着十分重要的影响,其在实现“双碳”目标中的重要性受到越来越多的关注,这也使泥炭地碳循环研究成为前沿领域。本文简要回顾了国内外泥炭地碳循环的研究现状,阐述了泥炭地的碳源汇特征(包括CO2净交换、 CH4排放、溶解有机碳迁移、碳累积)、变化及驱动机制,并对其在实现“双碳”目标中的作用进行了分析。总体来说,泥炭地碳循环对全球碳源汇估算具有重要的影响,未来需进一步加强对泥炭地分布和碳库的研究,强化泥炭地生态环境演变规律、碳循环-相关过程对气候变化的敏感度以及研究薄弱地区等的针对性研究。在此基础上,科学地可持续管理和恢复退化泥炭地,如人为水文调节,以保持甚至增加其碳汇潜力和储存碳的稳定性,可发挥泥炭地在“双碳”时代的最大碳汇潜力,也将是减缓气候... 相似文献
6.
泥炭是一种具有多种用途的宝贵自然资源,泥炭中的有机碳储量是研究全球碳库变化及碳循环过程的重要参数。由于泥炭多分布于沼泽中,且泥炭松软含水量大的特性,对于泥炭深度的调查、获取用于测试泥炭原状样品的质量不高,导致泥炭碳储量评价仍存在不确定性和偏差。笔者等在典型泥炭形成地若尔盖沼泽湿地地区,开展了浅钻泥炭调查取样工作,通过在泥炭斑块边缘及中心两种不同沼泽湿地地层开展的试验,验证了轻便钻机在难进入的沼泽湿地的适应性,配套的振动冲击工艺可高质量的获得无扰动的泥炭样品,同时查明了泥炭层的厚度。通过试验初步探索了采用轻便钻机配套振动冲击钻进工艺进行泥炭调查取样的有效性。浅层取样钻探作为泥炭调查取样的一种直接有效的技术手段,可以有效地提高泥炭调查效率和精度,为准确评价泥炭储量数据提供可靠的钻探技术服务支撑。 相似文献
7.
泥炭是一种具有多种用途的宝贵自然资源,泥炭中的有机碳储量是研究全球碳库变化及碳循环过程的重要参数。由于泥炭多分布于沼泽中,且泥炭松软含水量大的特性,对于泥炭深度的调查、获取用于测试泥炭原状样品的质量不高,导致泥炭碳储量评价仍存在不确定性和偏差。笔者等在典型泥炭形成地若尔盖沼泽湿地地区,开展了浅钻泥炭调查取样工作,通过在泥炭斑块边缘及中心两种不同沼泽湿地地层开展的试验,验证了轻便钻机在难进入的沼泽湿地的适应性,配套的振动冲击工艺可高质量的获得无扰动的泥炭样品,同时查明了泥炭层的厚度。通过试验初步探索了采用轻便钻机配套振动冲击钻进工艺进行泥炭调查取样的有效性。浅层取样钻探作为泥炭调查取样的一种直接有效的技术手段,可以有效地提高泥炭调查效率和精度,为准确评价泥炭储量数据提供可靠的钻探技术服务支撑。 相似文献
8.
吉林省泥炭类型与分布规律 总被引:1,自引:0,他引:1
吉林省主体分布在北纬42°—46°之间,位于世界泥炭富集带上。全新世以来,气候变化有利于泥炭沼泽的发育,形成了不同类型的泥炭矿床。为了查明和评价全省泥炭资源,1985年吉林省地矿局组织各地调所对泥炭地进行了重点勘探及大面积野外考察。据这次泥炭远景调查资料,笔者为总结泥炭分布规律及赋存特点将工作所得整理成文,以供读者参考。 相似文献
9.
中国泥炭记录末次冰消期以来古气候研究进展 总被引:1,自引:0,他引:1
泥炭记录的环境演变是过去全球变化(PAGES)研究的重要领域之一,分析了中国泥炭记录的古气候演化研究的区域范围,当前主要以东北哈尼、青藏高原的红原、神农架大九湖以及华南定南大湖四个位于东部季风区的研究工作最为集中。泥炭沉积高分辨率综合信息揭示了末次冰消期以来中国气候变化的时空特征:冷暖干湿变化既有一致性又表现出区域差异,末次冰消期东北地区、东部山地、华南地区都表现出冷偏湿的气候特点,而青藏高原却为冷偏干或凉偏干;Younger Dryas(YD)事件之后,全新世早期和中期青藏高原、东部山地、华南地区气候总体以温湿为主要特征,而东北地区有效降水减少,到全新世晚期,呈现出干旱的变化趋势。并对B~A事件,YD事件,8.2 ka 以及4.2 ka等重大气候突变事件研究工作进行了综述。最后指出今后应拓展与重建更多区域古气候环境变化序列的对比,加强泥炭沉积及环境指标的基础理论,重视和提高大气沉降泥炭档案以及气候变化背景下泥炭地碳循环机制等研究工作。 相似文献
10.
泥炭档案气候变化重建的定量模型 总被引:3,自引:1,他引:3
泥炭档案气候变化重建的定量模型*陶发祥洪业汤(中国科学院地球化学研究所,贵阳550002)李汉鼎冷雪天(东北师范大学地理系,长春130024)关键词泥炭档案纤维素稳定同位素气候变化定量模型用泥炭档案定量重建大气CO2浓度的研究已取得重要进展[1],但... 相似文献
11.
Pollen data are well established for quantitative climate reconstructions over long timescales, including the Holocene and older interglacials. However, anthropogenically induced environmental change in central Europe was strong during the last 4 ka, challenging quantitative reconstructions of this time period. Here we present quantitative climate reconstructions based on pollen analyses and evaluate them with the peat humification record and the stable carbon isotopes of Sphagnum plant material (δ13Ccellulose). All analyses were carried out on the same 7.5 m long, largely ombrotrophic peat bog section from Dürres Maar. Three different methods were used for the quantitative climate reconstructions on the basis of the pollen data: (1) a probabilistic indicator taxa approach (the ‘pdf method’); (2) a modern analogue technique based on pollen taxa from modern surface samples (cMAT); and (3) a modern analogue technique expanded by plant functional types (pMAT). At Dürres Maar the peat humification is only affected by peat cutting during the Roman period and the Middle Ages. The stable carbon isotopes are seemingly unaffected by human impact. Thus both proxies provide independent data to evaluate the reconstructions on the basis of pollen data. The quantitative climate reconstructions on the basis of the individual methods are in general relatively similar. Nevertheless, distinct differences between the individual approaches are also apparent, which could be attributed to taxa that reflect human impact on a local to regional scale. While the pdf method appears to be relatively robust to all observed anthropogenically induced vegetation changes, it potentially underestimates climate variability. This method is therefore expected to be independent of local site characteristics and to provide robust quantitative estimates of climatic trends rather than of climatic variability of small amplitude. This is of value for palaeoclimate reconstructions of older interglacials, for which neither multiple sites nor independent climate proxies are available for comparison. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
12.
Khadijeh Alinezhad Elias Ramezani Morteza Djamali Arash Sharifi Alireza Naqinezhad Cyril Aubert Emmanuel Gandouin Ali Pourmand 《第四纪科学杂志》2021,36(4):598-610
Palynological and geochemical analyses provide valuable information about modern and past climatic regimes and vegetation. The impact of climate and humans on past vegetation in the semi-arid areas of northwestern Iran has received increased interest in the wake of warming temperatures in the Middle East. Palynological and down-core XRF elemental abundances from a peat core from Lake Neor enabled a reconstruction of vegetational changes of the past 7000 years over the highlands of northwestern Iran. Periods of increased arboreal pollen (AP) types and high (Artemisia + Poaceae)/Chenopodiaceae ratios along with low titanium abundances, high percentages of total organic carbon, more negative δD values, and higher carbon accumulation rates suggest a relatively wet climate. These conditions have persisted during the periods 6700–6200, 5200–4450 and 3200–2200 cal a bp. The overall low AP values, substantial rise of Chenopodiaceae, high Ti abundances and low values of palaeo-redox proxies, are all evidences of a drier climate, as has been reconstructed for the periods 6200–5200 and 4030–3150 cal a bp and the last 2200 years. An important feature of the last centuries is the increase of anthropogenic and pastoral indicator pollen types. Our results may provide basic data to predict future trends in vegetation dynamics under future climate change in western Asia. 相似文献
13.
Palsa and peat plateau development in the Hudson Bay Lowlands, Canada: timing, pathways and causes 总被引:1,自引:1,他引:0
PETER KUHRY 《Boreas: An International Journal of Quaternary Research》2008,37(2):316-327
The Holocene development of a treed palsa bog and a peat plateau bog, located near the railroad to Churchill in the Hudson Bay Lowlands of northeastern Manitoba, was traced using peat macrofossil and radiocarbon analyses. Both sites first developed as wet rich fens through paludification of forested uplands around 6800 cal. yr BP. Results show a 20th-century age for the palsa formation and repeated periods of permafrost aggradation and collapse at the peat plateau site during the late Holocene. This timing of permafrost dynamics corroborates well with that inferred from previous studies on other permafrost peatlands in the same region. The developmental history of the palsa and peat plateau bogs is similar to that of adjacent permafrost-free fens, except for the specific frost heave and collapse features associated with permafrost dynamics. Permafrost aggradation and degradation is ascribed to regional climatic, local autogenic and other factors. Particularly the very recent palsa development can be assessed in terms of climatic changes as inferred from meteorological data and surface hydrological changes related to construction of the railroad. The results indicate that cold years with limited snowfall as well as altered drainage patterns associated with infrastructure development may have contributed to the recent palsa formation. 相似文献
14.
A number of studies have revealed that the climate in the eastern margin of the Tibetan Plateau and Northeast China is sensitive
to postglacial changes. Unfortunately, the link of the past climate evolution between the two regions is not well understood.
In this study, two cores are analyzed to determine this link directly. The high-resolution n-alkanol distribution patterns from two typical peat sequences covering the past 16,000 cal years in the northeastern margin
of the Tibetan Plateau and Northeast China, respectively, are closely examined by gas chromatograph–mass spectrometry analysis.
In combination with other palaeoclimatic proxies, it is proposed that the n-alkanol average chain length and (C22 + C24)/(C26 + C28) ratio could reflect past climate changes in the two peat sequences. The n-alkanol proxies reveal several climatic intervals in the period from the last deglaciation through the Holocene. A comparison
of n-alkanol records between the northeastern margin of the Tibetan Plateau and Northeast China indicates that the start and end
of the warm Holocene Optimum differed at the two locations. The spatially asynchronous pattern of climatic change is possibly
a result of different responses to change in solar radiation. The evolution of the Holocene paleoclimate is more consistent
with changes in Northern Hemisphere solar radiation in Northeast China than on the Tibetan Plateau. The Holocene Optimum began
and terminated earlier in Northeast China than in the northeastern margin of the Tibetan Plateau. Thus, the two n-alkanol proxies provide valuable insights into the regional Holocene climate and local environmental conditions. 相似文献
15.
In 2008, the very extensive tropical peats were estimated to be about 182 million ha spanning South America, Asia and Africa. About 20.3%(36.9 million ha) of this area exist in Asia. Peats are classified based on their degree of decomposition, namely Fibrists, Hemists, Saprists and Folists. This makes them different in characteristics. The activities of microorganisms vary in different types of peat due to, for example, the sapric layer of well humified peat can provide water and food to microorganisms during heat stress. In another scenario, deeper peat is older and typically has lower levels of labile carbon to provide substrate for microbes compared to surface peat. A complete understanding of the microbial communities in different layers of peat is essential as microorganisms play major roles in peat decomposition and are important to ecosystem processes. These peats are a very important global carbon(C)store or reserve and could severely impact climate change if not managed well. Peatlands can store as much as 40 to 90 Gt C. Mis-management of peats could severely impact the environment particularly the emission of carbon into the atmosphere. For instance, clearing of peatlands using fire has been reported to release an estimated 88 t C ha~(-1) to the atmosphere. There are several factors which influence the environmental consequences of tropical peat especially in relation to climate change. The main influences are:(i) changes in temperature,(ii) changes in precipitation or rainfall,(iii) changes in atmospheric composition, and(iv) fire and haze. This paper is a brief review on these four influences in relation to climate change. It is apparent from the brief review that there is a need for continued short and long-term research to better understand tropical peats and how they affect our climate. This will hopefully provide the basis for predicting better what could happen under various scenarios. 相似文献
16.
Although recent studies have recognized peatlands as a sink for atmospheric CO2, little is known about the role of Siberian peatlands in the global carbon cycle. We have estimated the Holocene peat and carbon accumulation rate in the peatlands of the southern taiga and subtaiga zones of western Siberia. We explain the accumulation rates by calculating the average peat accumulation rate and the long-term apparent rate of carbon accumulation (LORCA) and by using the model of Clymo (1984, Philosophical Transactions of the Royal Society of London Series B 303, 605-654). At three key areas in the southern taiga and subtaiga zones we studied eight sites, at which the dry bulk density, ash content, and carbon content were measured every 10 cm. Age was established by radiocarbon dating. The average peat accumulation rate at the eight sites varied from 0.35 ± 0.03 to 1.13 ± 0.02 mm yr−1 and the LORCA values of bogs and fens varied from 19.0 ± 1.1 to 69.0 ± 4.4 g C m−2 yr−1. The accumulation rates had different trends especially during the early Holocene, caused by variations in vegetation succession resulting in differences in peat and carbon accumulation rates. The indirect effects of climate change through local hydrology appeared to be more important than direct influences of changes in precipitation and temperature. River valley fens were more drained during wetter periods as a result of deeper river incision, while bogs became wetter. From our dry bulk density results and our age-depth profiles we conclude that compaction is negligible and decay was not a relevant factor for undrained peatlands. These results contribute to our understanding of the influence of peatlands on the global carbon cycle and their potential impact on global change. 相似文献
17.
Jianghua Wu 《Environmental Earth Sciences》2012,65(1):141-151
Peatlands contain approximately 25% of the total soil organic carbon, despite covering only 3% of earth’s land surface. The
ecological, hydrological and biogeochemical functions of peatlands are tightly coupled to climate. Therefore, both direct
human impacts and indirect effects of climate change can threaten the ecological function of peatlands through changes in
hydrology. However, little is known about how peatland ecosystems, and specifically their biogeochemistry, carbon cycling,
and development, may respond to climatic change. In this study, the Peat Accumulation Model was adapted to investigate the
response of peatland development and carbon cycling to climatic change through simulating changes in precipitation and temperature
at different stages of peatland development history. The warming and wetting were imposed on this system at 10,000 years since
its initialization (mid-development stage) and at 20,000 years since its initialization (late-development stage). Here, it
was revealed that peatlands can switch between carbon sinks and sources suddenly, but the extent to which the change takes
place depends on the developmental stage of peatland ecosystems. The simulation results for the late-development stage showed
that peatlands could function as carbon sources once warming and wetting was imposed but that peatland ecosystems during the
mid-development stage can still function as carbon sinks under warming and wetting conditions. Moreover, peatland ecosystems
have self-regulation capabilities so that they can go back to their normal ecological and biogeochemical functions under newly
stabilized climates. Also, it is the change in temperature that results in the fundamental change in peatland development
and carbon cycling. This study indicates that the response of peatland ecosystems to climate change is largely determined
by their developmental stages. 相似文献
18.
SHEILA R. VARDY BARRY G. WARNER TARO ASADA 《Boreas: An International Journal of Quaternary Research》2005,34(3):324-334
Holocene histories of two polygonal peatlands in the low arctic of south-central Nunavut, Canada, are reconstructed using plant macrofossil and pollen stratigraphies of four cores. Peat accumulation began in both basins between 7600 and 8000 cal. yr BP, within less than 1000 years after deglaciation. Mid- to late-Holocene vegetation changes recorded in the peat cores may be related to permafrost aggradation, associated with a regional cooling trend inferred from a nearby lake sediment record. However, differences in the timing of changes among the peatland coring sites indicate that local autogenic processes have also played an important role. Peat accumulation rates have decreased considerably in the past 3000 to 5000 years compared to the early Holocene. Our results illustrate the complexity of peatland development and peat accumulation dynamics in areas of permafrost, resulting from the important influences of both internal autogenic factors and external environmental forces such as climatic change. 相似文献
19.
Xabier Pontevedra-Pombal Daniel Castro Martín Souto Isabel Fraga William H.Blake Maarten Blaauw José A.López-Sáez Sebastián Pérez-Díaz Marcos Valcárcel Eduardo García-Rodeja 《地学前缘(英文版)》2019,10(4):1521-1533
The northwest region of the Iberian Peninsula is home to a unique ecosystem of bogs,which are particularly sensitive to projected climate cha nge.In this context,the rate of carbon(C)accumulation in Chao de Veiga Mol.an intact raised bog,was analysed.Changes in the accumulation rate over the past10 millennia were determined in a peat core of 847 cm in depth,with a high mean rate of peat growth(11 yr cm^-1,0.09 cm yr^-1).An age-depth model was generated from 22 14C dates and fallout radionuclides.Chronological,stratigraphical and physico-chemical data confirmed the existence of a single cycle of peat formation throughout the Holocene and the formation of ombrotrophic peat 9500 years ago.The total mean C content was 50.2%,and over 10 millennia 583 kg C m^-2 accumulated at a mean rate of 35.3 g C m^-2 yr^-1,with a long-term(apparent)rate of carbon accumulation in the catotelm of59.9 g C m^-2 yr^-1.These values are much higher than reported for other Iberian peatlands and are amongst the highest documented for peatlands in the northern hemisphere.The dynamics of C accumulation and other measured parameters reveals important variations throughout the Holocene.They could be associated with the main climatic events described in the northern hemisphere and are highly consistent with models established for northern latitudes.The Chao de Veiga Mol raised bog is unique and of great potential value for carrying out high resolution palaeoenvironmental studies,especially in relation to regional and Iocal modulations in southern Europe. 相似文献