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1.
生物标志物稳定氢同位素组成包含了重要的环境信息,以长链烯酮、甲藻甾醇和中链脂肪酸为代表的生物标志物氢同位素δD值以及氢同位素分馏被越来越多地应用到古海洋盐度重建的工作中。近20年的研究表明,海洋藻类生物标志物δD值受到诸多因素控制,如盐度、种属、温度和光照等。重点介绍表层海水盐度对海洋藻类脂质δD值的影响,通过汇总培养实验以及实地研究中的藻类生标δD值与盐度的关系,以及已有的藻类生标δD值重建古盐度的应用,提出使用该方法重建古表层海水盐度时存在的问题和需要关注的重点。希望通过研究可以更好地理解藻类生标δD值的应用潜力,为生标单体氢同位素研究提供更准确详尽的信息。 相似文献
2.
湖北宜昌地区寒武系—下奥陶统的碳氧同位素记录 总被引:10,自引:0,他引:10
对宜昌地区寒武系和下奥陶统的碳酸盐碳、氧同位素进行测定,所得δ18O大 于-10‰且与δ13C不相关,表明研究区碳酸盐样品基本上保存了碳、氧同位素的初 始比值。δ18O在白云岩样品中呈现正漂移而在非白云岩样品中呈现负漂移,认为δ 18O反映海水古盐度变化,即δ18O随着古盐度升高而增大;δ13 C在缺氧沉积物中呈现负漂移,但负漂移的δ13C却不限于缺氧沉积物,推测δ13 C可能反映古海洋的初级生产力,即δ13C随着初级生产力的提高而降低。研究还指 出,由于Z值与δ13C密切正相关(相关系数为0.99),综合运用δ18O和δ 13C的经典盐度公式不适用于研究区古盐度环境的重建。 相似文献
3.
沉积岩中烷烃的氢同位素有潜在的古降水同位素意义,但是成岩作用有可能改变原始同位素信息,从而难以用于恢复古降水同位素。然而,判断烷烃氢同位素值(δD)是否受到了成岩改造作用在学术界尚无统一标准。本文以青藏高原中部伦坡拉盆地渐新世末期到中新世早期的沉积岩为研究对象,对样品中正构烷烃和植烷(Ph)δD值以及藿烷、甾烷类的成熟度指标进行了测定。Ph与nC18正构烷烃的δD值分别为–105‰-–139‰和–267‰-–324‰,两者间平均相差–170‰,暗示正构烷烃原始δD值基本处于未改变的状态。藿烷、甾烷类的成熟度指标显示样品在未成熟到低成熟范围内有较大变化,但各成熟度指标与 Ph、nC18正构烷烃的δD值之间的相关关系较弱,表明这些成熟度指标并不能很好地反映烷烃δD值是否遭受了改变。 相似文献
4.
湖泊沉积物中包含有丰富的气候变化信息.其中生物分子标志物稳定氢同位素作为优良的气候变化代用指标已经得到广泛应用.由于湿润地区和干早地区湖泊的蒸发作用和水文条件不同,用来重建所得的降水稳定同位素变化所指示的气候意义也不相同.文章介绍作者过去几年内在湿润地区和干早地区所进行的探索,并探讨这些生物分子标志物同位素变化所代表的气候指示意义.在湿润地区,主要由水生植物产生的C22脂肪酸可以很好地记录湖水同位素变化和降水同位素变化,而后者又与采样地点的地表气温变化一致,因此C22脂肪酸的稳定氢同位素在湿润地区可以作为温度代用指标.在干早地区,湖水受强烈的蒸发作用影响,由水生生物产生的生物分子标志物氢同位素不能反映降水同位素变化,而在湖泊沉积物保存的、由陆生植物产生的叶蜡化合物可以很好地记录降水同位素变化.最后介绍了在湿润地区的湖泊中应用Czz脂肪酸稳定氢同位素成功重建北美洲东北部地区晚更新世到早全新世气候变化,并讨论其变化机制. 相似文献
5.
在古海洋、古环境研究领域,水体盐度重建是长期以来亟待解决的难题。在无机地球化学作为古盐度计应用日趋成熟的同时,有机地球化学指标为解决该问题提供了不同的思路和观点。经过数十年来的大量生物培养实验和环境研究,基于C37:4烯酮的质量分数、古菌膜脂的ACE(archaeol and caldarchaeol ecometric)指数、长链二醇的醇指数指标(diolindex,DI)和脂类氢同位素组成等都被证明与水体盐度有相当密切的联系,可以将它们作为指示区域水体古盐度变化的参考证据。需要指出的是,由于对这些生物标志物的生物来源和合成过程了解的局限性以及其他环境因素的影响,本研究也讨论了在具体应用时需要考虑的适用范围及区域校正问题。 相似文献
6.
扬子地台灯影组碳酸盐岩中的硫和碳同位素记录 总被引:17,自引:3,他引:17
扬子地区灯影组的海相碳酸盐岩地层不仅记录了当时海水的碳同位素变化,也保存了海水的硫同位素记录,能够通过测定所提取的微量硫酸盐的硫同位素组成来获得。灯影组碳酸盐岩中微量硫酸盐的δ^34S值大部分在 20.0‰~ 38.7‰之间变化,碳酸盐岩的δ^13C值变化在 0.5‰~ 5.0‰之间。除灯影组顶、底界线处外,δ^34S和δ^13C值总体上变化幅度较小,大体上呈逐渐降低的变化趋势。灯影组碳酸盐岩中连续的硫、碳同位素记录分别反映了同期海水中溶解硫酸盐和碳酸盐的硫、碳同位素的变化特征。灯影组微量硫酸盐和碳酸盐岩的同位素特征,意味着灯影期海洋中具有高的生物产率和有机碳埋藏速率;除了顶底界线处,具有相对稳定的古气候条件和古海洋环境。灯影期海水的δ^34S值和δ^13C值同时呈逐渐降低的变化趋势,可能是由海洋深部水体逐渐氧化所致。 相似文献
7.
有孔虫壳体的Mg/Ca比值在古环境研究中的应用 总被引:5,自引:1,他引:4
有孔虫壳体的Mg/Ca比值测定是目前估算海水古温度最受重视的方法,适用于低纬和高纬、表层和深层海水古温度的测定。该方法理论误差仅为±1.1℃,考虑到盐度以及海水pH值的影响,其误差为±1.3℃。运用此法推算出的热带海区表层海水温度领先于全球冰盖的变化,是热带过程调控冰期旋回最强有力的证据之一;与氧同位素相结合,还成功地运用于全球冰量的估算,是目前古环境研究中较常用的古温度测试手段。 相似文献
8.
《地球科学进展》2019,(12)
深水珊瑚生存在黑暗的冷水环境中,为其提供能量和营养的食物源于哪里,是一个关键的生态学和生物地球化学问题。目前的主流认识是珊瑚的食物主要来自于表层海水生产的沉降有机质,但越来越多的研究发现它们能够通过与多种化能自养和异养微生物共生来获得食物供给。深水珊瑚的碳、氮同位素可用来示踪和揭示珊瑚的食物来源,也可用于重建古海洋初级生产者构成和表层海水硝酸盐同位素的变化,成为古海洋生物地球化学研究的宝贵材料。但由于与微生物共生现象的广泛存在,运用深水珊瑚有机碳、氮同位素来反映表层海洋环境变化的可靠性还有待进一步验证。南海近年来发现的深水柳珊瑚林,在国际上仍属认识相对匮乏的新领域,对其开展生物化学基础和古海洋学重建研究,能够为了解深水珊瑚系统提供新的见解。 相似文献
9.
活动断裂带附近地下水中的氢同位素变化与地震关系研究 总被引:3,自引:1,他引:2
本文主要研究活动断裂带附近地下水中的氢同位素变化与地震的相关性。2009年1月初,我们在汶川地震的发震断裂带——龙门山断裂带南缘的雅安进行考察,并开始采集地热深井的地下水样品,到5月初结束。在采样期间,龙门山断裂带发生4~5级余震多次。对所采地下水样品氢同位素δD值的分析结果表明,发震断裂带附近地下水中的氢同位素异常与该断裂带上4.0级以上地震有一定相关性。从氢同位素δD值随时间变化曲线可看出,(1)震前氢同位素δD值由背景值逐渐降低,震后升高,然后再逐渐回归背景值;(2)地震的级别越大,氢同位素δD值变化越显著;(3)从氢同位素δD值开始系统地降低到地震发生,这个过程大约可持续一周左右时间,属于临震预报的时间范畴。从本研究结果可得出地下水中氢同位素δD值异常能够反映断裂带的地震活动性,可作为5.0级以上地震临震预测的一种方法。 相似文献
10.
为认识低纬度亚热带地区湖泊沉积物中正构烷烃氢同位素组成特征及其与母源输入和生态环境的关系,本文利用气相色谱-高温热转变-同位素比值质谱议(GC-TC-IRMS),对系统采集的抚仙湖沉积物样品中正构烷烃氢同位素进行了测定。抚仙湖沉积正构烷烃δD值分布在-219.3‰~-142.5‰之间,样品中平均值为-208.1‰~-154.5‰,并且奇碳数正构烷烃δD值明显地将样品划分为两种类型。类型Ⅰ样品中正构烷烃平均δD值明显地高于类型Ⅱ样品,反映了它们生物源存在明显差别。沉积物与水生植物和陆生植物中正构烷烃氢同位素组成对比结果指示了沉积C_(17)、C_(21)~C_(25)奇碳数正构烷烃来自水生植物,C_(27)和C_(29)奇碳数正构烷烃主要来自木本植物,C31和C33正构烷烃来自水生和陆生草本植物的混合。对比研究结果表明,湖泊地区生态环境是控制湖泊沉积正构烷烃氢同位素组成的重要因素之一,在利用沉积正构烷烃氢同位素研究古水文学特征时,还要考虑研究区古生态环境对沉积正构烷烃氢同位素的影响,并且结合沉积正构烷烃ACL值和Qw值,才能对沉积有机质中正构烷烃氢同位素组成及变化作出合理的解释。 相似文献
11.
Sediments from 28 saline and hypersaline (salinity 13.6-149.2) ponds on Christmas Island (Kiritimati), in the Central tropical Pacific Ocean, were investigated for the effect of salinity on the D/H ratios of lipid biomarkers. Hydrogen isotope ratios (expressed as δD values) of total lipid extracts, and individual hydrocarbons heptadecane, heptadecene, octadecane, octadecene, diploptene, and phytene from cyanobacteria, became increasingly enriched in deuterium as salinity increased, spanning a range of 100‰, while lake water δD values spanned a range of just 12‰. Net D/H fractionation between lipids and source water thus decreased as salinity increased. Isotope fractionation factors (αlipid-water) were strongly correlated with salinity, and increased in all compound classes studied by up to 0.0967 over a salinity range of 136. Differences in the hydrogen isotopic composition of lipids derived from three biosynthetic pathways (acetogenic, mevalonate, and non-mevalonate) remained similar irrespective of the salinity. This suggests that the mechanism responsible for the observed αlipid-water-salinity relationship originates prior to the last common biosynthetic branching point, the Calvin Cycle. We propose that a decrease in the exchange of intra- and extra-cellular (ambient) water resulting from down-regulation or closure of water channels (aquaporins) within cyanobacterial cell membranes, and subsequent isotopic enrichment of the intracellular water, likely resulting from metabolic reactions. These findings imply that caution must be exercised when attempting to reconstruct source water δD values using lipid δD values from environments that may have experienced salinity variations. On the other, hand our results can be used to establish a paleo-salinity proxy based on lipid δD, if additional constraints on source water δD values can be made. 相似文献
12.
Carbon isotope ratio (δ13C) values of lipid biomarkers from plants can be used to assess water use efficiency and to reconstruct environmental conditions in the past. We assessed the effect of salinity on the δ13C values for leaf wax n-C31 and n-C33 alkanes, bulk leaf matter and leaf total lipid extracts from Avicennia marina (gray mangrove) trees growing along the Brisbane River estuary in Queensland, Australia. We observed an increase in 0.19 ± 0.053‰ (R2 0.61, p 0.008) and 0.16 ± 0.052‰ (R2 0.55, p 0.01) per salinity unit for the two n-alkanes, respectively, and of 0.087 ± 0.028‰ (R2 0.41, p 0.009) for whole leaves per salinity unit, indicating that water use efficiency of A. marina increased with the salt content of water. There was no correlation between δ13C values of total lipid extracts and salinity, perhaps because of a decrease in lipid concentration at higher salinity or because of varying contributions of different lipid classes to the extract. The robust relationship between salinity and δ13C values of leaf wax lipids provides a means of quantitatively reconstructing past salinity from carbon isotope ratios of mangrove lipid biomarkers in sediments. When paired with measurements of the hydrogen isotope ratio values of the same compounds, the approach should facilitate quantitative reconstruction of the hydrogen isotope composition of environmental water. In order for the method to successfully reconstruct past salinity and water isotopes, a mangrove source for leaf wax would need to be confirmed by palynological or other evidence, or the isotopic composition of a more source specific biomarker, such as taraxerol, would need to be measured. 相似文献
13.
We tested the use of hydrogen isotopic ratios (δD) of lipids in marine lake sediments from the Micronesian Republic of Palau against the instrumental record of the last century to assess their capacity to record past hydrological changes of the Western Pacific Warm Pool. δD values of the algal lipid biomarker dinosterol (δDDino) and the more generic palmitic acid (δDPA) were found to be sensitive indicators of the intensity of regional precipitation, as recorded by the Southern Oscillation Index (SOI). The observed sensitivity is caused by the combined effect of: 1) The amount effect in tropical precipitation; 2) Dilution of the isotopically heavy saline surface waters with light precipitation; 3) A salinity effect on the biosynthetic D/H fractionation between lipid and lake water. Both lake water δD (δDLake) and δDDino could be expressed as a quadratic function of either precipitation or lake water salinity. δDDino values were used to reconstruct past hydrological changes of the region. Long-term variations in the strength and sign of the El Niño - Southern Oscillation (ENSO) since the Little Ice Age (LIA, ~1450–1850 A.D.) and during the early Holocene (~7–9 kyr BP) appeared to dominate decadal variability, and indicate very dry conditions during the LIA. Early Holocene δDDino values were on average ~10‰ higher than those of recent centuries, which we interpret as a result of millennial scale hydrologic and water mass changes on a global level. The similar ~35‰ range of δD changes during the early Holocene and last several centuries imply a similar range of decadal-centennial hydrologic variability during those two climate regimes. Our results indicate that a correlation exists between solar irradiance levels and tropical Pacific climate. 相似文献
14.
15.
Analyses were made of a mollusc‐based meta dataset of 859 δ13C and δ18O data of Miocene nearshore settings in the European Paratethys Sea and its descendant Lake Pannon. The observed trends document a strong tie to geodynamics, which are largely decoupled from Miocene open ocean isotope curves. Semi‐ to fully enclosed, initially marine water bodies such as the Paratethys Sea are prone to switching seawater isotope signatures because they respond rapidly to changes in the evaporation/precipitation ratio. Two phases of positive deviations of oxygen isotope values of water (relative to the modern ocean value, SMOW) occurred during the Middle Miocene; both were initiated by tectonic constrictions of the seaways and became amplified by global warming and regionally decreasing precipitation. With the final disintegration of the Paratethys, the marine isotope signatures vanish. Instead, the observed isotope trends suggest a comparably simple system of an alkaline lake with steadily declining salinity. The ‘ocean‐derived’ Paratethys Sea may thus act as a key for understanding isotope trends in epicontinental seas. 相似文献
16.
This paper examines how the mixing of freshwater and seawater, and related mixing of freshwater and marine particulate organic matter (POM) in the permanently stratified estuary of the River Krka, Croatia, are reflected in the stable isotope fingerprints of soft tissues and tubes of the serpulid Ficopomatus enigmaticus. The carbon stable isotope composition (δ13C values) of the river-borne POM is retained over long distances, causing a depletion in 13C of POM in brackish waters. A trophic depletion in 13C was recorded in serpulid soft tissues. The serpulid carbonate tubes were depleted in 13C even at locations with salinity close to that of the sea and were subject to large isotope fractionation between dissolved inorganic C (DIC) and carbonate caused by vital effects, making carbonate depleted in 13C by several per mil compared with DIC. These effects, though large in the freshwater zone, fade towards the sea. The carbonate δ18O values of tubes reflect the δ18O values of the water. The temperature-related differences in δ18O values of tubes from different sites are masked by source-related differences in the δ18O values of water arising from mixing of freshwater and seawater in the estuary. Therefore, in serpulide tubes, the terrestrial component can easily be overestimated because of vital effects during biomineralisation and trophic depletion in 13C in freshwater and brackish environments. 相似文献
17.
Hydrogen isotope ratios of recent lacustrine sedimentary n-alkanes record modern climate variability
Hydrogen isotope ratios were measured on n-alkanes (n-C12 to n-C31) extracted from recent lake surface sediments along a N-S European transect to test if modern climate variability is recorded in these biomarkers. δD values of the n-alkanes are compared to δD values of meteoric water from the IAEA-GNIP database spanning a range from −119‰ in northern Sweden to −41‰ in southern Italy, to lake water δD values, and to mean annual temperatures, varying between −2.0°C in the north and 13.7°C in the south.δD values of the short-chained n-alkanes n-C12 to n-C20, excluding algal derived n-C17 and n-C19, are higher in the north and lower in the south. The isotopic fractionation ε for hydrogen between meteoric water and the short-chained n-alkanes is increasing from N to S by more than 100‰ and is significantly correlated to mean annual temperature for n-C16 and n-C18. This suggests that these n-alkanes may originate from a different source in the northern lakes, possibly due to petroleum contamination, or are synthesized using a different biochemical pathway.The n-C17 and n-C19 alkanes of algal origin, the n-C21 and n-C23 alkanes originating from water plants, and the long-chain n-alkanes n-C25, n-C27, n-C29, and n-C31 of terrestrial origin, clearly correlate with δD values of meteoric water, lake water, and mean annual temperature, indicating that they excellently record the δD value of meteoric water. The mean hydrogen isotope fractionation εC17/w of −157‰ (SD = 13) between n-C17 and meteoric water is fairly constant over the wide range of different climates and lake environments, suggesting only minor influence of environmental factors on this biochemical fractionation. This suggests that δD values of n-C17 are suitable to reconstruct the isotopic composition of source water. The mean fractionation between the long-chain n-alkanes and water is −128‰ (SD = 12). The mean difference of 31‰ between both ε values is likely due to evaporative enrichment of deuterium in the leaf water. If this is the only influence on the enrichment, the difference between the δD values of terrestrial and aquatic compounds might be suitable to reconstruct terrestrial evapotranspiration of the lake environment. 相似文献
18.
河流与地下水相互作用研究是水文学研究的难点和热点。安阳河与地下水相互作用研究,对于安阳市水资源科学开发与管理具有重要意义。安阳河冲洪积扇地表水与地下水转化率为17%~27%。潜水位标高为80 m,向下游逐渐变成多层含水层(水位40 m)。当地降水环境同位素监测数据表明,当地大气降水线与全球大气降水线接近平行,表明该线代表本地区大气降水的氢氧同位素特征。地表水同位素值较集中,2016年8月δ18O值变化范围为-9‰~-8.7‰,δD值变化范围为-65‰~-63‰,2017年1月δ18O值变化范围为-8.5‰~-8.2‰,δD值变化范围为-63‰~-61‰,河水水化学类型为HCO3·SO4—Ca型,表明流域内地表水的同位素值受距离的影响较小。地下水稳定同位素值变化较大,2016年8月δ18O值范围为-10.4‰~-5.5‰,δD值范围为-75‰~-46‰,2017年1月δ18O值范围为-10.2‰~-5.4‰,δD值范围为-75‰~-45‰,即从接近降水值到最大值形成一条“蒸发”线。河流出山口一带地下水同位素值呈现最大蒸发值,表明地表水补给地下水,地下水化学类型为HCO3·SO4·Cl—Ca,存在明显人为污染成分。下游为大气降水补给浅层地下水,中深层地下水主要来源于中游侧向径流,水化学类型主要为HCO3—Ca·Mg型,综合分析表明,安阳河中下游(冲洪积扇)地带“三水”转换积极,并影响其水质、水量。 相似文献
19.
E. O. Dubinina S. A. Kossova A. Yu. Miroshnikov N. M. Kokryatskaya 《Geochemistry International》2017,55(11):1022-1032
Oxygen and hydrogen isotope analysis was performed to study the processes of distribution of water masses and modification of their salinity in the Russian Arctic seas. A wealth of new isotopic data was obtained for freshwater (river runoff, Novaya Zemlya glaciers) and seawater samples collected along a set of extended 2D profiles in the Barents, Kara, and Laptev Seas. The study presents the first δD values measured for the Northeast Atlantic Deep Water NEADW dominated the water column of the Barents Sea (S = 34.90 ± 0.05, δD = +1.55 ± 0.4‰, δ18O = +0.26 ± 0.1‰, n = 44). This water mass is present in the Kara Sea and western Laptev Sea. The relationship between δD, δ18О, and salinity data was used to calculate the fractions of waters of different origin, including the fractions of continental runoff in waters of the Barents, Kara, and Laptev Seas. It was shown that the relationships between the isotopic parameters (δD, δ18О) and salinity in waters of the Kara and Laptev Seas is controlled by the intensity of continental runoff and sea ice processes. Sea ice formation is the main factor controlling the formation of the water column on the Laptev Sea shelf, whereas the surface waters of the middle Kara Sea are dominated by the contribution of river runoff. A very strong stratification in the Kara Sea is caused by the presence of a relatively fresh surface layer mostly contributed by estuarine water inputs from the Ob and Yenisei Rivers. The contribution of river waters reaches 40–60% in the surface layer in the central part of the sea and decreases to a few percent down 100 m water depth. Stratification in the western part of the Laptev Sea is controlled by the contribution of freshwater input from the Lena River and modification of salinity by sea ice formation. 相似文献
20.
Rahim Bagheri Arash Nadri Ezzat Raeisi G. A. Kazemi H. G. M. Eggenkamp Ali Montaseri 《Environmental Earth Sciences》2014,72(4):1055-1072
The Kangan Permo-Triassic brine aquifer and the overlying gas reservoir in the southern Iran are located in Kangan and Dalan Formations, consisting dominantly of limestone, dolomite, and to a lesser extent, shale and anhydrite. The gasfield, 2,900 m in depth and is exploited by 36 wells, some of which produce high salinity water. The produced water gradually changed from fresh to saline, causing severe corrosion in the pipelines and well head facilities. The present research aims to identify the origin of this saline water (brine), as a vital step to manage saline water issues. The major and minor ions, as well as δ2H, δ18O and δ37Cl isotopes were measured in the Kangan aquifer water and/or the saline produced waters. The potential processes causing salinity can be halite dissolution, membrane filtration, and evaporation of water. The potential sources of water may be meteoric, present or paleo-seawater. The Na/Cl and I/Cl ratios versus Cl? concentration preclude halite dissolution. Concentrations of Cl, Na, and total dissolved solid were compared with Br concentration, indicating that the evaporated ancient seawater trapped in the structure is the cause of salinization. δ18O isotope enrichment in the Kangan aquifer water is due to both seawater evaporation and interaction with carbonate rocks. The δ37Cl isotope content also supports the idea of evaporated ancient seawater as the origin of salinity. Membrane filtration is rejected as a possible source of salinity based on the hydrochemistry data, the δ18O value, and incapability of this process to dramatically enhance salinity up to the observed value of 330,000 mg/L. The overlaying impermeable formations, high pressure in the gas reservoir, and the presence of a cap rock above the Kangan gasfield, all prevent the downward flow of meteoric and Persian Gulf waters into the Kangan aquifer. The evaporated ancient seawater is autochthonous, because the Kangan brine aquifer was formed by entrapment of brine seawater during the deposition of carbonates, gypsum, and minor clastic rocks in a lagoon and sabkha environment. The reliability of determining the source of salinity in a deep complicated inaccessible high-pressure aquifer can be improved by combining various methods of hydrochemistry, isotope, hydrodynamics, hydrogeology and geological settings. 相似文献