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1.
海洋浮游植物溶解有机碳释放研究进展 总被引:6,自引:0,他引:6
溶解有机碳(DOC)是海洋中最大的有机碳库,其中化学性质不稳定的成分大部分来自海洋浮游植物的释放。简要回顾了浮游植物溶解有机碳释放研究的发展历史,从光合作用合成的溶解有机碳(PDOC)释放占初级生产力的比重,PDOC的化学组成,浮游植物DOC释放的途径与机制,PDOC释放的环境调控,浮游植物群落组成对PDOC释放的影响,以及浮游植物释放DOC对异养细菌的生态意义等方面对相关研究进行了综述和分析。讨论了浮游植物溶解有机碳释放研究的现状和存在的问题,并对PDOC初级生产力测定的推广和相关研究的深化提出建议。 相似文献
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磷(P)是海洋初级生物不可或缺的营养元素,现代海水中溶解态镉与磷的含量线性关系极好,表明镉可能作为海洋初级生物的营养元素而被利用。浮游生物优先摄取轻的镉同位素,使得海水中的镉同位素变化与海洋初级生产力的变化紧密相关。目前镉同位素已成功应用于二叠纪-三叠纪之交古海洋初级生产力的重建。广西桂林晚泥盆世弗拉期-法门期(Frasnian-Famennian,F-F)之交杨堤剖面的镉同位素数据显示,在F-F灭绝事件前,δ114Cd总体偏重(0.03‰~0.49‰),指示当时海洋具有较强的初级生产力;F-F之交,δ114Cd呈现负偏(-0.44‰^-0.01‰),表明这一时期海洋初级生产力显著下降;F-F灭绝事件后,δ114Cd又逐渐增大(-0.04‰~0.13‰),反映灭绝事件后海洋初级生产力的恢复。海洋初级生产力的下降,导致了海洋生态系统中的食物链受到破坏,从而引发了F-F之交的生物灭绝事件。 相似文献
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韦恒叶 《沉积与特提斯地质》2012,32(2):76-88
海洋表层初级生产力大小以及水体氧化还原条件是古海洋和古气候研究的重要内容,而元素地球化学是研究初级生产力以及氧化还原条件最常用的手段。主量元素Fe和Si是限制生物的营养元素,痕量金属元素Cu、Ni和Zn是微营养元素,而营养条件是沉积生产力的限制因素,因此这些元素的含量能反映初级生产力大小。Ba和Mo是随有机质一起沉淀下来的,与水体的有机碳通量有关,也是古生产力大小的指标。对氧化还原敏感的痕量金属元素含量(如Cr、V和U)以及元素比值(如V/(V+Ni)、V/Cr、Ni/Co、U/Th和V/Sc)常用来重构水体的氧化还原条件。 相似文献
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楚科奇海R12a沉积柱状样500年以来生物标记物记录 总被引:2,自引:0,他引:2
通过多参数生物标志物法对取自中国第二次北极考察的R12a岩心顶部40 cm样品进行了浮游植物和种群结构变化的研究,获得了500 a以来浮游植物初级生产力和种群结构变化信息。结果表明:R12a岩心在过去的500多年来,所记录的海洋初级生产力呈上升趋势,单一藻类的生产力总体上也呈现上升趋势。浮游植物种群结构主要表现为颗石藻相对含量下降,硅藻相对含量上升,甲藻没有明显的波动,这可能与北太平洋水输入决定的楚科奇海营养盐结构及夏季海冰覆盖变化有关。 相似文献
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湖南西部桑植地区中二叠统栖霞组地层旋回性明显,有机质也呈周期性变化.研究其有机质聚集堆积控制因素将有助于理解海平面变化在富有机碳沉积物形成过程中的作用.选择其中一个旋回作为研究目的层段,通过黄铁矿形态以及地球化学参数有机碳TOC、硫同位素、DOP以及微量元素的研究发现,初级生产力参数Ba、Ni、Cu和Zn的变化与TOC含量的变化一致,有机质聚集堆积主要受海洋表层初级生产力的控制,底部水体氧化还原条件与初级生产力有关.有机质的堆积最终归因于高频相对海平面变化,海平面快速上升带来丰富的营养物质,提高海洋表层生物生产力,海底有机质的分解消耗大量氧气,氧需求量的增加形成底部水体贫氧-厌氧环境. 相似文献
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内陆水体是全球碳循环的重要参与者,在调节气候变化方面发挥着关键作用。内陆水体初级生产力指内陆水体(包括湖泊、水库、河流和湿地)中初级生产者(包括浮游藻类植物和挺水、浮水、潜水大型植物)单位时间、单位面积上由光合作用产生的有机物质总量,其大小反映了系统有机碳库和无机碳库之间的定量联系。评估内陆水体初级生产力不仅能帮助解析初级生产者光合作用碳固存机理,也有助于量化内陆水体碳吸收量,进而探知不同区域生态环境差异,揭示内陆水体在全球生态系统碳循环中的重要性。内陆水体初级生产力估算方法较多,包括黑白瓶法、垂向归纳模型法和13C法等,各方法都有其适用范围和局限性,对这些方法的不合理使用制约着对内陆水体初级生产力的变异性及其驱动机制的揭示。通过归纳整理近年来国内外内陆水体初级生产力估算方法,对各个方法的机理、优缺点和适用性进行对比和总结,并着重介绍2种新兴的基于溶解氧浓度或氧同位素的方法(即diel O2技术和18/16O技术),进而为深入开展内陆水体新陈代谢、生产力及养分循环方面研究提供重要技术支撑。 相似文献
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二叠纪瓜德鲁普世是古海洋条件发生重大变化的转折期。瓜德鲁普世古海洋、古环境的演化对古生代底栖无脊椎动物灭绝的影响仍然是个谜。利用元素地球化学,分析瓜德鲁普统孤峰组的陆源碎屑供应、海洋表层水体的初级生产力以及底部水体的氧化还原条件。结果表明:瓜德鲁普世早期和晚期分别发生了一次陆源碎屑输入的高峰期。瓜德鲁普世早期海洋初级生产力最高,中期海水初级生产力较低,而晚期稍有升高。瓜德鲁普世古海水主要为缺氧至硫化环境。瓜德鲁普世早期以贫氧至缺氧环境为主,间歇性出现硫化环境;中晚期则以硫化环境为主,间歇性出现缺氧环境。这些氧化还原环境的演化主要受到水动力条件的影响。瓜德鲁普世深水环境水体的持续缺氧硫化引发浅水台地底部水体的持续贫氧甚至缺氧,造成海洋生态系统变得脆弱,引发生物危机事件。 相似文献
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海洋环境中重晶石的形成和保存是元素Ba生物地球化学过程的重要环节,在反演海洋古生产力领域具有重要价值。但是多年来该方面的研究主要集中在深海海域,而对河口及近海海域很少涉及。本研究使用SEM和EDX等方法对长江口及邻近海域5个断面36个站位的悬浮体中的重晶石矿物进行了系统的观察,对重晶石颗粒类型、空间分布和影响因素进行了研究。结果表明:该区重晶石颗粒包含自形晶体、长条状晶体、不规则形态晶体和集合体等4种类型,含少量Sr元素,大部分重晶石颗粒表面出现溶蚀现象;重晶石颗粒粒径主要分布在0.5~3 μm。通过研究发现,长江口及邻近海域悬浮体中重晶石的形成主要受到微环境中生物作用的控制,该区初级生产力的发育状态和重晶石颗粒的沉降差异造成重晶石空间分布具有表层含量较多、由岸向外增加的现象。 相似文献
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白垩纪中期(约125~88Ma)海相富有机碳沉积广泛发育于全球各主要洋盆和沉降区,是许多大油田的重要烃源岩。文中从地球生物学的角度探讨了当时海相富有机碳沉积的地质背景和主控因素,认为在白垩纪中期全球事件频发的特殊背景下,保存条件(大洋缺氧)和生产力的提高共同控制了有机质的富集。大洋缺氧不但加快了海洋生物的灭绝和更替,使有机质大量堆积,而且促进了营养元素(P、N、Fe等)的再生和厌氧自养型海洋微生物(如蓝细菌、绿硫细菌和古菌类等)的极度繁盛,提高了生产力水平;而高的生产力又反过来加剧了海洋的缺氧。新的研究成果(Os同位素证据)表明,白垩纪大规模海底火山作用引发了持续的温室效应和海水循环的静滞、紊乱以及弱上升流发育,进而导致生产力的提高和大洋缺氧事件(OAE)的发生,最终造成有机质的广泛堆积和保存。 相似文献
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The formation of SiO<Subscript>2</Subscript>-rich melts within the deep oceanic crust by hydrous partial melting of gabbros 总被引:5,自引:0,他引:5
Juergen Koepke Jasper Berndt Sandrin T. Feig Francois Holtz 《Contributions to Mineralogy and Petrology》2007,153(1):67-84
Small amounts of felsic, evolved plutonic rocks, often called oceanic plagiogranites, always occur as veins or small stocks within the gabbroic section of the oceanic crust. Four major models are under debate to explain the formation of these rocks: (1) late-stage differentiation of a parental MORB melt, (2) partial melting of gabbroic rocks, (3) immiscibility in an evolved tholeiitic liquid, and (4) assimilation and partial melting of previously altered dikes. Recent experimental data in hydrous MORB-type systems are used to evaluate the petrogenesis of oceanic plagiogranites within the deep oceanic crust. Experiments show that TiO2 is a key parameter for the discrimination between different processes: TiO2 is relatively low in melts generated by anatexis of gabbros which is a consequence of the low TiO2 contents of the protolith, due to the depleted nature of typical cumulate gabbros formed in the oceanic crust. On the other hand, TiO2 is relatively high in those melts generated by MORB differentiation or liquid immiscibility. Since the TiO2 content of many oceanic plagiogranites is far below that expected in case of a generation by simple MORB differentiation or immiscibility, these rocks may be regarded as products of anatexis. This may indicate that partial melting processes triggered by water-rich fluids are more common in the deep oceanic crust than believed up to now. At slow-spreading ridges, seawater may be transported via high-temperature shear zones deeply into the crust and thus made available for melting processes. 相似文献
14.
In this paper, the mean primary productivity of the Talung Formation in the deep-water basin (50–500 m depth) of Dongpan,
Guangxi, South China, was calculated, roughly ranging from 0.1 to 0.6 g C·m−2·day−1 on the basis of the content of the trace element Cu. Results showed that the primary productivity obtained was comparable
with the previously-reported data for the black shale of the Phosphoria Formation, a Permian phosphate deposit in the northwest
United States, and also similar to that of the modern deposit in the Cariaco basin, Venezuela. It was observed that the primary
productivity increased with the enhanced abundance of algae and photosynthetic bacteria, and with the decrease in both the
radiolarian individuals and the body size of brachiopods during the faunal mass extinction. This ecological coupling indicates
that the changes of primary productivity are closely related to the propagation and the decline of producers (algae and bacteria),
and that consumers (radiolarians and brachiopods) probably have little influence on the changes of primary productivity. 相似文献
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洋底高原:了解地球内部的窗口 总被引:4,自引:0,他引:4
洋底高原是洋壳的重要组成部分,它是分布在洋底的一种面积广大、且具有异常洋壳厚度的区域。洋底高原通常规模巨大,绝大多数喷发于大洋环境,岩石组成主要为镁铁质到超镁铁质,岩石类型主要为拉斑玄武岩。大多数洋底高原的岩石组成较为相似,而且均形成于一期或两期时间较短却大规模集中喷发的岩浆活动,目前认为是大规模的热地幔物质从地幔深部上升到岩石圈底部,由于巨大地幔柱头部(地幔羽)引起的熔融作用形成的。正是由于洋底高原与地幔柱之间具有这种十分密切的关系,因此对洋底高原的研究将成为我们了解地球内部的窗口。以ODP对翁通-爪哇和凯尔盖朗(Kerguelen)海台的研究为例,简单介绍了洋底高原的基本特征、地幔柱在其形成过程中的作用以及目前在这一领域还未解决的一些问题。 相似文献
16.
G. N. Baturin 《Lithology and Mineral Resources》2007,42(4):318-348
By analogy with the present-day ocean, the primary productivity of paleoceans can be reconstructed using calculations based on the content of organic carbon in sediments and their accumulation rates. Results of calculations based on literature data show that the primary productivity of organic carbon, the mass of phosphorus involved in the process, and the content of phosphorus in oceanic waters were relatively stable in the Mesozoic and Late Mesozoic. Prior to precipitation on the seafloor together with the biogenic detritus, the dissolved phosphorus could repeatedly be involved in the biogeochemical cycle. Therefore, only less than 0.1% of phosphorus is retained in bottom sediments. The bulk phosphorus accumulation rate in oceanic sediments is partly consistent with the calculated primary productivity. Some epochs of phosphate accumulation also coincide with maximums of primary productivity and minimums of the fossilization coefficient of organic carbon. The latter fact can testify to episodes of the acceleration of organic matter mineralization and the release of phosphorus from sediments, leading to increase in the phosphorus reserve in paleoceans and phosphate accumulation in some places. 相似文献
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Oceanic red beds are widely distributed in the global oceans and across the entire Phanerozoic period, which mostly appeared after oceanic anoxic events. They represent typical oxygen-rich sedimentary environment and play a significant role on ocean science research. Numerous studies have been carried out since the oceanic red beds were discovered. However, previous studies mainly focused on the Cretaceous oceanic red beds, and the understanding of the characteristics and scientific significance of oceanic red beds are not comprehensive. Therefore, we here summarized the global distribution characteristics and compared mineral and element compositions of various lithological oceanic red beds, including marly, clayey and cherty oceanic red beds. The main mineral and element components of oceanic red beds have no direct relationship with the color of the sediments, and mainly are affected by the regional environment and provenances. Therefore, the mineralogical and geochemical characteristics of oceanic red beds should be analyzed in combination with the regional background. The red coloration of oceanic red beds is controlled mainly by hematite, goethite and manganese-bearing calcite, which have two main mechanisms: ① Colored minerals formed in oxic conditions; ② Colored minerals formed due to low deposition rates. These two mechanisms are not completely independent, but complement one another with either dominance in most oceanic red beds. Lithological characteristics of oceanic red beds are controlled by three factors, including water depth, productivity and nutrients. Therefore, the formation of oceanic red beds should be considered with global changes and regional events. The unique origin mechanism and global distribution characteristics of long time-scale oceanic red beds can be used to indicate sedimentary paleoenvironment, paleo-oceanic current, and paleoclimate change. In addition, hydrothermal or magmatic activities on the ocean floor could also produce red-color deposits that are strongly different from sedimentary oceanic red beds. Based on the existing research, we also put forward the future in-depth studies on the oceanic red beds from multidisciplinary perspectives. 相似文献
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FANG Chaogang ZHANG Chengcheng MENG Guixi XU Jinlong XU Naicen LI Hualing LIU Mu LIU Bo 《《地质学报》英文版》2024,98(1):150-167
The Late Permian was marked by a series of important geological events and widespread organic-rich black shale depositions, acting as important unconventional hydrocarbon source rocks. However, the mechanism of organic matter (OM) enrichment throughout this period is still controversial. Based on geochemical data, the marine redox conditions, paleogeographic and hydrographic environment, primary productivity, volcanism, and terrigenous input during the Late Permian in the Lower Yangtze region have been studied from the Putaoling section, Chaohu, to provide new insights into OM accumulation. Five Phases are distinguished based on the TOC and environmental variations. In Phase I, anoxic conditions driven by water restriction enhanced OM preservation. In Phase II, euxinic and cycling hydrological environments were the two most substantial controlling factors for the massive OM deposition. During Phase III, intensified terrestrial input potentially diluted the OM in sediment and the presence of oxygen in bottom water weakened the preservation condition. Phase IV was characterized by a relatively higher abundance of mercury (Hg) and TOC (peak at 16.98 wt%), indicating that enhanced volcanism potentially stimulated higher productivity and a euxinic environment. In Phase V, extremely lean OM was preserved as a result of terrestrial dilutions and decreasing primary productivity. Phases I, II and IV are characterized as the most prominent OM-rich zones due to the effective interactions of the controlling factors, namely paleogeographic, hydrographic environment, volcanism, and redox conditions. 相似文献