92 resultados para Pearl River Mouth basin
Resumo:
The foreland basin on the northern margin of the lower reach of the Yangtze river (the lower Yangtze foreland basin) is tectonically situated in the basin-mountain transitional area along the southeastern flank of the Dabie mountains. The early formation and development of the basin is closely related to the open-up of the Mian-Lue paleo-oceanic basin on the southern margin of the Central Orogenic System represented by Qinling-Dabei orogenic belt, while the tectonic evolution of the middle-late stage of the basin is mainly related to development of the Mian-Lue tectonic zone that occurred on the basis of the previous Mian-Lue paleo-suture. The foreland basin of the northern rim of the lower reach of the Yangtze river was formed during the middle-Triassic collision between the Yangtze and North China plates and experienced an evolution of occuirence-development-extinction characterized by marine facies to continental facies and continental margin to intracontinent in terms of tectonic setting.The foreland basin (T2-J2) was developed on the basis of the passive continental marginal basin on the south side of the Mian-Lue paleo-ocean and superimposed by late Jurassic-Tertiary fault basin. The tectonic setting underwent a multiple transformation of rifting-collisional clososing-tensional faulting and depression, which resulted in changes of the property for the basin and the final formation of the superposed compose basin in a fashion of 3-story-building. According to the tectonic position and evolution stages of plate collision happening on the southeastern margin of the Dabie mountains, and tectono-tratigraphic features shown by the foreland basin in its main formational period, the evolution of the foreland basin can be divided into four stages: 1) pre-orogenic passive margin (P2-Ti). As the Mian-Lue ocean commenced subduction in the late-Permian, the approaching of the Yangtze and North China plates to each other led to long-periodical and large-scale marine regression in early Triassic which was 22 Ma earlier than the global one and generated I-type mixed strata of the clastic rocks and carbonate, and I-type carbonate platform. These represent the passive stratigraphy formed before formation of the foreland basin. 2) Foreland basin on continental margin during main orogenic episode (T2.3). The stage includes the sub-stage of marine foreland basin (T2X remain basin), which formed I-type stratigrphy of carbonate tidal flat-lagoon, the sub-stage of marine-continental transition-molasse showing II-type stratigraphy of marine-continental facies lake - continental facies lake. 3) Intracontinental foreland basin during intracontinental orogeny (Ji-2)- It is characterized by continental facies coal-bearing molasses. 4) Tensional fault and depression during post-orogeny (J3-E). It formed tectono-stratigraphy post formation of the foreland basin, marking the end of the foreland evolution. Fold-thrust deformation of the lower Yangtze foreland basin mainly happened in late middle-Jurassic, forming ramp structures along the Yangtze river that display thrusting, with deformation strength weakening toward the river from both the Dabie mountains and the Jiangnan rise. This exhibits as three zones in a pattern of thick-skinned structure involved the basement of the orogenic belt to decollement thin-skinned structure of fold-thrust from north to south: thrust zone of foreland basin on northern rim of the lower reach of the Yangtze river, foreland basin zone and Jiannan compose uplift zone. Due to the superposed tensional deformation on the earlier compressional deformation, the structural geometric stratification has occurred vertically: the upper part exhibits late tensional deformation, the middle portion is characterized by ramp fault -fold deformation on the base of the Silurian decollement and weak deformation in the lower portion consisting of Silurian and Neo-Proterozoic separated by the two decollements. These portions constitutes a three-layered structural assemblage in a 3-D geometric model.From the succession of the lower reach of the Yangtze river and combined with characteristics of hydrocarbon-bearing rocks and oil-gas system, it can be seen that the succession of the continental facies foreland basin overlies the marine facies stratigraphy on the passive continental margin, which formed upper continental facies and lower marine facies hydrocarbon-bearing rock system and oil-gas forming system possessing the basic conditions for oil-gas occurrence. Among the conditions, the key for oil-gas accumulation is development and preservation of the marine hydrocarbon-bearing rocks underlying the foreland basin. The synthetic study that in the lower Yangtze foreland basin (including the Wangjiang-Qianshan basin), the generation-reservoir-cover association with the Permian marine facies hydrocarbon-bearing rocks as the critical portion can be a prospective oil-gas accumulation.Therefore, it should aim at the upper Paleozoic marine hydrocarbon-bearing rock system and oil-gas forming system in oil-gas evaluation and exploration. Also, fining excellent reservoir phase and well-preserved oil-gas accumulation units is extremely important for a breakthrough in oil-gas exploration.
Resumo:
河流是连接海洋和陆地生态系统的重要途径,也是全球碳循环研究的重要环节。因此,河水的水文地球化学研究是获得有关流域侵蚀、风化以及元素在大陆- 河流- 海洋系统中外生循环过程等的重要途径。由于碳酸盐岩风化作用的产物在很大程度上控制着地表水系的地球化学组成, 因此对碳酸盐岩地区河流的水文地球化学特征的研究, 对于了解碳酸盐岩地区的侵蚀、风化强度以及河流地球化学组成变化的多种控制因素有很大的意义。 单就珠江水系而言,目前该方面的研究范围较窄,主要集中于珠江流域水文气候监测、水体有机污染物的迁移转化以及珠江三角洲与河口水体的同位素示踪研究等几个方面,而对于典型气候、地质地貌区域内的各支流的系统的水文地球化学研究少之又少。事实上,对于珠江水系的干流西江而言,流域内由于喀斯特地貌广泛发育,具有极强的地理特异性,因而各支流在不同地质地貌特征、土壤、气候、植被等条件下的水文地球化学的系统研究以及同位素示踪流域侵蚀状况等方面的研究,不仅对于更好地了解中国西南地区典型喀斯特岩溶区域内土壤、岩石的化学风化、水土流失、水文地球化学特征以及环境污染等方面具有极其重要的意义,同时也对全球碳循环的系统研究有着极其重要的研究价值。 本研究在导师刘丛强研究员主持的国家重大基础规划“973”计划项目“西南喀斯特山地石漠化与适应性生态系统调控”课题的支持下开展完成,选择贵州境内珠江水系干流西江及其支流(红水河流域),以及一级支流柳江源头都柳江及其支流为研究对象,分别通过对流域内,变质碎屑岩以及海相碳酸盐岩两大岩性区域内不同植被覆盖状况下各地表水体中水文地球化学特征以及碳同位素地球化学特征分析,得出以下结论: 1、流域岩性特征是控制流域内各地表水体水文地球化学特征以及流域风化侵蚀程度的重要影响因素。与此同时,研究区内由于人为活动造成的水体污染对于地表水体离子组成特征的变化,也有一定的影响。 2、研究区珠江流域内的地表水体来源主要为大气降水和地下水。研究区内的受西南季风影响下的频繁的降雨过程,是研究区地表水体的主要补给源。研究区内大气降水大多透过表层土壤,进入深部土壤含水层后,或以地表径流的形式冲刷土壤岩石表层后汇入流域内地表河流;或参与地下水体循环,最终以地下水补给地表河流。研究区内NNE方向褶皱断裂构造极其发育,地表河网与地下河网相互连接,转换频繁。 3、研究区内地表水体的离子组成特征以及物理化学性质,主要受流域内土壤岩石化学风化过程的控制。不同岩性特征区域内,地表水体的离子组成特征以及水化学参数有着显著的差异。 4、通过对贵州境内珠江水系75个地表水体中三种不同形态碳DIC、DOC、POC及其部分稳定碳同位素的分析测试,发现研究区内地表水体中的DIC主要来源于研究区内土壤CO2对不同流域内土壤、岩石矿物的化学风化过程。一般而言,植被覆盖状况较好的区域,土壤CO2较为丰富,化学风化作用较为强烈;碳酸盐岩比硅酸盐类易于风化,并且不同岩性区域化学风化过程可以使得地表水体具有不同的离子组成特征与水化学特性。 5、研究区各流域地表水体中的有机碳主要与流域内植被状况相关。地表水体中DOC浓度在一定程度上反映了流域内的植被状况,而TSS以及POC则反映了流域内土壤有机质的情况。研究区地表水体中DOC、POC含量变化情况,是探讨喀斯特地区碳的源汇关系及循环模式的重要依据。 6、河流悬浮物中的POC主要来源于土壤有机质和陆地植物,是研究流域侵蚀问题的重要指标。研究区内变质碎屑岩以及海相碳酸盐岩区域内各地表水体均表现出δ13CPOC 与TOC/TN之间的负相关关系,且地表水体中颗粒有机物具有较低的TOC/TN,表明研究区内各地表水体中POC很可能来源于深层土壤。水动力越强,流域侵蚀越强烈,因而TSS中TOC/TN越低。
Resumo:
锂的两个同位素(6Li和7Li)之间相对大的质量差导致它们在自然界的分馏强烈,仅在表生环境就达到了35‰。因而,作为一种有效的示踪剂被广泛地应用于研究宇宙事件、洋壳蚀变及海底热液活动、板块活动、壳幔演化以及示踪卤水来源等地球化学过程。近年来则以大陆风化过程的锂同位素地球化学研究为热点,主要研究方向包括流域尺度大空间范围的总体研究、风化壳剖面的精细研究以及实验室的模拟研究,均涉及水/岩作用过程的锂同位素分馏机理研究。但是,现有的研究结果有的需要进一步论证,有的相互之间存在矛盾,还有部分结论不能自圆其说。 因此,本项论文工作以地表环境过程的锂同位素地球化学研究为切入点,选择长江水系干流和主要支流的地表水、悬浮物和沉积物为研究对象。在低含量样品锂同位素分析方法研究和完善的基础上,就河流体系锂的来源、流域体系的锂同位素组成变化特征及其主要受控因素等方面开展探索性研究。 通过以上研究,本论文得出以下几点认识: 1、采用单一的阳离子树脂柱分离、提纯样品锂,MC-ICP-MS测定其同位素组成。其分析结果的准确度和精确度可以达到现阶段报道的最高水平。海水的锂同位素组成为+31.3±1.0‰(2σ)与前人测定结果的平均值(+31.2‰)接近;样品分析误差约为0.5‰(2σ),与TIMS的分析结果相似。 2、长江水系河水以富含HCO3-、Ca2+为主要特征,两者分别占阴、阳离子总量的70%和50%;其中,以Na+、Cl-含量的变化最大。长江河水的主要离子组成主要受流域岩石风化作用影响,蒸发结晶作用只在少数点起次要作用,而大气沉降的输入十分微弱。岩石风化作用以碳酸盐岩风化的影响最为显著,蒸发盐岩和硅酸岩的影响较小,仅限于长江流域的局部地区。 3、长江水系悬浮物的锂含量及δ7Li值变化较小,分别为41 µg/g~92 µg/g和-4.7‰~+0.7‰。沉积物的锂含量在13.26 µg/g~46.32 µg/g之间,略低于悬浮物的锂含量,而δ7Li较高,在+0.9‰和+9.1‰之间变化。悬浮物和沉积物的锂含量与Al2O3/SiO2、Fe2O3/SiO2、MnO/SiO2及K2O/SiO2等比值之间存在明显的正相关关系,与δ7Li值存在一定的负相关关系,主要表现为粘土矿物对锂的吸附作用,尤其是6Li。 4、长江水系河水的锂含量在1.04 µg/L和31.72 µg/L之间,平均为8.87 µg/L,呈现出从上游至下游逐渐降低的趋势,最高值出现在长江上游的攀枝花段(CJ1)。其锂同位素组成变化也较大,δ7Li值在+7.6‰和+28.1‰之间,但是却呈现出与锂含量变化相反的特征,即从上游至下游逐渐增加,最小值出现在长江上游的攀枝花段(CJ1)。 5、长江干流水体的锂摩尔浓度的倒数(1/Li)和δ7Li值之间存在明显的正相关关系,可能是两个端员组分混合的结果。综合考虑雨水、人为输入和碳酸盐岩对长江干流河水的贡献后,我们认为长江干流河水的锂应该是来自于流域岩石风化的贡献,即蒸发盐岩的溶解和硅酸岩的风化,两者对长江河水锂的贡献在78%和99%之间。 6、悬浮物总是比相应水体富集6Li,导致两者之间的锂同位素分馏明显。悬浮物和河水之间的锂同位素分馏系数(α矿物-流体)在0.976和0.993之间比变化,落在不同粘土矿物吸附产生的分馏范围内。长江上游地区的α矿物-流体落在室温下水铝矿和蒙脱石对锂吸附产生的分馏范围内,下游地区的α矿物-流体则与蛭石和高岭石对水体锂的吸附分馏范围内。除此之外,α矿物-流体还与悬浮物的量密切相关,尤其是在河水进入三峡库区之前。这种相关性同样是粘土矿物对6Li的优先吸附引起的。
Resumo:
A depth-integrated two-dimensional numerical model of current, salinity and sediment transport was proposed and calibrated by the observation data in the Yangtze River Estuary. It was then applied to investigate the flow and sediment ratio of the navigati
Resumo:
2003年4月,于怒江二级支流镇康县境内的大叉河中采获一批墨头鱼属(Garra)鱼类标本,经鉴定为一新种,命名为怒江墨头鱼(G.nujiangensis Chen and Yang,sp.nov.).该新种主要鉴别特征:围尾柄鳞12~14:侧线鳞48~50:在小个体中有一对微小的吻须;背鳍分支鳍条8~9;侧线上鳞5~6,侧线下鳞3~4;体高小于头长;臀鳍起点处的小于眼后至吻端的距离;腹鳍前长为体长的50.0%~53.7%;肛门前长为体长的58.9%~63.9%:体宽为体长的16.7%~19.6%:体高为体长的19.2%~22.6%.本研究证实,在缺须的墨头鱼属的一些物种中,如高体墨头鱼(G.alticorpora)和怒江墨头鱼(G.nujiangensis),其幼体中往往具有一对很小的吻须.
Resumo:
鱼类主要分布于青藏高原周边, 是一群适合于急流生活的 科鱼类。在独龙江流域7 个点共采 集271 号 鱼类标本(隶属 属、 属和异齿 属) , 结合各采集点数据绘制大鳍异齿 、藏 和扁头 的分布 直方图, 结果显示, 藏 ( E. labiatum) 在流速较快的独龙江下游各采集点的种群数量较上游高, 更适应急流生 境。同时研究了这3 种 鱼类的体长与体重的关系, 参数b (W = aLb) 的范围在218201 和310131 之间, 均为异 速生长; 藏 的生长类型最接近等速生长。
Resumo:
在澜沧江下游/ 湄公河上游的滇南西双版纳地区,通过样方法比较了热带雨林的连片与3 个小片断的物 种多样性变化趋势。与连续森林比较,片断热带雨林的植物物种丰富度和物种多样性指数都比较低,而且有相当低 比例的大高位芽、中高位芽和附生等生活型植物,而藤本、小高位芽和矮高位芽等生活型植物的比例则较高;泛热 带、热带亚洲至热带非洲的区系成分比例较高,而当地成分则减少;群落的上层树木比下层树木更加稳定。同样,动 物的物种多样性指数和均衡度在片断热带雨林中都较低,与其密切相关的是片断热带雨林的环境质量,而不是片 断的大小。此外,也探讨了片断热带雨林物种变化与森林小气候的关系,阐明了由凉湿向干暖转化的“林内效应"是 其物种变化的重要原因之一。
Resumo:
Experimental and field studies were conducted to evaluate the effects of NH4+ enrichment on growth and distribution of the submersed macrophyte, Vallisneria natans L, in lakes of the Yangtze River in China, based on the balance between free amino acids (FAA) and soluble carbohydrates (SC) in the plant tissue. Increase of NH4+ rather than NO3- concentrations in the water column caused FAA accumulation and SC depletion of the plant. The plant showed a unimodal pattern of biomass distribution along both FAA/SC ratios and external NH4+ concentrations, indicating that a moderate NH4-N concentration (< 0.3 mg L-1) benefited the plant, whereas the high NH4-N concentration (> 0.56 mg L-1) eliminated the plant completely. Therefore, 0.56 mg NH4-N mg L-1 in the water column was taken as the upper limit for V. natans in lakes of the Yangtze River basin. The mesocosm experiment showed that at a high external NH4-N (0.81 mg L-1), V. natans failed to propagate with a loss of half SC content (5 mg g(-1) DW) in the rhizomes, indicating that the consumption of carbohydrates for detoxification of excess NH4+ into non-toxic FAA significantly diminished carbohydrate supply to the rhizomes. This might consequently inhibit the vegetative reproduction of the plant, and also might be an important cause for the decline and disappearance of the plant with eutrophication. The present study for the first time reports substantial ecophysiological evidences for NH4+ stress to submersed macrophytes, and indicates that NH4+ toxicity arising from eutrophication probably plays a key role in the deterioration of submersed macrophytes like V. natans.
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Garra rotundinasus, a new cyprinid species from the upper Irrawaddy River basin in Yunnan, China, is herein described. It shares with G. gravelyi the presence of a snout having a poorly developed proboscis represented by a truncate area in front of the nostrils, a character distinguishing both from all other Southeast Asian and Chinese congeners. The two species are distinct in coloration, morphometric and meristic characters. The sympatrically occurring G. tengchongensis is very similar to G. rotundinasus in possessing 36-37 perforated lateral line scales, 5 or 6 scales between the anus and anal-fin origin, and an anterior position of the anus (anus to anal distance 32.1-51.8% of pelvic to anal distance). Garra rotundinasus can be differentiated from G. tengehongensis in having a more slender caudal peduncle, a larger disc and no dark central band on the dorsal fin.
