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11.
Little is known about the spatial and temporal distribution of blast fishing which hampers enforcement against this activity. We have demonstrated that a triangular array of hydrophones 1 m apart is capable of detecting blast events whilst effectively rejecting other sources of underwater noise such as snapping shrimp and nearby boat propellers. A total of 13 blasts were recorded in Sepangor bay, North of Kota Kinabalu, Sabah, Malaysia from 7th to 15th July 2002 at distances estimated to be up to 20 km, with a directional uncertainty of 0.2 degrees . With such precision, a network of similar hydrophone arrays has potential to locate individual blast events by triangulation to within 30 m at a range of 10 km. 相似文献
12.
基于场强模型的南沙岛礁战略地位评价 总被引:1,自引:0,他引:1
南沙岛礁及附近海域蕴含丰富的资源,是中国海洋权益的重要组成部分。在南海主权争端日益激烈的形式下,根据岛礁自然特征和所处空间的资源条件,对南沙诸岛进行战略地位评价,有利于量化各岛礁价值,有重点地维护中国海洋权益。研究选取131 座符合评价条件的南沙岛礁,结合其自然属性以及南海空间的资源、航道等因素,使用场强模型,量化其在空间中的主权法律意义、军事价值和资源条件,获得了各岛礁的战略地位得分,可为研判南海局势提供参考。评价结果表明:部分具有显著战略地位和区域重要意义的南沙岛礁至今无人驻守,需重点关注;人工建设可明显提升岛礁的战略地位;在现有格局下,加大岛礁建设力度有助于维护中国南海的海洋权益。 相似文献
13.
塔里木盆地塔中礁滩体大油气田成藏条件与成藏机制研究 总被引:4,自引:6,他引:4
中国海相碳酸盐岩油气勘探近年来进展很快,发现了一批大型油气田。塔中地区是塔里木盆地的重点勘探区和富油气区,奥陶系蕴藏了丰富的油气资源。奥陶系良里塔格组受塔中I号坡折带的控制发育陆棚边缘礁滩体,储层性质为低孔-特低孔、低渗灰岩储层,埋深在4500~6500m。储层的形成和分布受早期高能沉积相带、溶蚀作用和断裂作用等因素的控制,有效储层的空间展布控制了油气的分布与大面积成藏。油源对比认为,塔中良里塔格组礁滩体油气藏的原油主要来自于中上奥陶统烃源岩,并混有寒武系烃源岩成因的原油;天然气主要来自于寒武系油裂解气,沿塔中I号坡折带断裂向内充注。成藏过程分析表明,塔中地区曾存在三期主要成藏期,第一期为加里东晚期成藏,油气来自于寒武系-下奥陶统烃源岩,但早海西期的构造运动,对该期油气破坏严重,造成大范围油藏破坏。第二期成藏期是晚海西期,也是塔中地区最重要的油气充成藏期,油气来自于中上奥陶统烃源岩。第三期成藏期是晚喜山期,受库车前陆冲断影响,台盆区快速沉降,埋深急速增大,寒武系原油裂解气形成,沿深部断裂向浅部奥陶系充注,对油藏进行气洗改造,从而形成大面积分布的凝析气藏。 相似文献
14.
Bogusław Kołodziej Daria Ivanova 《Proceedings of the Geologists' Association. Geologists' Association》2021,132(2):158-169
The carbonate succession in the Lyalintsi section of the western Moesian Platform (western Bulgaria) displays a shallowing-upward trend. Growth of the Tithonian–Valanginian coral biostromes and low-relief bioherms was preceded by Oxfordian–Kimmeridgian sedimentation of fine-grained peloidal-bioclastic limestones and Saccocoma-bearing limestones on the homoclinal ramp and the carbonate platform slope. In the late Kimmeridgian, boundstones with very rare corals, but with easily recognisable biohermal morphology, were developed. The main components of this reef are encrusting microorganisms, microbial crusts and synsedimentary cements. Microencrusters Labes atramentosa, Crescentiella morronensis, Perturbatacrusta leini and Radiomura cautica, as well as thin crusts of calcified sponges (sclerosponges), are the main biotic components. Corals (almost exclusively microsolenids) are sparse, whereas photophilic microencrusters (e.g., “Lithocodium–Bacinella”), are absent, although they are common in the overlying shallow-water part of the Lyalintsi sequence. Microbialites and synsedimentary cements provided additional support for the reef framework. The framework, especially the biotic components, and the reefal facies position within the sedimentary succession, implies that the high-energy upper slope of the carbonate platform was the depositional setting of the microencruster-microbial-cement reef studied. Encrusting microorganisms, except for C. morronensis and sponges, are only known from the intra-Tethyan platforms. This study supports conclusion of studies of coeval Alpine reefs that the presence of the microencruster-microbial-cement framework provides insight into the palaeobathymetry, palaeogeography and tectonic configuration of the intra-Tethyan carbonate platforms. 相似文献
15.
A Lower Cretaceous (Aptian) succession of carbonate rocks in the southern Maestrat Basin (Iberian Chain, Spain) was analysed in terms of sedimentological and palaeontological criteria. The shallow marine sequence was deposited upon a homoclinal carbonate ramp. Five main facies types were distinguished: (A) peloidal and bioclastic grainstones and rudstones of the inner ramp shoals; (B) orbitolinid wackestones-packstones of the distal outer ramp; (C) peloid and Ostrea wackestones-packstones of the middle outer ramp; (D) coral-algal sheetstones of the proximal outer ramp; and (E) coral-algal platestones-domestones of the middle ramp. Coral-bearing facies types (D) and (E) showed similar major environmental factors: low energy hydrodynamism, low light intensity and apparently nutrient-rich water. Slight differences in these conditions are reflected in the different growth forms and coral assemblages. Coral-algal sheetstones are characterized by sheet-like and lamellar forms with a low coral diversity not clearly dominated by any taxon. Coral-algal platestones-domestones develop platy, tabular and irregular massive forms with a slightly higher coral diversity characterized by a Microsolenina-Faviina association. The coral fauna is revised taxonomically and yielded a total of 22 species in 18 genera (21 Scleractinia species, one Octocorallia species). Genera of the suborders Microsolenina and Faviina predominate, those of the suborders Stylinina, Fungiina, Rhipidogyrina and the order Coenothecalia are subordinate. 相似文献
16.
湘南生物礁发育于上二叠统长兴组。该礁体的岩石组合类型有:骨架岩、障积岩、粘结岩等。组成礁体的生物极为丰富,类型繁多。造架生物有:串管海绵、纤维海绵、Tabulozoan、水螅类、四射珊瑚等。粘结生物有:Archaeolithoporella、Tubiphytes、Tabulozoan及蓝绿藻。附礁生物有:腕足类、有孔虫等。礁体发育大致可以分为四个阶段:萌芽期、发育期、繁盛期和衰亡期。从礁体的发育关系来看,具有海侵过程中向岸推移的趋势。 相似文献
17.
18.
湖南栖霞期的生物群落、古地理与生物礁 总被引:2,自引:3,他引:2
湖南栖霞期发育了8种不同类型的生物群落,各自反映了不同的沉积环境。这些生物群落的时空分布规律反映了当时的古地理概貌。根据群落分布及岩性特征可将栖霞期的湖南浅海划分为5个古地理单元。在涟(源)浏(阳)开阔浅海的部分海底隆起区,由Peronidella群落形成了生物礁。这是国内首次发现的栖霞期生物礁。 相似文献
19.
The Darwinian progressive subsidence model for the evolution of fringing reefs, barrier reefs and atolls has been generally
accepted following the indisputable proof of subsidence provided by drilling results in the Pacific. Nonetheless, there are
data that do not fit the expectations of the model, such as the similar lagoon depths of barrier reefs and atolls as opposed
to the subsidence theory’s implicit prediction that atolls should have significantly greater depths. In contrast, a great
deal of evidence supports the influence of meteoric solution on barrier reef morphology. For example, the maximum lagoon depth
of 56 modern barrier reefs is statistically correlated with the lagoon catchment area for modern annual rainfall. These modern
rainfall patterns would seem to be a reasonable proxy for relative geographic differences in glacial lowstand rainfall, even
though the absolute amounts of such rainfall are unknown. The correlation therefore suggests the importance of Pleistocene
subaerial solution in contributing to barrier reef morphology. Further support for antecedent influence occurs in the form
of barrier reef passes in which the depth of the reef pass is correlated with onshore drainage volumes. On a larger scale,
the Cook Island of Mangaia provides evidence that solution can produce barrier reef morphology independent of reef development.
In contrast, there are no examples of the subsidence-predicted lagoon transition of fringing reefs to barrier reefs to atolls.
Moreover, the common occurrence of fringing reefs within barrier reefs negates subsidence as a causal factor in their ‘presumed
progressive evolutionary development. Consequently, the evidence to date suggests that a solution morphology template has
been accentuated by reef construction to produce the diagnostic barrier reef morphology we see today. The importance of subsidence
would seem to be in accounting for the overall thickness of the resulting carbonate caps of oceanic examples and in contributing
to lagoon depth variation among the larger continental entities.
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