Palaeointensity results for historic lavas from Mt Etna using microwave demagnetization/remagnetization in a modifiedThellier-type experiment     

Mimi J. Hill  & John Shaw 《Geophysical Journal International》1999,139(2):583-590

The bane of conventional Thellier-type palaeointensity experiments is the thermal alteration of the samples during experimentation. However, high-frequency microwaves can be used to stimulate the magnetic minerals directly, thus eliminating the need for the bulk sample to be heated ( Walton et al . 1993 ). The microwave technique has been successfully applied to ceramics ( Shaw et al . 1996 , 1999 ), and here we present results for historic lavas from Mt Etna, Sicily. 20 samples were randomly selected from 10 different historic flows dating from 1843 to 1983. Hysteresis parameters were monitored as a check for alteration during experimentation and minimal alteration was found. Rock-magnetic analysis and AF plus microwave demagnetizations were carried out on all samples, and microwave intensity analysis was carried out on those samples that were stable to microwave demagnetization (16 in total). With one exception, all samples gave high-quality intensity results. Two or three subsamples from each sample were investigated and a weighted average calculated to give a single estimate of the field. When the intensity values were compared with the SV model based on direct observatory measurements ( Bloxham & Gubbins 1985 ), it was found that those samples that contained a high multidomain (MD) component gave intensity values around 20 per cent lower than expected. This can be explained by the cooling rate effect ( Dodson & McClelland-Brown 1980 ) and/or the presence of an MD component ( McClelland et al. 1996 ). Those samples with the lowest numbers of MD grains gave field values which, within error, were the same as those for the model, or slightly too high: this is compatible with the cooling rate effect.  相似文献   

准噶尔盆地西泉地区石炭系火山熔岩油气储层特征及成岩演化过程研究          下载免费PDF全文

代静静  罗静兰  何贤英  马尚伟  汪冲  许学龙 《中国地质》2020,47(3):742-754

火山熔岩油气藏是准噶尔盆地油气勘探和开发的重要目标之一。通过对准噶尔盆地西泉地区16口石炭系火山熔岩井的岩心观察、普通薄片和铸体薄片镜下鉴定和定量统计、扫描电镜和X-射线衍射等实验,研究玄武岩、安山岩、英安岩的岩石学特征、孔隙类型及储集特征及异同点,建立火山熔岩成岩演化序列,探讨成岩作用对火山熔岩孔隙演化的影响。研究表明,安山岩的储集空间最发育,孔隙类型及组合多样,多为气孔+斑晶溶孔+基质溶孔+溶蚀缝组合和气孔+斑晶溶孔+基质溶孔+溶蚀缝+构造裂缝组合。英安岩的孔隙组合为气孔+斑晶溶孔+基质溶孔和气孔+斑晶溶孔+基质溶孔+溶蚀缝。玄武岩孔隙类型及组合单一,为构造裂缝+溶蚀缝,构造裂缝+基质溶孔,气孔+溶蚀缝。挥发分逸出作用控制火山熔岩原生气孔的发育,岩浆期后热液作用和充填作用破坏了火山熔岩的储集空间,溶蚀作用、风化淋滤作用和构造破裂作用极大地改善了火山熔岩的储集性能。认为西泉地区石炭系顶部风化剥蚀淋滤带(距石炭系顶面0～20 m)的安山岩是油气聚集的最有利层段。  相似文献   

辽西义县许家屯巨型枕状熔岩地质特征     

李之彤  杨芳林 《地质与资源》2007,16(1):12-15

辽西义县许家屯巨型枕状熔岩产在义县旋回第二亚旋回火山岩沉积夹层中.以其岩枕巨大（5~8m）、形态多样构成独特的火山岩景观.岩枕大体由冷凝边、过渡带和核部3部分组成,三者间在颜色、气孔和杏仁的数量与大小上彼此有别.它们的岩石学、地球化学特征完全可以和下伏火山岩对比,岩性属玄武安山岩.其是在第二亚旋回火山活动间歇期,岩浆再次溢出,涌流进水体（如湖泊）里冷凝而成为陆相环境产物,与海相玄武质枕状熔岩明显不同.  相似文献   

Submarine lineated sheet flows: a unique lava morphology formed on subsiding lava ponds     

William W. Chadwick Jr.  Tracy K. P. Gregg  Robert W. Embley 《Bulletin of Volcanology》1999,61(3):194-206

 Lineated sheet flows are flat-lying, glassy lava flows characterized by a regular surface pattern of parallel grooves or furrows aligned with the flow direction. They are unique to the submarine environment. We propose that the lineations are developed within the collapsed interiors of partially ponded lobate sheet flows that initially inflate and then drain out during emplacement. During lava drainout, the original lobate crust founders and a new crust begins to grow on the subsiding lava surface. Lineated flow texture is created where molten lava emerges laterally from beneath a growing crust. The lineations are formed by raking of the emerging lava surface by irregularities on the bottom edge of the crust and are preserved owing to rapid chilling by seawater. Therefore, lineated sheet flows are the product of a specific sequence of events over a short period of time during the course of a deep submarine eruption. Received: 23 November 1998 / Accepted: 22 February 1999  相似文献   

Geology and eruptive history of Unzen volcano, Shimabara Peninsula, Kyushu, SW Japan     

Hideo Hoshizumi  Kozo Uto  Kazunori Watanabe 《Journal of Volcanology and Geothermal Research》1999,89(1-4)

During the past 500 thousand years, Unzen volcano, an active composite volcano in the Southwest Japan Arc, has erupted lavas and pyroclastic materials of andesite to dacite composition and has developed a volcanotectonic graben. The volcano can be divided into the Older and the Younger Unzen volcanoes. The exposed rocks of the Older Unzen volcano are composed of thick lava flows and pyroclastic deposits dated around 200–300 ka. Drill cores recovered from the basal part of the Older Unzen volcano are dated at 400–500 ka. The volcanic rocks of the Older Unzen exceed 120 km³ in volume. The Younger Unzen volcano is composed of lava domes and pyroclastic deposits, mostly younger than 100 ka. This younger volcanic edifice comprises Nodake, Myokendake, Fugendake, and Mayuyama volcanoes. Nodake, Myokendake and Fugendake volcanoes are 100–70 ka, 30–20 ka, and <20 ka, respectively. Mayuyama volcano formed huge lava domes on the eastern flank of the Unzen composite volcano about 4000 years ago. Total eruptive volume of the Younger Unzen volcano is about 8 km³, and the eruptive production rate is one order of magnitude smaller than that of the Older Unzen volcano.  相似文献   

Generation of block and ash flows during the 1990–1995 eruption of Unzen Volcano, Japan     

Tadahide Ui  Norimichi Matsuwo  Mari Sumita  Akihiko Fujinawa 《Journal of Volcanology and Geothermal Research》1999,89(1-4)

Processes generating block and ash flows by gravitational dome collapse (Merapi-type pyroclastic flow) were observed in detail during the 1990–1995 eruption of Unzen volcano, Japan. Two different types were identified by analysis of video records and observations during helicopter flights. Most of the block and ash flows erupted during the 1991–1993 exogenous dome growth stage initially involved crack propagation due to cooling and flowage of the dome lava lobes. The mass around the crack became unstable, locally decreasing in tensile strength. Finally, a slab separated from the lobe front, fragmented progressively from the base to the top within a few seconds, and became a block and ash flow. Rock falls immediately followed, in response to local instability of the lobe front. Clasts in these rock falls fragmented and merged with the preceding flow. In contrast, block and ash flows during the endogenous dome growth stage in 1994 were generated due to local bulge of the dome. Unstable lava blocks collapsed and subsequently fragmented to produce block and ash flows.  相似文献   

An empirical function to estimate the depths of linear hot sources: Laboratory modeling and field measurements of lava tubes     

Antony R. Berthelote  Anupma Prakash  Jonathan Dehn 《Bulletin of Volcanology》2008,70(7):813-824

Estimating depths of buried lava tubes is important for determining the thermal budgets and effusion rates of basaltic volcanic systems. This research used a laboratory experiment scaled to a lava tube system to measure the 3D temperature field surrounding a hot viscous fluid flowing through a buried glass tube while varying conditions such as flow rate and temperature. The depth of the glass tube was changed for different experimental runs. Numerical techniques were applied to model the laboratory experiment. The surface thermal distributions from 166 thermal traverses, constrained to a depth to width ratio of 0.6 to 1.6, were analyzed to empirically derive a depth estimation function using regression techniques. This “Linear Anomaly Surface Transect (LAST)” depth function is a scaleable depth estimation technique which can be solved with thermal imaging data alone. The minimum temperature, maximum temperature and width of a Lorentzian distribution fit to a surface thermal transect, are the only inputs required for the LAST function to estimate the depths of the hot source. The input parameters were then applied to non-laboratory situations including the Kuhio lava tube system in Hawai’i. The LAST function produced depth estimates of ∼ 0.3 m for the Kuhio lava tube in Hawai’i, which did not agree with observations on the ground. This is the result of the complex composition and geometry of an actual lava tube where heat transfer is controlled by more than a simple fluid filling a tube, but also by convection of gasses and fluids in a partially filled passage. Though not effective for lava tubes at this time, the model provides promising results for simple cases applied to engineering and underground coal fires.  相似文献   

Enigmatic clastogenic rhyolitic volcanism: The Corral de Coquena spatter ring,North Chile     

Stephen Self  Shanaka L. de Silva  Joaquín A. Cortés 《Journal of Volcanology and Geothermal Research》2008

We report on the unusual occurrence of the products of lava fountaining in a Pliocene calc-alkaline rhyolitic monogenetic center from northern Chile. Corral de Coquena is a discontinuous ring of lava located in the moat of La Pacana caldera (23°27' S, 67°23.5' W), part of the Altiplano-Puna Volcanic Complex of the Central Andes. The volcanic structure is composed of a maar-like crater, with an associated pyroclastic (possibly phreatomagmatic) unit, that is overlain by rhyolitic glassy lava ramparts, in which evidence of spatter, agglutinate and clastogenic material is found. Typical explanations for the unusual textures in a rhyolitic lava, such as peralkaline composition, high volatile content, or superheated magma are untenable in this case. We propose that the most likely explanation for this extreme style of rhyolitic volcanism is a combination of moderately high eruption rate and efficient degassing prior to eruption. In the light of reports of several other bodies of fountain-fed silicic magma from the UK, US, and Japan, we propose that Corral de Coquena is a rhyolitic spatter ring superimposed upon a maar-like crater. We further propose that pyroclastic fountaining should be considered an end-member of the spectrum of eruptive styles of calc-alkaline silicic magmas, and that Corral de Coquena is a rare example, preserved because of the hyper-arid climate in the Altiplano-Puna Volcanic Complex.  相似文献   

Infrasonic tracking of large bubble bursts and ash venting at Erebus Volcano,Antarctica     

Kyle R. Jones  Jeffrey B. JohnsonRick Aster  Philip R. KyleW.C. McIntosh 《Journal of Volcanology and Geothermal Research》2008

Explosive degassing at Erebus Volcano produces infrasound that can be used to locate, characterize, and quantify eruptive activity from multiple vents. We use a three element distributed microphone network to pinpoint eruption sources and track the activity at the prominent vents through time. Eruptive mechanisms for both source types are analyzed in conjunction with the telemetered time-synced video imagery. We identify two commonly active vents corresponding to the large (often > 10-m diameter) bubble bursts at the free surface of a persistent phonolitic lava lake (‘Ray Lake’), and the less frequent ash-rich eruptions from a constricted vent (‘Active Vent’) located ∼ 80 m from the lava lake. During a 3-month study interval from 6 January to 13 April 2006 we identified and mapped more than 350 eruptive sources from the lava lake and 20 sources from the ash vent. Lava lake events are characterized by high-amplitude infrasonic transients that reflect rapid (less than a few s) acceleration and rupture of magma bubble films followed by an explosion of pressurized gases. Precise infrasonic localization of the lava lake events to accuracies of a few m indicates variable bubble source locations across a 40 by 50-m region spanning the lava lake. Spatial variability is corroborated by the video data. In contrast, degassing from the ash vent produces longer-duration (tens of s), lower amplitude transients that reflect diminished impulsivity and an extended degassing duration, features that are corroborated by video. Because infrasound networks can operate continuously in all weather conditions and during both diurnal and seasonal polar darkness, and are easily incorporated into automatic processing, they significantly contribute to the completeness and quantification of eruption catalogues for Erebus.  相似文献   

Ground-based thermal imaging of lava lakes at Erebus volcano,Antarctica     

J. Calkins  C. Oppenheimer  P.R. Kyle 《Journal of Volcanology and Geothermal Research》2008

Mount Erebus, a large intraplate stratovolcano dominating Ross Island, Antarctica, hosts the world's only active phonolite lava lakes. The main manifestation of activity at Erebus volcano in December 2004 was as the presence of two convecting lava lakes within an inner crater. The long-lived Ray Lake, ~ 1400 m² in area, was the site of up to 10 small Strombolian eruptions per day. A new but short-lived, ~ 1000–1200 m² lake formed at Werner vent in December 2004 sourced by lava flowing from a crater formed in 1993 by a phreatic eruption. We measured the radiative heat flux from the two lakes in December 2004 using a compact infrared (IR) imaging camera. Daily thermal IR surveys from the Main Crater rim provide images of the lava lake surface temperatures and identify sites of upwelling and downwelling. The radiative heat outputs calculated for the Ray and Werner Lakes are 30–35 MW and 20 MW, respectively. We estimate that the magma flux needed to sustain the combined heat loss is ~ 250–710 kg s^− 1, that the minimum volume of the magma reservoir is 2 km³, and that the radius of the conduit feeding the Ray lake is ~ 2 m.  相似文献