Part I. A study of the velocity structure of the earth by the use of core phases. Part II. The 1971 San Fernando earthquake series focal mechanisms and tectonics

The initial objective of Part I was to determine the nature of upper mantle discontinuities, the average velocities through the mantle, and differences between mantle structure under continents and oceans by the use of P'dP', the seismic core phase P'P' (PKPPKP) that reflects at depth d in the mantle. In order to accomplish this, it was found necessary to also investigate core phases themselves and their inferences on core structure. P'dP' at both single stations and at the LASA array in Montana indicates that the following zones are candidates for discontinuities with varying degrees of confidence: 800-950 km, weak; 630-670 km, strongest; 500-600 km, strong but interpretation in doubt; 350-415 km, fair; 280-300 km, strong, varying in depth; 100-200 km, strong, varying in depth, may be the bottom of the low-velocity zone. It is estimated that a single station cannot easily discriminate between asymmetric P'P' and P'dP' for lead times of about 30 sec from the main P'P' phase, but the LASA array reduces this uncertainty range to less than 10 sec. The problems of scatter of P'P' main-phase times, mainly due to asymmetric P'P', incorrect identification of the branch, and lack of the proper velocity structure at the velocity point, are avoided and the analysis shows that one-way travel of P waves through oceanic mantle is delayed by 0.65 to 0.95 sec relative to United States mid-continental mantle.

A new P-wave velocity core model is constructed from observed times, dt/dΔ's, and relative amplitudes of P'; the observed times of SKS, SKKS, and PKiKP; and a new mantle-velocity determination by Jordan and Anderson. The new core model is smooth except for a discontinuity at the inner-core boundary determined to be at a radius of 1215 km. Short-period amplitude data do not require the inner core Q to be significantly lower than that of the outer core. Several lines of evidence show that most, if not all, of the arrivals preceding the DF branch of P' at distances shorter than 143° are due to scattering as proposed by Haddon and not due to spherically symmetric discontinuities just above the inner core as previously believed. Calculation of the travel-time distribution of scattered phases and comparison with published data show that the strongest scattering takes place at or near the core-mantle boundary close to the seismic station.

In Part II, the largest events in the San Fernando earthquake series, initiated by the main shock at 14 00 41.8 GMT on February 9, 1971, were chosen for analysis from the first three months of activity, 87 events in all. The initial rupture location coincides with the lower, northernmost edge of the main north-dipping thrust fault and the aftershock distribution. The best focal mechanism fit to the main shock P-wave first motions constrains the fault plane parameters to: strike, N 67° (± 6°) W; dip, 52° (± 3°) NE; rake, 72° (67°-95°) left lateral. Focal mechanisms of the aftershocks clearly outline a downstep of the western edge of the main thrust fault surface along a northeast-trending flexure. Faulting on this downstep is left-lateral strike-slip and dominates the strain release of the aftershock series, which indicates that the downstep limited the main event rupture on the west. The main thrust fault surface dips at about 35° to the northeast at shallow depths and probably steepens to 50° below a depth of 8 km. This steep dip at depth is a characteristic of other thrust faults in the Transverse Ranges and indicates the presence at depth of laterally-varying vertical forces that are probably due to buckling or overriding that causes some upward redirection of a dominant north-south horizontal compression. Two sets of events exhibit normal dip-slip motion with shallow hypocenters and correlate with areas of ground subsidence deduced from gravity data. Several lines of evidence indicate that a horizontal compressional stress in a north or north-northwest direction was added to the stresses in the aftershock area 12 days after the main shock. After this change, events were contained in bursts along the downstep and sequencing within the bursts provides evidence for an earthquake-triggering phenomenon that propagates with speeds of 5 to 15 km/day. Seismicity before the San Fernando series and the mapped structure of the area suggest that the downstep of the main fault surface is not a localized discontinuity but is part of a zone of weakness extending from Point Dume, near Malibu, to Palmdale on the San Andreas fault. This zone is interpreted as a decoupling boundary between crustal blocks that permits them to deform separately in the prevalent crustal-shortening mode of the Transverse Ranges region.

Structural and clumped-isotope constraints on the mechanisms of displacement along low-angle detachments

Despite years of research on low-angle detachments, much about them remains enigmatic. This thesis addresses some of the uncertainty regarding two particular detachments, the Mormon Peak detachment in Nevada and the Heart Mountain detachment in Wyoming and Montana.

Constraints on the geometry and kinematics of emplacement of the Mormon Peak detachment are provided by detailed geologic mapping of the Meadow Valley Mountains, along with an analysis of structural data within the allochthon in the Mormon Mountains. Identifiable structures well suited to constrain the kinematics of the detachment include a newly mapped, Sevier-age monoclinal flexure in the hanging wall of the detachment. This flexure, including the syncline at its base and the anticline at its top, can be readily matched to the base and top of the frontal Sevier thrust ramp, which is exposed in the footwall of the detachment to the east in the Mormon Mountains and Tule Springs Hills. The ~12 km of offset of these structural markers precludes the radial sliding hypothesis for emplacement of the allochthon.

The role of fluids in the slip along faults is a widely investigated topic, but the use of carbonate clumped-isotope thermometry to investigate these fluids is new. Faults rocks from within ~1 m of the Mormon Peak detachment, including veins, breccias, gouges, and host rocks, were analyzed for carbon, oxygen, and clumped-isotope measurements. The data indicate that much of the carbonate breccia and gouge material along the detachment is comminuted host rock, as expected. Measurements in vein material indicate that the fluid system is dominated by meteoric water, whose temperature indicates circulation to substantial depths (c. 4 km) in the upper crust near the fault zone.

Slip along the subhorizontal Heart Mountain detachment is particularly enigmatic, and many different mechanisms for failure have been proposed, predominantly involving catastrophic failure. Textural evidence of multiple slip events is abundant, and include multiple brecciation events and cross-cutting clastic dikes. Footwall deformation is observed in numerous exposures of the detachment. Stylolitic surfaces and alteration textures within and around “banded grains” previously interpreted to be an indicator of high-temperature fluidization along the fault suggest their formation instead via low-temperature dissolution and alteration processes. There is abundant textural evidence of the significant role of fluids along the detachment via pressure solution. The process of pressure solution creep may be responsible for enabling multiple slip events on the low-angle detachment, via a local rotation of the stress field.

Clumped-isotope thermometry of fault rocks associated with the Heart Mountain detachment indicates that despite its location on the flanks of a volcano that was active during slip, the majority of carbonate along the Heart Mountain detachment does not record significant heating above ambient temperatures (c. 40-70°C). Instead, cold meteoric fluids infiltrated the detachment breccia, and carbonate precipitated under ambient temperatures controlled by structural depth. Locally, fault gouge does preserve hot temperatures (>200°C), as is observed in both the Mormon Peak detachment and Heart Mountain detachment areas. Samples with very hot temperatures attributable to frictional shear heating are present but rare. They appear to be best preserved in hanging wall structures related to the detachment, rather than along the main detachment.

Evidence is presented for the prevalence of relatively cold, meteoric fluids along both shallow crustal detachments studied, and for protracted histories of slip along both detachments. Frictional heating is evident from both areas, but is a minor component of the preserved fault rock record. Pressure solution is evident, and might play a role in initiating slip on the Heart Mountain fault, and possibly other low-angle detachments.

Morfo-anatomia foliar comparada de Coccocypselum lanceolatum (RUIZ & PAVON) PERSOON (RUBIACEAE) ocorrente em duas regiões distintas de Mata Atlântica

A Mata Atlântica figura entre os biomas com o maior índice de biodiversidade, mais ameaçados e menos conhecidos cientificamente do planeta. Nesse bioma, a família Rubiaceae se destaca como a quarta mais importante em número de espécies e indivíduos. Com o objetivo de aumentar o conhecimento relativo ao bioma e à família em questão, este trabalho propõe o estudo de Coccocypselum lanceolatum (Ruiz & Pavon) Persoon, uma espécie de hábito herbáceo frequente em diferentes fitofisionomias de Mata Atlântica no estado do Rio de Janeiro. O trabalho visa comparar a estrutura morfo-anatômica da espécie crescendo em Floresta Ombrófila Densa submontana, em região insular e Floresta Ombrófila Densa montana, em região continental. A pesquisa foi desenvolvida em dois remanescentes de Mata Atlântica no estado do Rio de Janeiro: Parque Estadual da Ilha Grande, no município de Angra dos Reis e Parque Ambiental Luiz Simões Lopes, município de Nova Friburgo. Foi feita a avaliação dos seguintes parâmetros ambientais: pluviosidade, temperatura, radiação solar e características do solo. Para a análise morfológica foliar, foram coletadas 25 folhas completamente expandidas, provenientes do 3 ou 4 nós, observando-se a mesma estação climática, entre os meses de maio e junho de 2010 (outono) nos dois sítios de estudo. Para o estudo anatômico foram selecionadas 10 folhas completamente expandidas, provenientes do 3 ou 4 nós, as quais foram fragmentadas nos níveis do pecíolo e terço-médio. Os parâmetros utilizados para a comparação dos materiais provenientes dos diferentes sítios consistiram na espessura total da lâmina foliar, na espessura do mesofilo (m), na espessura dos parênquimas (m), paliçádico e lacunoso, na espessura das epidermes (m) nas faces adaxiais e abaxiais, e nas densidades (mm2) de estômatos e de tricomas. Os resultados obtidos mostram que a espécie apresenta variação intraespecífica, relacionada aos diferentes parâmetros ambientais avaliados em função da origem. Desta forma, foram encontradas diferenças na composição química e física e consequentemente no pH dos solos; a presença de antocianinas em órgãos diferentes das flores e dos frutos no material de Nova Friburgo; diferenças morfológicas e anatômicas relativas às diferenças nos índices pluviométricos, composição do solo e radiação solar

A tree-ring perspective on the extreme wetness of the early 1900’s in the western United States [abstract]

Ring-width indices from 136 sites in the area from northern Montana to southern New Mexico between latitudes 103°W and 111°W were examined to infer periods of anomalous wetness for the years 1700-1964. Sites were grouped into north, central and south regions, and the gross regional tree-ring fluctuations were compared. The results indicate that the period 1905-1917 was unique in the 265-year record for the combined magnitude, duration, and north/south coherence of the growth anomaly of much lesser magnitude occurred in the 1830's-1840's [sic]. Both this and the 1905-1917 anomaly appear from time-series plots to be manifestations of low-frequency growth variations at wave lengths between about 20 and 60 years.

葛属(豆科)的分类学修订

本论文对葛属（Pueraria DC.）进行了形态学、解剖学及植物地理学研究，重点分析了小叶、托叶、花序及花的形态变异规律。首次发现葛属生长习性和种皮纹饰特征在组的划分上具有重要的分类学意义，支持前人运用托叶着生方式、花序类型及每节簇生花的数目等特征划分组的观点。首次在光学显微镜下对葛属植物14种1变种叶表皮性状做了较为全面、深入的观察，发现葛属叶表皮细胞的形状、垂周壁的式样以及气孔大小有一定分类学意义，为葛属的分类修订提供了新资料。首次应用电子扫描显微镜观察了葛属10种1变种和2个外类群广西土黄芪Nogra guangxiensis C. F. Wei和琼豆Teyleria koordersii (Backer ex Koord.-Schum.) Backer的种皮纹饰特征，发现葛属的种皮纹饰有网纹型、断棱型、复网纹型和锐棱型等4种类型，他们与托叶的着生方式具有一定的关联性。托叶背着的类群为网纹型，其中采自中国和越南不同居群的山野葛Pueraria montana (Lour.) Merr.种皮次级纹饰有差别，这显示山野葛分化比较活跃。托叶基着的三裂叶野葛P. phaseoloides (Roxb.) Benth.、大花三裂叶野葛P. phaseoloides (Roxb.) Benth. var. javanica (Benth.) Baker、苦葛P. peduncularis (Graham ex Benth.) Benth.以及云南野葛P. yunnanensis Franch.的种皮纹饰为断棱形，小花野葛P. stricta Kurz种皮纹饰为复网纹型，喜玛拉雅葛藤P. wallichii DC.种皮纹饰为锐棱型。依据种皮纹饰推断，喜玛拉雅葛藤最原始，黄毛葛藤P. calycina Franch.最进化，与形态学特征演化方向相吻合。广西土黄芪种皮纹饰为网纹型，琼豆种皮纹饰为复网纹型，表明它们与葛属亲缘关系较近。这与形态学和分子证据相吻合。本文首次运用广义线形模型（GLM）结合地理信息系统（GIS）对葛属现有地理分布、潜在分布及50年后潜在分布进行了分析。所预测的潜在分布范围与观察到的地理分布范围一致，说明对特化的气候忍耐性是限制葛属物种地理分布的主要因素。温度、降水和海拔高度对葛属地理分布限制作用比较大。未来潜在分布预测显示葛属有向南、北扩散的趋势。 作者在研究了四千余份腊叶标本及野外形态考察的基础上，结合叶表皮及种皮纹饰资料，确认葛属分为3组，共19种3变种。其中，对Sect. Breviramulae Maesen ex Z. F. Le & X. Y. Zhu进行了合格发表，运用形态学、解剖学及种皮纹饰资料恢复了云南野葛种的地位，并为其指定了后选模式，P. pulcherrima (Koord.-Schum.) Merr. ex Koord.-Schum.正确的学名为P. sericans Schum.，对4个名称进行了归并。本文还给出了组和种的检索表、葛属各个种的形态描述、地理分布图及模式标本照片。

Microorganisms linked to Neoproterozoic microspar carbonate sedimentation in the Jilin-Liaoning area

Molar-tooth carbonate refers to a sort of rock that has ptygmatical folded structure comparable to the ivory. This kind of carbonate exists in a special time range (from Middle to Neoproterozoic). Its origin and the possibility to use it in stratigraphic correlation of the paleocontinent is the key task of the IGCP447, a project on Proterozoic molar tooth carbonates and the evolution of the earth (2001-2005). The importance lies in that the molar-tooth structure is the key to solving problems related to Precambrian biological and global geochemical events. The molar-tooth structure is associated with microorganisms. Development and recession of such carbonates have relations with the evolution process of early lives and abrupt changes in sea carbonate geochemistry. In recent years, based on researches on petrology, geochemistry and Sr isotope of molar-tooth carbonate in the Jilin-Liaoning and Xuzhou-Huaiyang area, the authors hold that it can be used as a marker for stratigraphic sequence and sedimentary facies analyses.

Microorganisms linked to Neoproterozoic microspar carbonate sedimentation in the Jilin-Liaoning area

Molar-tooth carbonate refers to a sort of rock that has ptygmatical folded structure comparable to the ivory. This kind of carbonate exists in a special time range (from Middle to Neoproterozoic). Its origin and the possibility to use it in stratigraphic correlation of the paleocontinent is the key task of the IGCP447, a project on Proterozoic molar tooth carbonates and the evolution of the earth (2001-2005). The importance lies in that the molar-tooth structure is the key to solving problems related to Precambrian biological and global geochemical events. The molar-tooth structure is associated with microorganisms. Development and recession of such carbonates have relations with the evolution process of early lives and abrupt changes in sea carbonate geochemistry. In recent years, based on researches on petrology, geochemistry and Sr isotope of molar-tooth carbonate in the Jilin-Liaoning and Xuzhou-Huaiyang area, the authors hold that it can be used as a marker for stratigraphic sequence and sedimentary facies analyses.

Bioassays against pinewood nematode: assessment of a suitable dilution agent and screening for bioactive essential oils

Acetone was investigated and found to be an appropriate alternative to Triton X-100 as a solvent of essential oils in bioassays aimed to investigate their effects on pinewood nematode (Bursaphelenchus xylophilus) mortality. Therefore it was used as dilution agent to screen the effectiveness of fifty two essential oils against this pest. Thirteen essential oils were highly effective, resulting in more than 90% pinewood nematode mortality at 2 mg/mL, with six of them resulting in 100% mortality. LC100 values ranged between 0.50 mg/mL and 0.83 mg/mL for the essential oils of Origanum vulgare and Satureja montana, respectively. Essential oils were submitted to gas chromatography and gas chromatography-mass spectrometry analysis and their chemical composition established. Data from essential oils with 100% mortality at 2 mg/mL and other essential oils previously found to have LC100 ≤ 2 mg/mL was combined, their chemical profiles investigated by correspondences analysis plus automatic classification.