香山绝对点周围的局部地壳变形及其对重力测量结果的影响

为了监视北京地区的地壳稳定性，北京测绘院对10多个基岩点和北京市区进行了多次沉降观测，结果表明香山点近10多年来高程变化只有几毫米，其重力效应可略而不计，但测点东北和东南方有两个较大的下沉区。用线积分法计算了两个局部沉降的重力效应，在沉降区中心其影响可达0.38μms^-2，但对香山点的重力效应非常小，完全可以忽略。因此得出如下结论：香山点观测到的重力变化不是地壳变形引起的。     

A new model for the periodic outbursts of the BL Lac object OJ287

Recent observations provide strong evidence for the BL Lac object OJ287 exhibiting a 11.6±0.5 yr periodicity with a double-peaked maxima in its optical flux variations. Several models have been proposed for the optical behavior. The 2005 November outburst in OJ287 gives us a surprising result since calculation based on the periodicity was predicting such an outburst in late 2006. Here we suggest a new model, it can not only explain the optical quasi-periodic behavior, but also the radio flares behavior which is and simultaneous with the optical flares. We propose that OJ287 is a binary pair of super-massive black holes, both of them creating a jet. The quasi-periodic double peaks would be due to the relativistic beaming effect on the emission coming from the double helix jets. We used “core flares” to explain the large lags between light curves at different frequencies, and the assumption of two jets appear to be merged with each other partly in the radio frequency emitting regions provides a viable interpretation that we can see only a broad maximum which contains two radio flares that we cannot distinguish.     

Fe3+ in shocked olivine crystals of the ALHA 77005 meteorite

ALHA 77005, a shocked achondrite of the shergottite group, is unique in containing cumulus olivine crystals which display a brownish color in thin section. Mössbauer, EPR, and optical spectroscopic studies show the presence of Fe³⁺ in the olivine. Approximately 4.5 wt.% of the total iron in the olivine (24 wt.% as FeO) is in the trivalent state. The Fe³⁺ ions preferentially occupy M2 lattice positions. Charge transfer between Fe³⁺ and Fe²⁺ as well as between Fe³⁺ and oxygen ligands causes a broad absorption band in the optical spectrum at high energies which is the reason for the olivine color. It is concluded that the color of the ALHA 77005 olivine is preterrestrial and may be the result of shock-induced oxidation of the olivine crystals on the meteorite parent body.     

Experimental impact cratering: A summary of the major results of the MEMIN research unit

This paper reviews major findings of the Multidisciplinary Experimental and Modeling Impact Crater Research Network (MEMIN). MEMIN is a consortium, funded from 2009 till 2017 by the German Research Foundation, and is aimed at investigating impact cratering processes by experimental and modeling approaches. The vision of this network has been to comprehensively quantify impact processes by conducting a strictly controlled experimental campaign at the laboratory scale, together with a multidisciplinary analytical approach. Central to MEMIN has been the use of powerful two-stage light-gas accelerators capable of producing impact craters in the decimeter size range in solid rocks that allowed detailed spatial analyses of petrophysical, structural, and geochemical changes in target rocks and ejecta. In addition, explosive setups, membrane-driven diamond anvil cells, as well as laser irradiation and split Hopkinson pressure bar technologies have been used to study the response of minerals and rocks to shock and dynamic loading as well as high-temperature conditions. We used Seeberger sandstone, Taunus quartzite, Carrara marble, and Weibern tuff as major target rock types. In concert with the experiments we conducted mesoscale numerical simulations of shock wave propagation in heterogeneous rocks resolving the complex response of grains and pores to compressive, shear, and tensile loading and macroscale modeling of crater formation and fracturing. Major results comprise (1) projectile–target interaction, (2) various aspects of shock metamorphism with special focus on low shock pressures and effects of target porosity and water saturation, (3) crater morphologies and cratering efficiencies in various nonporous and porous lithologies, (4) in situ target damage, (5) ejecta dynamics, and (6) geophysical survey of experimental craters.     

Study on characteristics and regeneration rules of Salix gordejevii in Hunshandak Sandland, China

Salix gordejevii, a species of dune-fixing pioneer shrub in the Hunshandak Sandland in China, plays a vital role in maintenance and improvement of the local ecological environment. Salix gordejevii has an r-type reproductive countermeasure, which means it produces large quantities of seeds that have a high germination rate but relatively low seedling viability. Our research on the seed regeneration and sprouting regeneration characteristics of Salix gordejevii shows that its sprouting regeneration process is more productive and efficient than its seed regeneration process. At the same time, growth of Salix gordejevii would decline when the drifting sand dune was fixed. To assess its sprouting regeneration process, we analyzed the number, length, and diameter of new shoots under different cutting treatments, and found significant differences based on various cutting heights and different cutting times (April vs. October). We conclude that cutting measures which take advantage of this species’ robust sprout tillering can increase the biomass of this shrub and also can improve its canopy density and its forage properties for livestock grazing, with the added benefits of improved sand-fixing and prevention of wind erosion.     

Vertical migration ofcentropages typicus (copepoda) in Chesapeake Bay,with some thoughts on migration studies

Centropages typicus was collected at two hour intervals over a diel cycle at a station near the Chesapeake Bay mouth. The species migrated upward at dusk and downward at dawn. Neither light, temperature, salinity, nor density appeared to cue the migration. Attention is drawn to the need for information on the extent and regularity of migration by individual organisms, and how the lack of such information may lead to poor interpretations of migration data.     

甘青地区新石器-青铜时代居民颅面部形态变异及其在人群形成上的意义

通过对考古遗址出土古代居民遗骸的研究来探寻人群形成、适应、迁徙、融合历史是生物人类学研究的重要内容。甘青地区地处我国西北,位于新疆与中原之间,是人群迁徙与交流的关键地区。以往研究发现该地区新石器-青铜时代居民具有的一些独特的头面部特征,如具有偏狭的中颅型、高颅结合狭颅、中等偏狭的面宽、高而狭的面型、中等的面部扁平度、中眶型、狭鼻型和正颌型。一些学者就来自周边地区人群迁徙或基因交流对甘青地区古代人群形成的影响做过探讨。由于迄今开展的相关研究及掌握的数据资料有限,学术界对甘青地区古代人群内部的变异情况、时代变化及其与周边地区人群的差异程度还缺乏深入的了解,对新石器时代以来甘青地区人群的形成过程以及与东、西方人群的关系还不是很清楚。本文通过对243例甘青地区新石器-青铜时代人群颅骨测量数据的统计和分析,结合相关考古学和古环境学资料,对该地区古代居民颅面部形态特征的总体表现特点、时代变化、内部变异及与周边地区人群的关系进行了探讨,发现：1）从整体颅面部特征上看,甘青地区新石器-青铜时代人群介于典型西方人群与中原人群之间,但与中原人群更为接近;2）甘青地区新石器-青铜时代人群颅骨测量特征呈现一定的时代变化。从新石器时代到青铜时代,颅型趋向圆颅和阔颅化、面型趋狭、鼻型趋狭、眶型趋高;齿槽部的突颌水平变小;3）甘青地区古代人群颅面部测量特征的内部变异程度介于新疆与中原人群之间。从新石器时代到青铜时代,甘青地区人群颅面部测量特征的内部变异呈减小趋势;4）从新石器时代到青铜时代,甘青地区古代人群部分颅面部测量特征呈现出与西方人群接近的趋势。基于本文的分析,认为气候环境、生业方式以及人群之间的基因交流共同造成了甘青地区古代人群颅面部形态特征的变化,甘青地区古代人群形成以受到中原人群影响为主。

     

南极海洋动物粪土源N2O稳定同位素实验研究

N₂O是一种重要的温室气体,土壤是全球N₂O的重要排放源。通过测定土壤源N₂O中N、O同位素值,可以有效识别N₂O的来源途径。本文采集了南极法尔兹半岛两个地点的海豹粪土（HS和GS）、阿德雷岛两个地点的企鹅粪土(AB和AF)以及东南极的帝企鹅粪土(DQ和DQT),在室内对所采集的样品分别在有氧和厌氧条件下进行冻融培养实验。结果表明：土壤在厌氧条件下比有氧条件下排放了更多的N₂O。土壤排放的N₂O与当地大气N₂O相比普遍贫15N和18O。除DQT和HS外, δ15N和δ18O在有氧和厌氧培养下均呈现很好的正相关性。N₂O排放量下降的同时伴随着培养瓶内剩余N₂O中δ15N和δ18O 值的增加,证实N₂O还原为N2的过程会引起重同位素富集。高的水分含量有利于土壤反硝化作用的进行,使释放的N₂O气体富集重同位素;pH值也会影响N₂O的同位素组成,低pH会引起δ15N值增加。