蓝藻磷脂磷酸酶基因的缺失对光合作用的影响

磷脂酰甘油(phosphatidylglycerol, PG)是类囊体膜(也叫光合膜)中唯一的一种磷脂。在蓝藻中，PG的合成途径为：磷脂酸(phosphatidic acid, PA)胞嘧啶双磷酸-二酰基甘油 (cytidine diphosphate diacylglycerol, CDP-DAG) 磷酸磷脂酰甘油 (phosphatidylglycerol phosphate, PGP)PG。其中最后一步反应是由PGP去磷酸化而生成PG，催化该反应的是PGP磷酸酶。然而迄今为止，PGP磷酸酶还没有在蓝藻和高等植物中得到克隆和鉴定。本工作在鱼腥藻Anabaena sp. PCC7120中通过将一个可能编码PGP磷酸酶的基因(alr1715)进行突变，获得缺失PG的突变体。与野生型相比，该突变体PG的含量降低了30%左右。突变后的蓝藻藻丝发黄、生长缓慢，叶绿素含量降低。整体细胞的光合作用活性、光系统II(photosystem II，PSII)的放氧活性以及PSII反应中心的光能转化效率显著下降，传递给PSII的激发能减少。

岷江上游景观可持续管理决策预案研究

岷江上游地区是我国一个重要的大尺度、复合型生态过渡带，也是一个生态系统脆弱区和敏感区，它不但影响当地和岷江下游的农业生产、生活用水和生态环境，而且影响长江上游地区生态环境改善，在长江上游生态安全格局中占有重要地位。近几十年来，在强烈的自然变化与人类活动干扰下，该区域景观发生了巨大变化，综合研究影响景观变化的自然、社会因子，制定以生态系统可持续为目标的景观管理决策，从而为改善区域生态环境，构建生态安全格局具有重要的科学意义和现实需求。本论文通过对岷江上游农、林、草复合景观诸多因子的研究，通过NetWaver和CDP（Criterium DecisionPlus）平台，分别建立基于模糊逻辑的景观评价知识库和基于多目标决策的景观管理决策模型，实现了岷江上游3种不同目标的景观管理决策预案。本论文取得了如下结论： (1). 景观格局分析表明，岷江上游景观以草地为基质，森林以及其他景观类型作为斑块镶嵌其中，草地类型影响到整个景观格局的生态过程，包括物质的传输与能量的流动。 (2). 通过建立人类活动强度这一可定量化测度的指标，分析了研究区森林、草地、耕地三种主要景观类型的格局变化，结果显示，人类活动视为信息熵输入，其强度大小对景观类型所起的作用不同，正确引导和控制一定范围、一定强度的人类活动可以实现景观的恢复。 (3). 基于NetWeaver系统，设计景观评价模糊知识库，对研究区进行了景观综合评价，整个流域除了四个子流域支持程度为低或者非常低外，其余子流域支持程度较好，景观管理的可行性和有效性水平较高。评价的结果为景观管理预案的设计提供了重要的数据支持。 (4). 综合研究区社会、经济和生态发展三个子系统，通过层次分析法，建立三层指标体系对研究区可持续能力进行评价。结果表明，岷江上游可持续发展能力综合评价值为0.22（理想值为1），反映出景观可持续能力差，实施区域生态系统管理，制订可持续管理预案具有重要性和紧迫性。 (5). 通过CDP（Criterium DecisionPlus）平台，综合所有对景观管理有潜在影响的因素，构建景观管理的决策模型，设计了三个基于不同管理目标的决策预案；并对所设计的管理预案进行了模型不确定性分析、灵敏度分析和因子贡献量分析，验证了预案模型的鲁棒性（robustness）；最后，结合生态系统管理系统EMDS（Ecosystem Management Decision System）和ARC/GIS的环境实现预案空间表达，并对决策结果进行了分析与讨论。论文的研究结果是研究区实施景观管理规划的关键性参考依据。

三维VSP技术的研究及应用

Today, because of high petroleum consumption of our country, society steady development and difficulty increase in new resources exploration, deep exploitation of the existing oilfield is needed. More delicate reservoir imaging and description, such as thin layer identification, interlayer exploitation monitoring, subtle structure imaging, reservoir anisotropy recognition, can provide more detail evidence for new development adjustment scheme and enhanced oil recovery. Now, the people have already realized the 3D VSP technique more effective than the general methods in solving these aspects. But VSP technique especially 3D VSP develop slowly due to some reasons. Carrying out the research of VSP technique, it will be very useful to the EOR service. 3D VSP techniques include acquisition、data processing and interpretation. In this paper, the author carried out some researches around acquisition and processing. The key point of acquisition is the survey design, it is critical to the quality of the data and it will influence the reservoir recognition as follows. The author did detailed researches on the layout pattern of shot point and geophone. Some attributes relate to survey design such as reflectivity, incidence angle, observation area, reflection points distribution, fold, minimum well source distance, azimuth angle and so on are studied seriously. In this geometry design of 3D-VSP exploration in deviated wells, the main problems to be solved are: determining the center position of shots distribution, the effect of shots missing on coverage areas and coverage times，locating the shots and receivers of multi-wells. Through simulating and analyzing, the above problems are discussed and some beneficial conclusions are drawn. These will provide valuable references to actual survey design. In data processing, researches emphasize on those relatively key techniques such as wavefield separation, VSP-CDP imaging, the author carried out deep researches around these two aspects. As a result, variant apparent slowness wavefield separation method developed in this article suit the underground variant velocity field and make wavefield separation well, it can overcome reflection bending shortage aroused by conventional imaging method. The attenuateion range of underground seismic wave is very important for amplitude compensation and oil/gas identification.In this paper, seismic wave attenuateion mechanism is studied by 3D-VSP simulateion and Q-inversion technique. By testing with seismic data, the method of VSP data attenuateion and relationship of attenuateion attribute variant with depth is researched. Also the software of survey design and data processing is developed, it fill the gap of VSP area in our country. The technique developed applied successfully in SZXX-A Oilfield、QKYY-B Oilfield、A area and B area. The good results show that this research is valuable, and it is meaningful to the VSP technique development and application of offshore oil industry and other areas in our country.

隐伏金矿床预测中的地震勘探险方法

Based on brief introduction of seismic exploration and it's general developing situation, the seismic exploration method in field work implementation and some problems frequently encountered in field, which should be pay attention to, are analyzed in detail. The most economic field work techniques are emphasized. Then the seismic data processing flow and it's interpretation technique about the processing results are presented. At last four examples of seismic prospecting in gold deposits are showed. The main conclusions of our research are: 1. Seismic prospecting technique is a very efficient method in the prediction of concealed gold deposits. With appropriate application, it can absolutely reflect the detail underground geological structure in the condition of rugged area and complicated geological environment. 2. The field geometry should be designed and changed according to different kinds of objective exploration depth and ground situation. The best field implementing parameters which include offset, the distance between two adjacent traces, the quantity of dynamite and the depth of hole for explosion, should be determined with examination. Only this way, the high quality original seismic data can be gotten. 3. In seismic data processing, the edition of invalid trace and source gather, signal enhancement, velocity analysis and migration are the key steps. It has some different points with conventional processing and needs a new processing flow and methods which is suitable to the data acquired in rugged area and complicated geological environment. 4. The new common reflection area stacking method in crooked line data processing is an efficient method to improve the signal to noise ratio of seismic data The innovations of our research work are: 1. In the areas which were considered to be forbidden zone, we implement the seismic exploration in several gold deposits in China through our application. All acquire distinguished effects. This show the seismic exploration method is a new effective method in the prediction of concealed gold deposits. 2. We developed a set of seismic field work techniques and data processing which is suitable to complex environment, especially find a effective method in stacking and noise elimination in crooked line data processing. 3. In the field of seismic profile interpretation, through our research work, we are convinced of that: in different kinds of geological condition, the seismic reflection character are not same. For example the lava, the intrusion rock and sediment layers are different in the character of reflection structure and strength. So we accumulate some experience about seismic data interpretation in the area of gold deposits.

弱各向异性介质中传播的地震波及其速度重建

We begin our studies to make the best of information of seismic data and carry out the description of cracks parameters by extracting anisotropic information. The researching contents are: (1) velocity and polarization anomaly of seismic wave (qP and qSV wave) in weak anisotropic media; (2) reflection seismic synthetic record in anisotropic media; (3) multiple scattering induced by cracks; (4) anisotropic structure inversion and velocity reconstruction with VSP (Vertical Seismic Profile) data; (5) multi-parameters analysis of anisotropy in time-domain and depth-domain. Then we obtain results as follows: (1) We achieve approximate relation of qP and qSV wave's velocity and polarization property in weak anisotropic media. At the same time, we calculate anisotropic velocity factors and polarization anomaly of several typical sedimentary rocks. The results show there are different anisotropic velocity factors and polarization anomaly in different rocks. It is one of the primary theoretical foundation which is expected to identify lithology; (2) We calculate reflection seismic synthetic record with theoretical model; (3) We simulate scattering induced by cracks with Boundary Element Method. Numerical studies show that in the presence of cracks; spatial and scale-length distributions are important and cannot be ignored in modeling cracked solids; (4) From traveltimes information of VSP data, we study the velocity parameter inversion of seismic wave under isotropic and anisotropic models, and its result indicate that the inversion imaging under anisotropic model will not destroy the original features of isotropic model, but it will bring on some bigger error if we adopt the method of isotropic model for anisotropic model data. Further more, basing on the study we develop the CDP mapping technology of reflecting structure under isotropic and anisotropic models, and we process real data as a trial of the methods; (5) We study the problem of initial model reconstruction of anisotropic parameters structure represented by Anderson parameter in depth domain for surface data.