中国北方风成堆积的风化作用与环境变迁—U-Th���~(10)Be及元素地球化学的研究

The surface of the Earth is continuously undergoing changes as a result of weathering-erosion, plate tectonics and volcanic processes. Continental weathering-erosion with its complex rock-water interactions is the central process of global biochemical cycling of elements, and affects the long-term ocean atmosphere budget of carbon dioxide both through the consumption of carbonic acid during silicate weathering and through changes in the weathering and burial rates of organic carbon. Rates of the weathering-erosion depend on a variety of factors, in particular rock properties and chemical composition, climate (especially rainfall), structure, and elevation. They are quite variable on a regional scale. Thus, environmental changes in a region could be indicated by the history of weathering-erosion in the region. Recent attention has focused on increased silicate weathering of tectonically uplifted areas in the India-Asia collision zone as a possible cause for falling atmospheric CO_2 levels in the Cenozoic era. The wind blown dust deposits in the Loess Plateau is derived from the arid and semiarid regions in northwestern China, in turn, where the deposits have been derived from the Qinghai-Xizang Plateau and the high mountains around. Therefore, geochemistry of the wind blown loess-paleosol and red clay sequences may provide insight both to paleoenvironmental changes on the Loess Plateau, and to the uplift and weathering-erosion histories of the Qinghai-Xizang Plateau. In this paper, uranium-thorium series nuclides and cosmogenic ~(10)Be have been employed as tracers of weathering intensities and histories of the dust sediments in the Loess Plateau. Major elements, such as Na, Al, Fe etc., are also used to estimate degree of chemical alteration of the dust sediments and to rebuild the history of weathering on the Loess Plateau. First of all, using a low-level HPGe γ-ray detector, we measured U and Th series nuclides in 170 loess and paleosol samples from five sites in the Loess Plateau, going back 2.6 Ma. The results show that ~(238)U activities are disequilibrium with its daughter nuclide ~(230)Th in young loess-paleosol sequence, indicating that weathering was happened both in dust deposition site and in dust source regions. Using concentrations of ~(238)U and ~(232)Th in the samples, we estimated the amounts of ~(238)U leached out of from paleosols due to weathering. Further, based on analyses of ~(230)Th in paleosols deposited in the past ca. 140 ka, we determined when the paleosols weathered in the source regions. We conclude that most of the weathering in the dust-source regions may have occurred during the interglacials before dust deposition.

碳酸盐岩风化过程中的U－Th���平衡研究－以黔中、黔北为例

为了进一步获得贵州碳酸盐岩风化成土过程的信息，为测定风化成土速率的研究工作奠定基础，本次研究工作通过U－Th���地球化学特征与主量元素、微量元素、稀土元素的地球化学特征的对比研究以及U－Th���平衡来研究贵州两个碳酸盐岩风化剖面的风化成土过程，并得出以下总体认识： 贵州碳酸盐岩风化剖面中的238U－234U－230Th���平衡说明风化剖面中的U－Th���平衡与风化过程密切相关，与风化壳中矿物和铁壳的演化特征密切相关。风化剖面不仅被简单的持续积累或者滤失过程所控制，而且被每一个土层中的复杂的重组过程所影响。U－Th���平衡也说明风化系统的扰动可能与中更新世晚期的气候变化有关。风化剖面中的U－Th���平衡是由母岩碳酸盐岩的风化、风化流体的溶解作用、表土层中的有机质、铁质结核带中的氧化铁矿物以及伊利石、高岭石等粘土矿物对U、Th���吸附作用、α反冲作用以及微生物的还原作用等共同作用的结果。 具体结论如下： （1）两个风化剖面中的U、Th���在半风化层中相对基岩强烈富集，安顺白云岩风化剖面中U、Th���全风化层中下部富集；而遵义石灰岩风化剖面中的U在全风化层中部富集，Th���全风化层上部富集，然后向表土层逐渐减少。 （2）U、Th���半风化层中相对基岩强烈富集，是因为在半风化层中，基岩中的原生矿物发生溶解、蚀变，生成新的次生粘土矿物伊利石，而伊利石对U、Th���有强烈的吸附能力。风化剖面中U、Th���富集主要与地表水的淋滤作用以及铁壳在进一步的风化过程中溶解释放出其中所富集的U、Th���而U、Th���下重新迁移的过程有关。 （3）风化剖面中U、Th���分布特征说明U、Th���含量与风化过程密切相关，与风化壳中的矿物和铁壳的演化特征密切相关。遵义石灰岩风化剖面中U、Th���淋失程度比安顺白云岩风化剖面中U、Th���淋失程度弱也说明了遵义石灰岩风化剖面的风化程度要低于安顺白云岩风化剖面的风化程度。 （4）安顺白云岩风化剖面中，234U/238U在<1和＞1之间交替变化。除在剖面中部，230Th/238U≈1外，230Th/238U基本上都＞1。 （5）安顺白云岩风化剖面中的238U －234U－230Th���平衡表明：安顺白云岩风化剖面中的U－Th���平衡是母岩碳酸盐岩的风化、风化流体的溶解作用、表土层中的有机质、铁质结核带中的氧化铁矿物以及伊利石、高岭石等粘土矿物对234U、230Th���吸附作用、α反冲作用以及微生物的还原作用等共同作用的结果。 （6）遵义石灰岩风化剖面中234U/238U除少数几个点外，大多数采样点的234U/238U都＜1。除了少数几个点外，大部分230Th/238U＞1。 （7）遵义石灰岩风化剖面中的238U －234U－230Th���平衡表明：234U－238U不平衡主要是由地表水和入渗水的溶解作用以及α反冲作用为主要的控制机制。而风化剖面中230Th���238U不平衡主要是由表土层中的有机质、高岭石、氧化铁矿物以及伊利石对230Th���附作用和α反冲作用共同作用的结果。 （8）将U的迁移模型应用于本研究中的两个碳酸盐岩风化剖面，说明这两个风化剖面都被U的近期积累或者滤失过程所影响，风化系统处于过渡的不稳定状态，并通过U在风化剖面中的重新迁移将系统带回稳定状态。 （9）由等时线定年法计算出的安顺白云岩风化剖面的年龄范围为：87.0±7.8－479.2±47.9ka；遵义石灰岩风化剖面的年龄范围为：62.3±8.7－353.3±31.8ka。 （10）由等时线定年法可知：两个风化系统将在～1.1Ma达到稳定状态。 （11）碳酸盐岩风化剖面应用U的迁移模型得出的U的迁移过程与风化剖面中主量元素和微量元素的迁移特征相吻合，说明模型的选择是正确的。 （12）整个风化剖面的238U－234U－230Th���平衡说明风化剖面中的U－Th���平衡与风化过程密切相关，与风化壳中矿物和铁壳的演化特征密切相关。风化系统的扰动可能与中更新世晚期的气候变化有关。碳酸盐岩风化剖面被U的近期迁移过程所影响，风化剖面中的每一个单元甚至每一个土样都具有复杂的历史。这些单元或者土样是古老的风化历史和近期的重新迁移过程的叠加。

Les Tritons de Th?ophile

Sibona, Bruno, 'Les Tritons de Th?ophile', L'Esprit cr?ateur - Literature and Ecology (2006) 46(2) pp.17-32

Development of a new blood test based on the helper lymphocytes Th-17 response for the diagnosis of allergies to dental metals: Preliminary results

info:eu-repo/semantics/nonPublished

Changing Paradigms in Space Theories:Recapturing 20th</sup> Century Architectural History

The concept of space entered architectural history as late as 1893. Studies in art opened up the discussion, and it has been studied in various ways in architecture ever since. This article aims to instigate an additional reading to architectural history, one that is not supported by "isms" but based on space theories in the 20th century. Objectives of the article are to bring the concept of space and its changing paradigms to the attention of architectural researchers, to introduce a conceptual framework to classify and clarify theories of space, and to enrich the discussions on the 20th century architecture through theories that are beyond styles. The introduction of space in architecture will revolve around subject-object relationships, three-dimensionality and senses. Modern space will be discussed through concepts such as empathy, perception, abstraction, and geometry. A scientific approach will follow to study the concept of place through environment, event, behavior, and design methods. Finally, the research will look at contemporary approaches related to digitally supported space via concepts like reality-virtuality, mediated experience, and relationship with machines.

On the Source and Rewriting of 1 Corinthians 2.9 in Christian, Jewish and Islamic Traditions (1 Clem 34.8; GosJud 47.10-13; a ḥadīth qudsī)

The article reopens the file of sources, parallels and rewritings of 1 Cor 2.9, a saying that Paul attributes to some written source, when others sources put it into Jesus' mouth (e.g. GosThom 17). A state of research highlights that the hypothesis of an oral source is generally preferred but an accurate study of 1 Clem 34.8, a parallel too often neglected, supports the presence of a written source that existed before 1 Cor 2.9. GosJud 47.10-13 will help to understand the attribution of the saying to Jesus. The last important part of this article studies its parallel in Islamic traditions, a ḥadīth qudsī.