古气候变化与地下热水中氢氧稳定同位的关系

关中盆地地下热水中氢氧稳定同位素的研究表明：研究区地下热水中氢氧稳定同位素组成变化与当地古气候变化具有良好的对应关系,古气候变化直接影响了地下热水接受补给时的氢氧稳定同位素组成。研究区地下热水的补给为更新世前古代大气降水。大约在8.2～10.2 kaB.P.和18.1～19.2 kaB.P.这两个时间段,可能是由于当时温度较低导致关中盆地地下热水补给偏少;关中盆地地下热水的补给过程受古气候的变化影响呈现非等速补给特征,可能存在一定的古地下水形成期。     

Strong historical earthquakes in the northwestern Issyk Kul’ basin (northern Tien Shan)

The northern Tien Shan is the northern front of the Himalayan mountain belt, which resulted from the collision between the Indian and Eurasian Plates. This region encompasses the most active seismic zones of the orogen, which generated the strongest (M > 8) earthquakes. Since there are scarcely any written accounts, the only way to trace back strong earthquakes is the paleoseismologic method. Since 1984 we have been studying the northwestern Issyk Kul’ basin, where there are differently directed anticlines, which constitute the Kungei meganticline. Here, several active tectonic structures (faults, folds) are located, whose development was accompanied by strong earthquakes. Our field studies of 2008 in the Iiri-Taldybulak Valley, along the adyrs (foothills) of the Kungei-Ala-Too Range, revealed two unknown historical earthquakes. The first one, which occurred along the southern rupture in the late 7th century A.D., gave rise to a seismic scarp; the latter broke through the river floodplain and a tash-koro (ancient settlement). The second one, which occurred along the northern rupture in the late 9th century A.D., increased the height of the seismic scarp, existing on the Early Holocene and older terraces. Note that this region already records a strong seismic event around 500 A.D. Archeologic data have revealed one more strong earthquake, which took place in the 14th century A.D. Note that the above-mentioned strong seismic events are coeval with the decline of the nomadic cultures (Wusun, Turkic, Mogul) in the northern Tien Shan and Zhetysu (Semirech’e).     

钱塘江古海塘塘基防渗加固现场试验研究

目前仍然坚守在防洪御潮第一线的钱塘江明清古海塘,由于年代久远,部分塘段的塘趾部位存在流土现象,因此,选用合理且不破坏古海塘风貌的塘基防渗加固方案来保护古海塘十分必要。以浙江海宁某明清古海塘试验段为依托,通过现场试验,对比研究了4种塘基防渗加固保护方案,通过有限元分析、现场渗透试验、加固后开挖检验、施工期对古海塘的影响监测等手段,分析总结了各加固方案的优缺点,得到了机械适当改制后的“塘趾旋喷注浆”方案为优选方案的结论,研究成果对下一步钱塘江临江古海塘保护工程的塘基防渗加固方案选取具有重要参考价值。     

Archaeoseismic evidence for a Late Roman earthquake in the Crotone area (Ionian Calabria, Southern Italy): Seismotectonic implications

The earthquakes of Calabria are among the strongest in the whole Mediterranean, and they all occurred between the disruptive sequences of 1638 and 1908 (6.7 ≤ M ≤ 7.2). Recent paleoseismological studies show that the return time of these events on their causative fault are larger than 1 ky, thus making ancient earthquakes not recognizable through ‘conventional’ historical research. On the other hand, in those areas characterized by highly erodible deposits, the identification and paleoseismic trenching of active seismogenetic faults has remained a challenge. In order to overcome these issues, we took an archaeoseismological approach for casting light on earthquake occurrence in one of these regions, i.e., the SE area of central Ionian Calabria (Marchesato region). The extensive traces of simultaneous and abrupt collapses in the Roman settlement of Capo Colonna (in the area of the sixth and fifth b.c. sanctuary of Hera Lacinia, near the town of Crotone) are evidence of a disruptive earthquake, which occurred possibly in the third century a.d. To the same event we ascribe the definitive collapse of the Hera Lacinia temple. Considering the seismotectonic framework of the region, this event could be tentatively associated with the active fault system which cuts from NW to SE the whole Sila massif and its Ionian slope, and which should be responsible for all the others known M > 6 earthquakes in the area.     

遥感考古在安徽的实践

为了查清寿春古城以及皖南土墩墓和台形遗址的范围和分布规律，1987年和1996年分另4对这两个地区进行了遥感考古，不仅达到了预期目的并发现了皖南西周时期古城址，获得多项重要成果，展示出遥感考古优势和良好的发展前景。通过实践，无论是对局部小区域还是对大范围的遥感考古，都取得一定经验。在此基础上，逐渐探索出一套适合安徽特点的遥感考古工作方法，为在安徽考古和文物保护工作中系统地开展遥感考古创造了条件。     

Volcanology,history and myths of the Lake Albano maar (Colli Albani volcano,Italy)

The polygenetic Albano maar is the most recent centre of the Colli Albani volcano, located just few kilometres to the south-east of Roma. Presently the maar hosts a 167.5 m deep crater lake, the deepest in Europe. The maar is to be considered quiescent, as phreatic activity is documented throughout the Holocene. This paper illustrates the close relationships between the activity of the maar and the history of settlement in the Roman region as recorded in the geology, archaeology, history and legends of the area. Severe fluctuations of the groundwater table and catastrophic overflows of the Lake Albano from the maar rim had occurred prior to and after the early prehistoric settlements dated in the maar area at the Eneolithic times (ca. III millennium B.C.). Repeated lahars occurred along the northwestern slope of the maar filling in the paleodrainage network and forming a vast plain. Paleohydraulic analyses on fluvial and lahar deposits originated from the Holocene phreatic activity of the Albano maar indicate sediment–water flows in excess of hundreds of cubic metres per second. Absolute age determinations of the paleosoil underlying one of the most recent deposits of the lahar succession at 5800 ± 100 yr B.P. (¹⁴C CAL) are in perfect agreement with the age of the overlying Eneolithic age settlements. The last catastrophic overflow is described in the Roman literature as a consequence of the anger of Poseidon against the Romans in 398 B.C. for their war against the Etruscans. In 394 B.C. the Romans decided to prevent the repetition of such events by the excavation through the maar crater wall of a 1.5 km long drain tunnel, which is still operational, keeping the lake 70 m below the lowest point of the maar rim. This tunnel drain may be regarded as the first prevention device for volcanic hazard in history and shows an unprecedented development of the engineering technology under the pressure of hazard perception. The surprising and still largely unknown results of this study are very important to redefine the hazard of the Roman region.     

Episodic fluid movements in superimposed basin:Combined evidence from outcrop and fluid inclusions of the Majiang ancient oil reservoir,Guizhou Province

Combined evidence from the outcrop and the fluid inclusion assemblage (FIA) analysis indicates that there exist two episodes of fluid flow controlled by the tectonic activity. The first episode was recorded mainly in the reservoir rock of the Honghuayuan Formation,representing the fluid flow of hydrocarbon charging. The second episode occurred mainly along the fault systems,representing the fluid move-ment when the ancient oil reservoir was destroyed. The host mineral morphology,homogeneous tem-perature,and salinity of the FIAs record an episodic fluid movement. Characters of high homogenous temperature,low salinity and a quick temperature variation of the first episode fluid flow may indicate an early-stage fluid eruption,and correspondingly,fine-grained calcite was formed. Temperature of the erupted fluid tended to decrease during its mixing with the upper formation fluid and finally had the same temperature as the upper formation. From then on,the temperature was rather steady and fa-vored the growth of the coarse calcite. Due to this character of the temperature variation of the episodic fluid flow,we can use the homogenous temperature of the FIA of the coarse calcite to date the forma-tion and the destruction time of the Majiang ancient oil reservoir. Episodic fluid flow was known for its inhomogeneous trapping,which resulted in the failure of dating according to the burial history. But taking a close look at its temperature variation,we think that the latest stage of fluid flow,characterized by steady state temperature and grow of the coarser crystals,can be used for dating. It will be of great value if this method is proved to be effective. The formation and the destruction time of the Majiang ancient oil reservoir were dated to be in the Indosinian Period and the late Yanshan-early Hymalayan Period respectively. This conclusion is in great discrepancy with the common accepted idea that the Majiang ancient oil reservoir was formed and destroyed during the Caledonian tectonic movement. Even so,this paper further discussed its reliability from the view of the source rock evolution and also the local tectonic evolution.     

PS材料加固土遗址风蚀试验研究

风蚀是西北干旱地区土遗址破坏的主要动力机制和成因,强烈的风蚀作用致使许多土遗址坍塌殆尽,导致这一不可再生资源的破坏。通过对土遗址的室内和现场风蚀模拟试验研究发现,经PS（高模数硅酸钾）材料加固后土遗址的抗风蚀能力明显增强。室内试验发现,风蚀量随风速的增长而增加、随风蚀时间延长近线性增长,PS材料浓度大于5 %的加固试样,即使风速达20 m/ s时,风蚀量均小20 (kg/ m2)•h,抗风蚀强度提高 6～10 倍。现场模拟试验结果表明,加固材料的入渗深度和用量直接影响加固效果,中浓度PS材料加固的墙面抗风蚀能力最强。因此,选择适当的PS材料浓度、提高加固材料的渗透力是土遗址保护加固的关键,将对西北地区土遗址科学保护的全面开展起到重要的指导作用。     

长江三峡地区全新世环境演变及其古文化响应

依据长江三峡地区大九湖和玉溪剖面AMS14C测年数据(校正为日历年)建立了约9.3～2ka BP高分辨率多环境代用指标(δ13C、K、腐殖化度、抱粉总浓度、Rb、Sr及Rb/Sr)的变化曲线,并在此基础上与研究区周边反映全新世气候环境变化的不同沉积记录进行综合对比分析.与此同时,本文还通过对研究区古遗址和古洪水层的统计分析,获取了本区新石器以来古文化兴衰变迁和古洪水发生的完整信息.研究结果表明:(1)本区全新世大暖期约出现在7.6～4 ka BP.9.3～7.6 ka BP,本区气候极不稳定,波动幅度大,总体上冷湿,多次出现显著的降温或干旱事件(9.1、8.2和7.7 ka BP前后);4～2 ka BP,本区气候较此前偏干凉,且波动频繁.(2)7.6～ka BP的大暖期分为三个演变阶段:即6～5 ka BP为大暖期的鼎盛期,气候稳定,温暖湿润,植被及生态条件优越,洪水发生频率低;7.6～6 ka BP和5～4 ka BP为大暖期中具有不稳定特征的过渡期,其中5～4 ka BP及4 ka BP前后的降温事件仍较显著,且多发洪水.(3)本区史前古文化的主要形成发展期与大暖期持续阶段相对应,其中耕作业相对发达的大溪文化繁荣期出现在大暖期中的鼎盛阶段(约6～5 ka BP),大溪文化前后处于低潮及表现为衰退现象的古文化则对应气候环境的不稳定期,总体上,研究区古文化响应气候环境变化的主要方式是通过改变其生业结构的途径来实现的.     

乡村景观遗产地保护性旅游开发模式研究——以浙江龙门古镇为例

近年来,伴随旅游市场生态、文化诉求的日益增强,世界范围内乡村景观遗产旅游备受青睐。中国广袤的地理环境空间中拥有丰富多彩的乡村景观遗产资源,正在成为推动现阶段特色化乡村旅游业发展的重要力量。然而,快速发展的旅游产业也引发了遗产地过度商业化、超负荷接待等问题,威胁到遗产保护和可持续利用。以浙江龙门古镇为例,在借鉴传统开发模式相关经验的基础上,构建了一种保护性旅游开发模式,以实现保护前提下乡村景观遗产资源的合理开发和有效利用。