新乡市汉墓鼢鼠动物遗骸研究

河南省新乡市汉代空心砖墓考古中,发现有中华鼢鼠（Myospalax fontanieri）、东北鼢鼠（Myospalax psilurus）这2种小哺乳动物标本。可鉴定标本数（NISP）总计40件,中华鼢鼠、东北鼢鼠最小个体数（MNI）均为3。中华鼢鼠下臼齿嚼面视齿脊排列呈斜"ω"形,m1舌侧3个凹角（凹沟）,唇侧2个凹角;m3、m3舌侧和唇侧均有2个凹角。中华鼢鼠上门齿宽3.00~3.10 mm。上第3臼齿长2.74~3.20 mm,宽1.86~2.08 mm。下齿缺长6.50 mm,m1~m3总长11.30 mm。下门齿宽2.76~3.00 mm。m1长4.40~4.64 mm,宽2.76~3.00 mm。m2长3.80~3.84 mm,宽2.36~2.80 mm。m3长2.50~2.76 mm,宽1.80 mm。东北鼢鼠下门齿釉质颜色比中华鼢鼠略浅。下门齿小于中华鼢鼠,m3后端退化状态也比中华鼢鼠明显。东北鼢鼠下齿缺长6.16 mm,m1~m3总长12.58 mm。上门齿宽2.36~2.60 mm。下门齿宽2.26~2.40 mm。m1长4.52 mm、宽2.40 mm,m2长3.80 mm、宽2.20 mm,m3长2.90 mm、宽1.90 mm。我国历史时期田野考古中,小哺乳动物标本采集及研究工作很少。新乡地区现今仍生活有中华鼢鼠、东北鼢鼠,但其在历史时期生存情况未有过考古研究。该次在新乡汉墓中发现中华鼢鼠、东北鼢鼠,是新乡地区考古中首次发现鼢鼠遗骸,同时也是我国新石器时代及其以后历史时期考古中发现鼢鼠属材料最多的地点。本研究工作反映,小哺乳动物考古应在我国考古发掘中受到更多重视。新乡汉墓中华鼢鼠、东北鼢鼠遗存的发现,指示该地区现今肥沃的砂质耕地和林灌植被等在汉代时已经是人们稳定的生态背景和自然环境。中华鼢鼠、东北鼢鼠均是习于独栖的穴居动物,这些动物个体集中出现在汉墓中,应是当时古居民捕食及随葬文化造成的结果。这是我国新石器时代及其以后历史时期考古中首次确定古代居民对中华鼢鼠、东北鼢鼠进行捕食现象,以及利用中华鼢鼠、东北鼢鼠进行随葬的考古学文化现象。

     

南大洋氟的生物地球化学研究——Ⅰ.南极磷虾富氟异常的研究

本文通过对南极磷虾不同部位中氟含量的测定,结合氟在测区环境中的分布特征及南极磷虾体中其它元素的分析资料,讨论了氟在磷虾体内的分布和赋存形式,并对其可能的富集机理及与环境的关系作了初步的探讨。     

北京市郊区传统村落价值评价及可持续利用模式探讨——以北京市门头沟区传统村落的调查研究为例

北京市西部门头沟区保留有许多传统村落,这些传统村落经过历史的积淀而具有典型的地域特征和深厚的文化底蕴,成为京西独特的景观旅游资源。在深入系统调查的基础上,结合悠久性、完整性、乡土性、协调性、典型性对传统村落的价值特征进行了综合评价,将传统村落划分为遗产性村落、特色性村落和保护性村落三种类型。在探讨传统村落可持续利用机制的基础上总结了传统村落可持续利用的6种模式。     

绿洲-荒漠生态脆弱带的研究

在分析了绿洲－荒漠生态脆弱带的性质、特点等以后，按照其毗邻绿洲的不同，探讨性地将它分为三类：（1）河岸林绿洲－荒漠脆弱带；（2）冲洪积扇绿洲－荒漠脆弱带；（3）湖沼和湖滨三角洲绿洲－荒漠脆弱带。由于其本身所具有的脆弱性，加上人类活动的强烈干扰，该区出现了以土地荒漠化为主的多种生态环境问题。针对这些问题，作者提出了若干治理建议。     

岩溶区地表水体惰性有机碳研究

岩溶作用所产生的岩溶碳汇对全球碳循环有着重要的影响。岩溶水生生物通过CO₂富集机制（CCM）固定岩溶水中的HCO₃^-,将其转化为有机碳。惰性有机碳（RDOC）为水生生物和微生物不能利用和降解的溶解性有机碳。RDOC长时间滞留水体,形成稳定碳汇。多次培养实验发现可以用原位微生物法对岩溶区地表水中的RDOC进行检测。以桂林漓江为对象,研究由外源水补给并流经岩溶峰林平原区的岩溶地表水中的RDOC及其相关因子,结果显示：1）漓江水中Ca²⁺,HCO₃^-浓度从上游到下游逐渐升高,表明外源水进入岩溶区,发生了岩溶作用。漓江水的C/N为6.29~10.50,表明水中有机碳的来源为外源水和水生生物作用。受岩溶作用和水生生物光合作用双重影响,δ¹³C-DIC值从上游到下游逐渐偏正,水生生物优先利用无机碳中的¹²C使得δ¹³C-POC从上游到下游逐渐偏负。C/N与δ¹³C-DIC、δ¹³C-POC的变化以及相关性体现了岩溶地表水体中无机环境和有机环境相关联;2）岩溶区地表水中检测出RDOC且浓度远大于非岩溶区,RDOC浓度的时空变化与水生生物利用岩溶作用所产生的HCO₃^-有关。漓江地表水中DOC、BDOC、RDOC浓度与HCO₃^-浓度变化趋势一致,从上游到下游逐渐升高,下游L6（岩溶区）RDOC浓度为上游L1（非岩溶区）的3倍,在季节上表现出秋季>冬季>夏季>春季,RDOC的含量平均占水体中DOC含量的78%左右,体现了岩溶作用强度和水生生物活动对岩溶地表水中RDOC的影响;3）结合流量数据计算RDOC通量：桂林水文站RDOC的通量为0.75×10⁷ kg/a,阳朔水文站的RDOC通量为1.3×10⁷ kg/a,是桂林水文站断面的1.7倍。

     

非水相液体污染场地源区自然消除研究进展

污染场地的健康风险和环境地质危害备受关注, 自然衰减被公认是优选修复技术。对存在非水相液体的场地, 源区非水相液体残余导致的“拖尾和反弹”问题对污染场地自然衰减技术提出了挑战。近年来源区自然消除技术的出现丰富深化了自然衰减修复的内涵, 展现了解决“拖尾和反弹”问题的巨大潜力。本文综述了轻非水相液体(LNAPL)污染场地源区自然消除的研究历程和最新成果, 研究显示: ①2000年至今, 自然衰减修复的相关研究逐渐从地下水污染羽衰减转向包气带源区自然消除; ②包气带自然消除过程被证实是源区自然消除的关键生物过程, 占LNAPL总质量损失的90%~99%;③LNAPL挥发过程中的生物降解是源区自然消除的主要研究对象。在以上研究过程中,建立的源区自然消除研究方法：①可分为LNAPL源区-羽识别、定性判断和定量估算三个部分; ②包气带定量评估常用浓度梯度、二氧化碳通量(动态密闭室和静态捕集)和热力学梯度是量化评估的三类方法。综合已有的研究进展和难点, 可以预见, 在未来研究中, 识别源区LNAPL的成分变化、明确源区自然消除的限速因子,以及开发恰当的气体脱气和气泡逃逸观测方法,是源区自然消除修复方法应用推广需解决的关键科学问题。     

基于STIRPAT模型分析C02控制下上海城市发展模式

随着经济的快速发展,中国CO2排放量不断增加,研究中国各大城市采取何种发展模式.减缓CO2的排放量,成为当前研究热点.利用STIRPAT模型,定量分析了CO2排放量与人口、富裕度、城市化水平和技术进步之间的关系,并经岭回归拟合发现人口数量、人均GDP、城市化水平和技术进步每发生1%的变化,将引起CO2排放总量相应发生0.618%、(0.178+0.0091nA)%、0.816%和0.264%的变化.在上述研究的基础上,以上海市为例,通过设置10种不同的发展情景,分析了在何种情景下最有利于减缓CO2的排放.结果表明,当经济、人口保持中速增长,城市化率进程放缓而节能减排技术取得较大进步时,上海市最有利于减缓CO2排放最,此时上海市2010年、2015年和2020年C02排放量分别为17053.57万t、19286.64万t和20885.69万t.     

河北平原水系密度与隐伏活动构造的关系

以1926年出版的比例尺为1：5万的顺直地形图作为基础图件，用地理信息系统技术对河北平原作水系密度计量分析，揭示隐伏在第四纪巨厚的沉积物之下活动构造的信息，研究结果证实水系线密度统计图与使用其它地球科学方法获得的成果，例如基底活动断块图，地貌类型图和第四纪厚度图都有很好的对应，特别与布格重力图对应更好，研究结果发现水系密度图与布格重力异常图在总体一致性较好的前提下，多处反向异常区均为近代强震发生的区域，提出这种地表水系密度统计研究的成果不仅可以揭示深部隐伏的活动构造，而且具有较明确的时间含义。     

Analysis of Multiple Tourist Agents’ Symbiotic Relationship on the View of Tourist Enterprises Based on a Grey Correlation Model: A Case Study of Qinghai Lake,China

Tourism symbiosis is a social phenomenon consisting of many complex factors, and the reciprocal cooperation among multiple tourist agents at tourist destinations is the crux of the sustainable development of tourism. This study is from the perspective of tourist enterprises, and introduces the Symbiosis Theory of genecology. A quantitative evaluation is used to analyze both the equilibrium state of the combined symbiotic behavior routes and the behavior patterns of tourist enterprises with local governments, community residents, tourists and tourist enterprises around Qinghai Lake. The findings reveal: (1) the symbiotic behavior routes of the multiple tourist agents “E→G-R-T-E” in the Qinghai Lake area are constituted of intense symbiotic indications, while the maximum dimensionality of symbiotic interest of “E→G-R-T-E” is still in the state of disequilibrium and dissymmetry; (2) the symbiotic model of multiple tourist agents “E→G-R-T-E” in the Qinghai Lake area is an asymmetrically positive symbiotic model. It is proposed that, by establishing symbiotic mechanisms for guidance, decisions, supervisory control and profit distribution, the participation mechanism for multiple agents “E-G-R-T” can be further standardized. Moreover, tourist enterprises should be regarded as the primary agents to optimize the symbiotic model for “E→G-R-T-E” through the reinforcement of integrative supply and the construction of integrative effect, and finally promote the integrative symbiotic model of symmetrical reciprocity of the E-R-G-T model “driven by scenic areas, responsive to community residents, affected by local governments and enjoyed by tourists.”     

Trace-element composition and zoning in clinopyroxene- and amphibole-group minerals: Implications for element partitioning and evolution of carbonatites

The present work is a first comprehensive study of the trace-element composition and zoning in clinopyroxene- and amphibole-group minerals from carbonatites, incorporating samples from 14 localities worldwide (Afrikanda, Aley, Alnö, Blue River, Eden Lake, Huayangchuan, Murun, Oka, Ozernaya Varaka, Ozernyi, Paint Lake, Pinghe, Prairie Lake, Turiy Mys). The new electron-microprobe data presented here significantly extend the known compositional range of clinopyroxenes and amphiboles from carbonatites. These data confirm that calcic and sodic clinopyroxenes from carbonatites are not separated by a compositional gap, instead forming an arcuate trend from nearly pure diopside through intermediate aegirine–augite compositions confined to a limited range of CaFeSi₂O₆ contents (15–45 mol%) to aegirine with < 25 mol% of CaMgSi₂O₆ and a negligible proportion of CaFeSi₂O₆. A large set of LA-ICPMS data shows that the clinopyroxenes of different composition are characterized by relatively low levels of Cr, Co and Ni (≤ 40 ppm) and manifold variations in the concentration of trivalent lithophile and some incompatible elements (1–150 ppm Sc, 26–6870 ppm V, 5–550 ppm Sr, 90–2360 ppm Zr, and nil to 150 ppm REE), recorded in some cases within a single crystal. The relative contribution of clinopyroxenes to the whole-rock Rb, Nb, Ta, Th and U budget is negligible. The major-element compositional range of amphiboles spans from alkali- and Al-poor members (tremolite) to Na–Al-rich Mg- or, less commonly, Fe-dominant members (magnesiohastingsite, hastingsite and pargasite), to calcic–sodic, sodic and potassic–sodic compositions intermediate between magnesio-ferrikatophorite, richterite, magnesioriebeckite, ferri-nyböite and (potassic-)magnesio-arfvedsonite. In comparison with the clinopyroxenes, the amphiboles contain similar levels of tetravalent high-field-strength elements (Ti, Zr and Hf) and compatible transition elements (Cr, Co and Ni), but are capable of incorporating much higher concentrations of Sc and incompatible elements (up to 500 ppm Sc, 43 ppm Rb, 1470 ppm Sr, 1230 ppm Ba, 80 ppm Pb, 1070 ppm REE, 140 ppm Y, and 180 ppm Nb). In some carbonatites, amphiboles contribute as much as 25% of the Zr + Hf, 15% of the Sr and 35% of the Rb + Ba whole-rock budget. Both clinopyroxenes and amphiboles may also host a significant share (~ 10%) of the bulk heavy-REE content. Our trace-element data show that the partitioning of REE between clinopyroxene (and, in some samples, amphibole) and the melt is clearly bimodal and requires a revision of the existing models assuming single-site REE partitioning. Clinopyroxenes and amphiboles from carbonatites exhibit a diversity of zoning patterns that cannot be explained exclusively on the basis of crystal chemistry and relative compatibility of different trace-element in these minerals. Paragenetic analysis indicates that in most cases, the observed zoning patterns develop in response to removal of selected trace elements by phases co-precipitating with clinopyroxene and amphibole (especially magnetite, fluorapatite, phlogopite and pyrochlore). With the exception of magnesiohastingsite–richterite sample from Afrikanda, the invariability of trace-element ratios in the majority of zoned clinopyroxene and amphibole crystals implies that fluids are not involved in the development of zoning in these minerals. The implications of the new trace-element data for mineral exploration targeting REE, Nb and other types of carbonatite-hosted rare-metal mineralization are discussed.