京西北地区地震重定位及构造特征

采用双差定位法对京西北地区（39.5°—41.5° N,113°—117° E）2013年1月1日至2017年12月31日6 223次有效地震进行精确定位,得到该区震源分布的精细图像和震源深度剖面图。结果显示,重新定位后地震的水平分布更集中,沿断裂带分布特征更加明显,震中在断裂带呈更明显的条带状、簇状分布,地震与线状的深浅断裂构造的关系密切;大部分地震发生在中上地壳,震源分布为典型震源密集区的空间形态,呈纵深约15 km、直径20—40 km的近圆形“厚饼状”。     

湛江观海长廊红树林土壤-植物体系重金属富集与迁移规律

选取湛江市霞山区观海长廊红树林湿地为研究区域,运用电感耦合等离子体质谱仪(ICP-MS)测定红树林表层土壤及红树植物根、枝、叶中重金属(铜Cu、锌Zn、铅Pb、镉Cd、铬Cr、镍Ni、砷As)的质量分数;运用Hakanson潜在生态风险指数评估红树林土壤的重金属污染风险水平,结合相关性分析和聚类分析探讨重金属的影响因素...     

黄河口潮滩盐沼沉积强度对碱蓬残体分解及氮动态的影响

2008年4月至2009年11月,基于野外原位分解实验,模拟研究了黄河口潮滩盐沼沉积强度对中潮滩碱蓬(Suaeda salsa)和低潮滩碱蓬残体分解及氮动态的可能影响。沿水盐梯度,设中潮滩和低潮滩2个分解小区,每个分解小区分别设无沉积(0 mm/a)、当前沉积增加(100 mm/a)和未来沉积增加(200 mm/a)3种固定沉积处理。结果表明,沉积强度对中潮滩和低潮滩碱蓬残体的分解具有一定影响,强沉积下残体的失重率和分解速率一般较高。当前或未来沉积增强后,二者残体的分解速率分别将增加138.10%~235.56%和8.89%~10.20%,95%分解时间分别将减少58.01%~70.24%和7.94%~9.13%。未来沉积增加处理下,中潮滩碱蓬残体的氮含量最大,其次为当前沉积增加处理下的氮含量,无沉积处理下的氮含量最小,3种处理下的氮含量无显著差异(p0.5);低潮滩碱蓬残体在未来和当前沉积增加处理下的氮含量相当,无沉积处理下的氮含量最小,3种处理下的氮含量无显著差异(p0.5)。当前或未来沉积增强后,中潮滩碱蓬残体在分解阶段将大多表现为氮累积特征,而低潮滩碱蓬残体将一直表现为较强氮释放特征,C/N对二者残体分解过程中氮养分的调控作用更为重要。研究发现,当不同沉积强度下潮滩环境养分状况不发生较大变化时,中潮滩和低潮滩碱蓬残体的相对分解速率可能取决于其基质质量;当养分状况发生较大改变时,其相对分解速率可能取决于分解环境的养分供给状况。     

2018年4月桂西南一次冰雹天气过程诊断分析

利用常规气象观测资料和NCEP(1°×1°)再分析资料对2018年4月14日下午—15日凌晨左右发生在桂西南的一次强对流天气过程进行分析,结果表明:此次强对流天气过程具有持续时间长、影响范围广、小时雨强较大、前期以降雹为主、后期以短历时强降水为主的特点;近地层锋面和辐合线是此次强对流天气发生的重要触发机制;200 hPa高空辐散流场有利于底层辐合上升运动的加强,可以弥补500 hPa弱槽槽前动力抬升机制的不足;对流层中层具有干冷空气的侵入是预报强对流天气的关键因子,而地面强对流天气容易发生在干空气侵入700 hPa层之后数小时内;强对流天气容易发生在θse大值区或者舌区;对流层正涡度从中层下传到底层对于预报强对流天气的出现具有一定的指示意义;雷达产品分析表明回波具有明显的悬垂回波、弱回波区、辐合区、中气旋、三体散射长钉和旁瓣回波特征。     

Energy dissipation through wind-generated breaking waves

Wave breaking is an important process that controls turbulence properties and fluxes of heat and mass in the upper oceanic layer.A model is described for energy dissipation per unit area at the ocean surface attributed to wind-generated breaking waves,in terms of ratio of energy dissipation to energy input,windgenerated wave spectrum,and wave growth rate.Also advanced is a vertical distribution model of turbulent kinetic energy,based on an exponential distribution method.The result shows that energy dissipation rate depends heavily on wind speed and sea state.Our results agree well with predictions of previous works.     

三维地籍产权体的定义与表达

传统意义上的地籍是以宗地作为基本单元进行权属登记和管理,以地表权利为核心的二维地籍。而三维地籍同样需要一种类似于二维宗地的基本单元来登记和管理三维空间中的权属状况,这种三维基本单元被称为产权体。本文以土地和房产等权利实体为基础,以权利空间为参考,研究三维空间中土地和房产的划分方式,分析这两种基本单元的存在形式、划分方式和空间形态,概括出它们的本质特征。以这些本质特征为基础,给出产权体定义和表达方式,并验证了所定义产权体的正确性和有效性。     

1736-2010年华南前汛期始日变化

根据清代华南雨雪分寸记载的内容、特点,参照华南地区前汛期降水特征,提出了利用雨雪分寸记载重建华南前汛期开始时间的方法,重建了1736-1911 年福州与广州前汛期开始日期变化序列;并利用福州与广州（分别始于1953 和1952 年）逐日降水观测记录辨识了器测时期两地前汛期的逐年开始时间;据此分析了过去300 年华南前汛期开始日期的年-年代际变化特征。结果表明：1736-2010 年间,福州、广州两地前汛期开始时间平均为5 月第1 候;但存在显著的年际和年代际波动,其中重建时段（1736-1911 年）的主周期为2~3 年、准10 年和准40年,器测时段的主周期为2~3 年、准10 年和准22 年。在年际尺度,重建时段福州和广州前汛期开始时间最早的年份均为4 月第4 候,最晚的年份则分别为5 月第6 候和6 月第1 候;而器测时段两地前汛期开始时间的最早年、最晚年均为4 月第4 候和6 月第1 候。在年代际尺度,重建时段福州和广州相邻年代最大变幅分别为2.2 候和1.6 候;器测时段福州和广州相邻年代最大变幅则分别为2.5 候和2.4 候。     

印尼贯穿流源区马鲁古海与哈马黑拉海水团来源的季节和年际变化

So far, large uncertainties of the Indonesian throughflow(ITF) reside in the eastern Indonesian seas, such as the Maluku Sea and the Halmahera Sea. In this study, the water sources of the Maluku Sea and the Halmahera Sea are diagnosed at seasonal and interannual timescales and at different vertical layers, using the state-of-the-art simulations of the Ocean General Circulation Model(OGCM) for Earth Simulator(OFES). Asian monsoon leaves clear seasonal footprints on the eastern Indonesian seas. Consequently, the subsurface waters(around 24.5σ_θ and at ～150 m) in both the Maluku Sea and the Halmahera Sea stem from the South Pacific(SP) during winter monsoon, but during summer monsoon the Maluku Sea is from the North Pacific(NP), and the Halmahera Sea is a mixture of waters originating from the NP and the SP. The monsoon impact decreases with depth, so that in the Maluku Sea, the intermediate water(around 26.8σ_θ and at ～480 m) is always from the northern Banda Sea and the Halmahera Sea water is mainly from the SP in winter and the Banda Sea in summer. The deep waters(around27.2σ_θ and at ～1 040 m) in both seas are from the SP, with weak seasonal variability. At the interannual timescale,the subsurface water in the Maluku Sea originates from the NP/SP during El Ni?o/La Ni?a, while the subsurface water in the Halmahera Sea always originates from the SP. Similar to the seasonal variability, the intermediate water in Maluku Sea mainly comes from the Banda Sea and the Halmahera Sea always originates from the SP. The deep waters in both seas are from the SP. Our findings are helpful for drawing a comprehensive picture of the water properties in the Indonesian seas and will contribute to a better understanding of the ocean-atmosphere interaction over the maritime continent.     

印度尼西亚海及周边海域层结的时空变化特征分析

本文利用World Ocean Atlas 2013 (WOA13)和Simple Ocean Data Assimilation version 3.1.1 (SODA v3.3.1)温盐资料,分析印尼贯穿流(ITF)路径及所经印度尼西亚海及周边西太平洋、南海和东印度洋海域的层结强度(N²)和跃层特征的三维时空变化特征。结果表明,气候态下ITF 3条路径上跃层平均N²差异较小,其中中部路径平均值最大,为10^−3.68 s⁻²,东部路径平均值最小,为10^−3.71 s⁻²;各路径跃层深度和厚度存在明显差异,东部路径跃层深度和厚度最大,分别为124 m和192 m,中部次之,西部最小为99 m和143 m,并且印尼海的跃层深度和厚度平均值均小于其他海域。印尼海N²存在显著的季节变化和4～7 a的多年周期变化,其中年际变化可能主要受厄尔尼诺−南方涛动事件影响。季节上,在印尼海域内,ITF 3条路径夏季层结强度均小于冬季(北半球夏冬季),夏、冬两季N²差值最大可达到两个量级。1993−2015年的长期变化趋势显示,印尼海及周边大部分海域的层结强度呈现增强趋势,其中印度洋中部和哈马黑拉海23 a内最大层结增强近0.1个量级。     

Chemical weathering in the Upper Huang He (Yellow River) draining the eastern Qinghai-Tibet Plateau

We examined the fluvial geochemistry of the Huang He (Yellow River) in its headwaters to determine natural chemical weathering rates on the northeastern Qinghai-Tibet Plateau, where anthropogenic impact is considered small. Qualitative treatment of the major element composition demonstrates the dominance of carbonate and evaporite dissolution. Most samples are supersaturated with respect to calcite, dolomite, and atmospheric CO₂ with moderate (0.710-0.715) ⁸⁷Sr/⁸⁶Sr ratios, while six out of 21 total samples have especially high concentrations of Na, Ca, Mg, Cl, and SO₄ from weathering of evaporites. We used inversion model calculations to apportion the total dissolved cations to rain-, evaporite-, carbonate-, and silicate-origin. The samples are either carbonate- or evaporite-dominated, but the relative contributions of the four sources vary widely among samples. Net CO₂ consumption rates by silicate weathering (6-120 × 10³ mol/km²/yr) are low and have a relative uncertainty of ∼40%. We extended the inversion model calculation to literature data for rivers draining orogenic zones worldwide. The Ganges-Brahmaputra draining the Himalayan front has higher CO₂ consumption rates (110-570 × 10³ mol/km²/yr) and more radiogenic ⁸⁷Sr/⁸⁶Sr (0.715-1.24) than the Upper Huang He, but the rivers at higher latitudes are similar to or lower than the Upper Huang He in CO₂ uptake by silicate weathering. In these orogenic zones, silicate weathering rates are only weakly coupled with temperature and become independent of runoff above ∼800 mm/yr.