毛乌素沙地风况及输沙势特征

利用毛乌素沙地腹地野外实测风速风向数据,系统分析了毛乌素沙地的起沙风和输沙势的变化特征。结果表明：（1）毛乌素沙地的起沙风和输沙势主要分布在NW、NNW和N等3个方位。（2）毛乌素沙地春季（3—5月）起沙风频率和输沙势最大,分别占全年的46.23%和52.97%。（3）起沙风频率的日内变化呈单峰曲线：16：00起沙风频率最大,为22.11%。起沙风平均风速的日内变化呈双峰曲线：00：00起沙风平均风速最大,为7.84 m·s^-1;14：00起沙风平均风速为7.63 m·s^-1,是次峰值。（4）毛乌素沙地年输沙势为66.75 VU,按照Fryberger风能环境划分标准,属于低风能环境;方向变率指数RDP/DP为0.51,中比率,钝双峰风况,其中偏北峰值远大于偏南峰值。     

北极海冰密度变化分析及其对海冰厚度估算的影响

海冰密度是海冰和气候模型的重要物理变量,也是利用卫星测高数据估算海冰厚度的关键参数。目前各国北极科学考察虽开展了海冰物理观测,但对近期北极海冰密度现场观测资料的综合分析和挖掘应用不足。在此背景下,收集了近15年来北极海冰密度现场观测资料,分析北极海冰密度的变化特征;对海冰密度实测数据进行克里金插值,将插值结果输入静力平衡方程模型计算海冰厚度,探讨海冰密度对海冰厚度卫星测高反演的影响。结果表明,2000—2015年北极海冰密度变化范围为750—950 kg·m^–3,1—9月海冰密度总体上随月份变化呈减小的趋势;6—9月北极海冰密度随着纬度的增加而减少(75°N—90°N);通过对比分析表明,相较于使用海冰密度固定值参与估算海冰厚度,采用经现场观测数据空间插值后的海冰密度估算海冰厚度的结果更为准确。北极海冰密度现场观测资料的整理分析可为海冰与气候变化等进一步研究提供参考。     

加拿大海盆莫霍面分布特征及其构造意义

利用北极加拿大海盆及其周边最新的重力数据,经过水深、沉积层厚度以及平均地壳厚度的重力效应改正,收集了该地区的声呐浮标数据,数字化得到57个控制点,基于Parker方法,使用带控制点的界面反演计算了研究区的莫霍面深度。结果表明,莫霍面深度由西向东逐渐加深。边缘地与海盆西侧交界处莫霍面深度最浅,在12 km左右,说明此处可能存在补偿不足;阿拉斯加处的莫霍面深度最深,至少30 km,推测该区域受到的挤压较为强烈或者沉积物供给充足使得地壳增厚。深度值变化与其洋壳-洋陆过渡带-陆壳的地壳结构变化也相吻合,支持了逆时针旋转模式。     

国外水中兵器保障性试验条件发展现状

装备保障性试验是装备试验的重要组成部分,是实现装备综合保障目标重要而有效的决策手段。装备保障性试验条件建设是水中兵器保障性试验与评价能力提升的关键所在。通过对国外水中兵器试验场和试验系统发展现状的梳理,总结出2方面的发展特点,对我国水中兵器研发保障条件的发展有所借鉴。     

Mercury speciation,bioavailability and risk assessment on soil–rice systems from a watershed impacted by abandoned Hg mine-waste tailings

Acta Geochimica - Mercury (Hg) is a global pollutant and can be accumulated in the food chain, posing exposure risks to humans. In this study, rice plants and corresponding rhizosphere soil samples...     

Iron Isotopic Compositions of Forearc Mantle Peridotites Constrained by Ophiolites from the North Qilian Orogen,Northern Tibet

Previous studies on iron isotope compositions of subduction zone magmas have revealed significant and complex variations that have great bearings on petrogenetic processes in the mantle wedge, e.g., partial melting, fluid metasomatism and redox state. However, interpretations for the fractionations are highly debatable and lack direct constraints from mantle wedge peridotites. This study presents iron isotope compositions for whole rocks and mineral separates in fresh forearc peridotites from the Yushigou ophiolite, North Qilian orogen in northern Tibet. Major and trace element compositions of whole rock and mineral indicate that the peridotites are highly depleted forearc peridotites overprinted by melt metasomatism, in contrast to the long‐holding opinion that the peridotites are derived from mid‐oceanic ridges. The minerals fall on a line with a slope of ～1 on the plot of δ⁵⁶Fe vs. δ⁵⁶Fe, indicating isotope equilibrium between minerals. δ⁵⁶Fe fractionation between olivine and orthopyroxene is within the range of 0～0.05, while fractionation between olivine and spinel is about 0.05～0.10. The fractionation trend between olivine and spinel is opposite to previous theoretical and experimental constraints, which may be due to substantial Cr substitution into the spinel. This indicates that negative correlations between spinel Cr#, fO₂ and spinel δ⁵⁶Fe in previous studies are probably a reflection of gradual Cr enrichment in spinel during melt extraction, and spinel δ⁵⁶Fe values are not a proxy for oxygen fugacity. Whole rock δ⁵⁶Fe values are well correlated with mineral δ⁵⁶Fe values, varying from overlapping with depleted mantle to slightly lower than depleted mantle. Therefore, variations in iron isotope compositions of subduction zone magmas are probably due to combined effect of source heterogeneity and partial melting fractionation.     

郑州市河道沉积物中微塑料的污染特征

本文以郑州市主要河道沉积物为研究对象,利用密度浮选法分离提取沉积物中的微塑料,采用显微镜及傅里叶变换显微红外光谱仪(μ-FTIR)分析微塑料的丰度、组成、形状、尺寸分布特征.结果表明:郑州市7条主要河道沉积物中微塑料丰度为(以干重计):(2412±188)～(7638±1312)个·kg-1,平均丰度为(以干重计):(...     

Analysis about the influence on the thermal regime in permafrost regions with different underlying surfaces

In the last several decades, the underlying surface conditions on the Qinghai-Tibet Plateau have changed dramatically, causing permafrost degradation due to climate change and human activities. This change severely influenced the cold regions environment and engineering infrastructure built above permafrost. Permafrost is a product of the interaction between the atmosphere and the ground. The formation and change of permafrost are determined by the energy exchange between earth and atmosphere system. Fieldwork was performed in order to learn how land surface change influenced the thermal regime in permafrost regions. In this article, the field data observed in the Fenghuo Mountain regions was used to analyze the thermal conditions under different underlying surfaces on the Qinghai-Tibet Plateau. Results show that underlying surface change may alter the primary energy balance and the thermal conditions of permafrost. The thermal flux in the permafrost regions is also changed, resulting in rising upper soil temperature and thickening active layer. Vegetation could prevent solar radiation from entering the ground, cooling the ground in the warm season. Also, vegetation has heat insulation and heat preservation functions related to the ground surface and may keep the permafrost stable. Plots covered with black plastic film have higher temperatures compared with plots covered by natural vegetation. The reason is that black plastic film has a low albedo, which could increase the absorbed solar radiation, and also decrease evapotranspiration. The ＂greenhouse effect＂ of transparent plastic film might effectively reduce the emission of long-wave radiation from the surface, decreasing heat loss from the earth＇s surface, and prominently increasing ground surface temperature.     

Role of animal pole protuberance and microtubules during meiosis in sea cucumber Apostichopus japonicus oocytes

Fully grown oocytes of Apostichopus japonicus have a cytoplasmic protuberance where the oocyte attaches to the follicle. The protuberance and the oolamina located on the opposite side of the oocyte indicate the animal-vegetal axis. Two pre-meiotic centrosomes are anchored to the protuberance by microtubules between centrosomes and protuberance. After meiosis reinitiation induced by DTT solution, the germinal vesicle (GV) migrates towards the protuberance. The GV breaks down after it migrates to the oocyte membrane on the protuberance side. The protuberance then contracts back into the oocyte and the first polar body extrudes from the site of the former protuberance. The second polar body forms beneath the first. Thus the oocyte protuberance indicates the presumptive animal pole well before maturation of the oocyte.     

近400年澜沧江源区年平均流量周期特征及其对厄尔尼诺的响应

本文基于重建的1595~2006年澜沧江源区年平均流量(澜沧江流量)和NOAA古气候资料,应用MTM-SVD方法对澜沧江流量周期变化规律及其对厄尔尼诺的响应进行了分析。结果表明,近400年澜沧江流量与厄尔尼诺有显著负相关,在年代际的13.5年和年际的5年周期上存在显著协同变化,并且分别对当年春末和上年秋初的大气环流有很好的响应。在13.5年和5年典型循环过程中,二者都表现出反位相的对应关系,当厄尔尼诺指数偏低(高)时,澜沧江流量偏多(少)。但是进一步分析海温异常空间分布,发现在13.5年周期中,澜沧江流量主要受中部型厄尔尼诺事件影响,而在5年周期循环中,澜沧江流量则主要受东部型厄尔尼诺事件调控。在13.5年典型周期循环中,中部型厄尔尼诺会引起双圈沃克环流异常,同时激发PJ(太平洋-日本涛动)遥相关波列,并影响澜沧江源区气温和降水,从而导致澜沧江流量异常;在5年周期循环中,东部型厄尔尼诺会引起单圈沃克环流异常,同时激发EU(欧亚)遥相关波列,进而影响澜沧江流量变化。