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71.
INTRODUCTIONInhighlyextendedregions(β>1.5-2)suchastheBasinandRangeProvinceandpasivemargins,extensionaltectonicsystemischaract... 相似文献
72.
“冰上丝绸之路”倡议为沿线国家贸易发展提供了机遇,可加速经济要素跨国流动,促进全球贸易的可持续发展。基于2019年37个“冰上丝绸之路”沿线国家贸易数据,运用复杂网络分析方法,研究37个“冰上丝绸之路”沿线国家贸易网络的拓扑结构特征、贸易社团及节点中心性的地理空间分布特征。结果表明:1)贸易网络具有良好的互通性和扩散性,且具有小世界特征和无标度性质,两极分化较为显著;2)贸易网络呈现出明显的“核心—边缘”圈层结构特征,德国、中国、美国、荷兰处于核心圈层,是贸易网络的枢纽;3)贸易网络可划分为1个北美社团、1个以东亚国家为主的社团和3个以欧洲国家为主的社团,其空间分布表现出连续性特征,各社团内部贸易联系密切,中国是所属社团的核心;4)贸易网络呈现出枢纽辐射式和全连通式共存的结构,强度中心性呈嵌入式的单元格局,接近中心性呈集中连片区块状分布特征,中介中心性的极化现象较为明显。 相似文献
73.
鄂尔多斯西南缘前陆盆地沉降和沉积过程模拟 总被引:17,自引:8,他引:17
本文将东祁东逆冲带与鄂尔多斯西南缘晚三叠世前陆盆地相结合,研究了逆冲带内部变形特征,前陆盆地中层序地层格架特征及其反映的盆缘构造性质和幕式逆作作用。 相似文献
74.
原产美国南部和墨西哥东北部的克氏原螯虾是目前全球入侵最广的小龙虾,也是对淡水生态系统最具破坏性的物种之一,其对栖息地沉水植物的现存量构成严重威胁,然而目前对克氏原螯虾摄食沉水植物的机制还知之甚少.本文选择6种沉水植物,研究克氏原螯虾对浅水湖泊常见的沉水植物穗花狐尾藻(Myriophyllum spicatum)、密刺苦草(Vallisneria denseserrulata)、轮叶黑藻(Hydrilla verticillata)、菹草(Potamogeton crispus L.)、马来眼子菜(Potamogeton malaianus)和金鱼藻(Ceratophyllum demersum)的新鲜植株和分解腐烂后的植株的摄食偏好及原因,结果表明克氏原螯虾对沉水植物新鲜植株选择逗留偏好为:最偏爱逗留在轮叶黑藻区,在穗花狐尾藻、密刺苦草和马来眼子菜3种植株区逗留频次无区别,而在金鱼藻区逗留频次显著最低,6种植物湿重减少量与逗留偏好趋势相似;相对各新鲜植株,克氏原螯虾均更喜欢逗留在分解腐烂8 d或12 d后的植物碎屑区域,相应分解腐烂8 d或12 d植物湿重降低量也显著更高.6种植物新鲜植株总酚类含量均显著高于分解腐烂后的植株,其中穗花狐尾藻新鲜和分解腐烂后的植株的总酚类含量始终显著高于其他5种植物.结合植物总酚类指标和摄食偏好结果,表明克氏原螯虾对沉水植物的摄食具有选择性,相对新鲜植物更喜摄食腐烂后的碎屑,总酚类不是影响其选择的关键因子. 相似文献
75.
为研究亚硝酸(HONO)在γ-Al_2O_3(110)表面非均相氧化SO_2的机理,基于密度泛函理论(density functional theory,DFT)的第一性原理计算了SO_2和HONO在γ-Al_2O_3(110)表面的吸附机制和氧化机制。结果表明,SO_2以分子的形式吸附在完整或缺陷的γ-Al_2O_3(110)表面,而HONO仅在完整表面上以分子的形式存在。表面氧缺陷的存在不仅会增强SO_2和HONO的吸附强度,而且能诱导HONO在含氧缺陷表面的分解(HONO→NO+·OH)。通过局域态密度(partial density of states,PDOS)和Mulliken电荷布局分析表明,HONO的分解遵循Haber-Weiss机制。当SO_2和HONO共同吸附在氧缺陷表面时,HONO分解产生·OH,氧化SO_2形成HOSO_2团簇分子。该研究不仅有助于理解HONO在矿物氧化物表面氧化SO_2的作用,而且为解释大气硫酸盐气溶胶的形成提供了理论依据。 相似文献
76.
Quanjun Jiao Bing Zhang Liangyun Liu Zhenwang Li Yuemin Yue Yong Hu 《Natural Hazards》2014,70(2):1309-1326
The 8.0-magnitude Wenchuan earthquake in 2008 damaged the ecology of northwestern Sichuan, China. This study assessed ecological changes within a few years of the earthquake through satellite observations of vegetation dynamics in the earthquake area. As an ecological indicator, the fractional vegetation cover was extracted using the Normalized Difference Vegetation Index based on multi-year Landsat images and was validated using airborne images. We found that the entire mountainous disaster area had recovered by 68.45 % 3 years after the 2008 earthquake. After rapid recovery of vegetation in 2009, the recovery process slowed. The vegetation recovery rate (VRR) in the area heavily damaged by landslides was slightly lower but nearly that of the entire disaster area. In addition, because of differences in the proportions of soil and rock in the damaged areas, recovery of vegetation in the southwest portion of the study area was slower than in the northeast areas. Topographic analysis of vegetation recovery patterns indicated that damage to vegetation was closely related to slope, while recovery of vegetation was more sensitive to elevation. The landscape analysis showed that the recovery rate (65.21 %) of the excellent vegetation cover type was slower than the overall VRR. This study suggests that vegetation recovery is a slow ecological process and that ecological restoration should be implemented in mountainous regions affected by the earthquake. 相似文献
77.
<正>Erratum to:Chinese Journal of Oceanology and Limnology Vol.31 No.6,P.1190-1195,2013http://dx.doi.org/10.1007/s00343-013-3049-3The supporting grant information on the footnote of the original version of this article needs to be altered and updated.The new information is given below. 相似文献
78.
Investigating soil thermodynamic parameters of the active layer on the northern Qinghai-Tibetan Plateau 总被引:3,自引:1,他引:2
Ren Li Lin Zhao Tonghua Wu Yongjian Ding Yao Xiao Yongliang Jiao Yanhui Qin Yufei Xin Erji Du Guangyue Liu 《Environmental Earth Sciences》2014,71(2):709-722
The soil thermodynamic parameters, including thermal conductivity, diffusivity and volumetric capacity within the active layer on the northern Tibetan Plateau, were calculated using the measured data of soil temperature gradient, heat flux, and moisture at four stations from October 2003 to September 2004. The results showed that the soil thermodynamic parameters exhibited clear seasonal fluctuation. The thermal conductivity and diffusivity in summer and autumn at Beiluhe, Kexinling, and Tongtianhe were larger than those in winter. The volumetric thermal capacity causes an opposite change; it was larger in autumn and winter than in summer. In spring, the soil thermal conductivity at the Kekexili station was larger than that in summer. Generally, fine-grained soils and lower saturation degrees in the topsoil might be a reason for the lower soil thermal conductivity in winter. For a given soil, soil moisture was the main factor influencing the thermodynamic parameters. The unfrozen water content that existed in frozen soils greatly affected the soil thermal conductivity, whose contribution rate was estimated to be 55 %. The thermodynamic parameters of frozen soils could be expressed as a function of soil temperature, volumetric ice content and soil salinity, while for the unfrozen ground the soil moisture content is the dominant factor for those thermal parameters. As for the soil thermal diffusivity, there exists a critical value of soil moisture content. When the soil moisture content becomes less than a critical value, the soil thermal diffusivity increases as the soil moisture content rises. 相似文献
79.
正1 Introduction Bioflocs is a heterogeneous mixture of the microorganisms,particles,organic polymers and dead cells,etc.(Hargreaves,2006).Among which,heterotrophic bacteria convert efficiently the ammonia nitrogen into the bacterial protein,which provides the supplementary feed for culture animals and reduces the nitrogen level in the culture system(De Schryver et al,2008).In the closed aquaculture system,the growth of 相似文献
80.