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选取云南不同气候区发育于弱磁性砂岩的土壤剖面,分析磁性差异及其对气候变化的响应,探讨赤铁矿和针铁矿与气候因素的关系。结果表明:1)位于热带亚热带地区的峨山(EF)、普洱(PF)和景洪(F)土壤中亚铁磁性矿物主要为磁赤铁矿和磁铁矿,不完全反铁磁性矿物为针铁矿和赤铁矿。EF土壤中亚铁磁性矿物含量相对较高,PF和F土壤中针铁矿和赤铁矿的含量相对较高;3个研究区均含大量的细粒(超顺磁、单畴等)磁性矿物。2)土壤磁化率与温度和降水无显著相关性,难以作为该区域的气候代用指标。3)赤铁矿和针铁矿比值Hm/Gt和Hm/(Hm+Gt)与温度有良好的对应关系,在指示温度方面有应用潜力。 相似文献
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胶州湾大沽河口潮间带沉积物中叶绿素和有机质含量的季节变化 总被引:1,自引:0,他引:1
为了解胶州湾大沽河口潮间带沉积物中底栖微藻和有机质含量的季节变化,于2010年4月至2011年2月,分4次(春、夏、秋、冬)测定分析了沉积物中的叶绿素含量和有机质含量,并分析了沉积物的粒度组成及现场温度。结果表明,表层(0~2cm)沉积物叶绿素a含量为0.42~6.06mg/kg,有机质含量为0.48%~3.71%;次表层(2~5cm)叶绿素a含量为0.13~3.53mg/kg,有机碳质量为0.31%~3.78%;深层(5~8cm)叶绿素a含量为0.14~1.95mg/kg,有机质含量为0.47%~3.72%。经统计检验和Pearson相关性分析得出,胶州湾大沽河口沉积物中的叶绿素a含量春冬两季最高,夏季和秋季最低;叶绿素a含量与深度和温度呈负相关;与所处潮带、有机质含量、粉砂黏土含量在本实验中均无显著的相关性;有机质含量与季节关系不大,高潮带最高,其含量与粉砂黏土含量呈正相关,与叶绿素含量、深度和温度关系不明显。 相似文献
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通过对峨山花岗岩体及矿化岩体石英斑晶中流体包裹体特征对比研究,结果表明:从早期至晚期阶段均一温度有升高再降低、盐度总体有降低趋势,中期驴子村单元盐度出现7%~8.5%、10%~11.5%两个区域,高盐度液相是搬运金属Cu、Mo等的主要载体。采用流体包裹体联合H_2O饱和花岗岩固相线估算压力,含钨、铜花岗岩最小侵位深度均约10km。拉曼特征表明,流体包裹体含H_2O、CO-3、CO_2、SO_2、CH_4物质,说明流体具有搬运W、Mo等金属元素的能力,认为具有形成斑岩型钨钼铜矿床的成矿潜力。由于剥蚀深度大于4.8km,保存Cu、Pb-Zn的条件不佳,寻找浅层低温岩浆热液型铜、铅锌应着眼于驴子村单元花岗岩的侧翼。 相似文献
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云南省鲁甸县地质灾害特征与成因研究 总被引:1,自引:0,他引:1
鲁甸县地质灾害类型众多,主要有滑坡、泥石流、崩塌、地裂缝等.鲁甸县境内现有地质灾害86处,其中滑坡60处、泥石流13处、崩塌10处、地裂缝3处.地质灾害规模以小型为主,占62.79%,其次为中型和大型,有少量巨型地质灾害.在资料收集与野外调查的基础上,从地形地貌条件、地层岩性条件、地质构造条件、降雨、人类工程活动、地震活动等方面探讨了地质灾害的形成因素,找出成灾规律,并提出了防灾、减灾对策. 相似文献
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Sediment samples were collected in the intertidal zone of the Dagu River Estuary, Jiaozhou Bay, China in April,July and October 2010 and February 2011 for examining seasonal dynamics of meiofaunal distribution and their relationship with environmental variables. A total of ten meiofaunal taxa were identified, including free-living marine nematodes, benthic copepods, polychaetes, oligochaetes, bivalves, ostracods, cnidarians, turbellarians,tardigrades and other animals. Free-living marine nematodes were the most dominant group in both abundance and biomass. The abundances of marine nematodes were higher in winter and spring than those in summer and autumn. Most of the meiofauna distributed in the 0–2 cm sediment layer. The abundance of meiofauna in hightidal zone was lower than those in low-tidal and mid-tidal zones. Results of correlation analysis showed that Chlorophyll a was the most important factor to influence the seasonal dynamics of the abundance, biomass of meiofauna and abundances of nematodes and copepods. CLUSTER analysis divided the meiofaunal assemblages into three groups and BIOENV results indicated that salinity, concentration of organic matter, sediment sorting coefficient and sediment median diameter were the main environmental factors influencing the meiofaunal assemblages. 相似文献
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