新型抗旱保水剂问世

一种能够提高干旱、半干旱地区植物栽培成活率，集促进植物生根、持水保肥、营养缓释等功效于一身的抗旱保水剂日前研制成功。据专家介绍。这一抗旱保水剂是中国地质科学院矿产资源研究所与中国农业科学院土壤肥料研究所合作，利用内蒙古鄂尔多斯市杭锦旗黏土资源（杭锦2号土），经过4年多的潜心研究和反复实验开发研制而成的。以小麦为例。是对照组的1.5-1.8倍。可使玉米果穗秃顶率下降1-2.8个百分点，穗粒数增加25-60粒，且长势明显优于施用其他复合肥。     

地学论文字母书写和标示的一般规则

为准确地表达地学领域的各项科技含义,在地学论文的正文、表格和插图中,外文及汉语拼音字母使用得非常普遍。本文就地学论文字母正确书写和标示的一般规则,参照现颁国家标准及有关规范,分别按正、斜体,大、小写等四种情况,分列明细予以介绍。     

NKK开展土壤净化技术

日本NKK公司准备开展土壤改善业务。该公司已签订了有关使用美国BioGenesis Enterprises公司开发的工艺技术的协议。据NKK报道，该工艺使用高压水粉碎土壤，并应用生物降解表面活性化学试剂，来消除土壤中的有害物质。对基本生产流程的部分设备重新配置，该系统就能重新组合用于去除重金属、挥发性有机化合物、多氯联苯、石油污染物和Dioxins。该车载装置能去除小于70μm的土壤污染物，日均清除190m^3土壤。据BioGenesis报道，这项技术能去除85％－99％的土壤污染物，且剩余部分可采用生物降解作用再净化，去污成本从每吨40美元到每吨200美元。一旦净化作业完毕，就可将处理后的土壤送回其原处。     

南海中部翼足类和异足类生态的初步研究

记述了南海中部海域翼足类和异足类的数量变化、群落结构特征及垂直分布的状况,并分析了翼足类和异足类的分布与海区环境因子的关系.     

河南省古生物化石资源特征和研究进展

为摸清河南省古生物化石资源家底,对全省古生物化石进行系统调查评价和归纳总结,对部分重要的化石点进行科学挖掘和深入研究,建立全省古生物标准实体化石标本库和古生物化石数据库,进而研究河南古生物化石保护政策措施,制定古生物化石保护利用规划,河南省国土资源厅和河南省财政厅于2005年末启动了“河南省古生物化石地质遗迹资源调查评价”、“河南省脊椎动物（恐龙、古象）化石勘查发掘”项目,由河南省地质博物馆牵头承担。两年多来,项目在河南省国土资源厅的正确领导和有关单位的支持下,通过两项目组全体同志不畏艰难、扎实工作、共同努力,为河南省地质博物馆陈列布展提供了大量在全国乃至世界有影响的陈列布展标本,     

Environmental impacts from mining at Taojiang Mn ore deposit, central Hunan, China

The Taojiang Mn ore deposit was exploited in the early 1960s, and waste rocks were developed since then. Because the Mn ores were hosted within the metal-enriched black shales （Peng et al., 2004）, the continuous mining has led to the exposure of an immense quality of black shales, which might cause serious impacts on environments. The present study deals with this environmental issue with samples from the waste rocks, and from the surrounding soils and surface water. The mineralogy of the waste rock was studied using EMPA, then a large number of elements in all waste rock, soil, and water samples were analyzed at a wide range of concentrations with high accuracy using an Elan6000 ICP-MS machine at Guangzhou Institute of Geochemistry, Chinese Academy of Sciences. The waste rock is composed mostly of black shales, with minor Mn carbonates. Both black shales and Mn carbonates of the waste rock contain many sulfide minerals, mainly pyrite, with minor galena, sphalerite, chalcopyrite, and others. The waste rocks are enriched in many metals including Sc, V, Cr, Co, Ni, Fe, Mn, Cu, Zn, Pb, Th, U, Mo, Sb, Sn, Tl, and others, and the metals are mostly hosted within the sulfides. Weathering of waste rocks might cause emission of the following metals： V, Cd, Ni, Th, U, Mo, Sb, Tl, Sc, Cr, Cu, Zn, Sn, and minor Co, and Pb. The surrounding soils are highly enriched in Cr, Co, Cu, Zn, Mn, Mo, Cd, Tl, and Pb, with the enrichment factors of 2.67.3.8, 7.26, 7.27, 8.2, 5.7, 13, and 5.4, respectively. The element ratios （Rb/Cs, Fe/Mn, Nb/Zr, Hf/Zr, and Ba/Sr） and REE distribution patterns of the soils are similar to those of the waste rocks and bedrocks.     

Selenium contamination in the Colorado River Basin, western USA： Remediation by leaching and nanof＇dtration membranes

Selenium （Se） is an essential micronutrient to biota, but can become a potent toxicant at elevated concentrations. The natural sources and chemical properties of Se species make the boundary between deficiency and toxicity narrow for some biota, with both phenomena common around the globe. Large areas of farmland in the Colorado River Basin （CRB） generate salinized drainage water with Se concentrations much higher than 5 μg/L, the U.S. Environmental Protection Agency chronic water-quality criterion for the protection of aquatic life. We have carried out detailed field and laboratory studies to investigate Se geochemistry and remediation in two of these areas： the Middle Green River Basin, Utah and the Salton Sea Basin, California, located respectively in the Upper and Lower CRB. Results from these and other studies show that approximately 90% of the dissolved Se in the Colorado River and its tributaries originally is derived from the Upper Cretaceous Mancos Shale and equivalent pyritic marine units that outcrop in the Upper CRB. Selenium is mobilized commonly by biogeochemical oxidation of this pyritic shale and is concentrated mainly as selenate （SeO4^2-） in soils and agricultural drainage water of dry climates by evaporation. Minor （0%-5%） amounts of Se are present as the selenite species （HSeO3^-） and （SEO3^2-）, but these species and the more reduced species, elemental Se （SeO） and selenide （Se^2-）, have much lower solubility and/or have high sorptive affinity towards organic matter, clay minerals and iron oxyhydroxides. The concentration of dissolved Se （-2.5 μg/L） and salinity in the Lower Colorado River water are among the highest of the world major rivers. Because of low precipitation （7 cm/a） and extreme evapotranspiration （-1.8 m/a） rates in the Salton Sea Basin, California, Se values in irrigation water imported from the Colorado River increase to 〉300 μg/L in drainage wastewater. Removal of Se from contaminated wastewater by nanofiltration membranes was demonstrated in laboratory and pilot-scale field experiments.