四川昭觉县中部乡镇表层土壤硒地球化学特征

硒元素是人体必需的微量元素之一,食用富硒农产品是人体获取和补充硒元素的主要途径,调查区域硒地球化学特征是有效地利用富硒土地资源以及开发富硒农副产品的重要依据。本文选择四川省昭觉县域内较为重要的农耕乡镇采集表层土壤样品,采用原子荧光光谱法、X射线荧光光谱法、电感耦合等离子体质谱/发射光谱法等方法测定1328件土壤、19件玉米及20件土豆中硒等地球化学指标含量,利用相关分析与统计学等方法,结合距离加权反比插值法,探讨研究区硒含量、分布和影响因素等地球化学特征,评价土壤与作物的富硒情况及安全性。结果表明：(1)研究区表层土壤硒含量范围为0.04～1.50mg/kg,平均值为0.33mg/kg,划定富硒土壤面积为7.23km~2,占全区土壤面积的30.31%,玄武岩发育的土壤硒含量最高,平均值为0.4mg/kg,表明区内地质背景与土壤硒含量密切相关,区内富硒土壤主要受含玄武岩夹苦橄岩、凝灰质砂泥岩的峨眉山玄武岩组地层控制;(2)不同的用地类型和土壤类型对硒元素的富集能力不同,人为农业活动导致土壤对硒的吸附能力下降,黄棕壤土层中黏粒或铁氧化物等易与硒结合富集;酸性土壤中硒含量与pH值成反比;土壤...     

辽宁丹东地区土壤Se元素地球化学特征及其影响因素

以辽宁省丹东市富硒（Se）土壤为研究对象,依据表层土壤、土壤剖面及成土母岩的调查数据,研究了土壤中Se元素质量分数、分布规律及其影响因素。结果表明：研究区表层土壤中Se质量分数变化范围为（0.028~0.910）×10^-6,高于全国土壤Se质量分数平均值;Se元素空间分布受辽河群影响,显示出表层富集特征。研究区土壤中Se元素富集主要有以下原因：Se元素来源于盖县岩组和高家峪岩组变质岩,其富集受成土过程影响较大,棕壤土层中黏粒或铁氧化物等聚集,易与Se结合发生聚集;区内表生环境地球化学作用对表层土壤中Se元素起到一定的富集作用,土壤中S、N与Se相互吸附固定,有利于土壤Se的富集,此外Al、Fe氧化物对Se具有很强的吸附能力;研究区土壤中Se质量分数与pH值具有显著的负相关关系,土壤中pH值越小,Se质量分数越高。总体上,研究区土壤硒质量分数与有机碳、铝铁氧化物、S、N质量分数具有较好的相关性,这与广州、江西丰城、湖北恩施等地开展的富硒研究相一致。     

黑龙江拜泉地区硒元素在土壤-植物系统中的迁移富集规律

以拜泉地区1:5万土地质量地球化学调查数据为基础,开展硒地球化学特征及生态效应研究,探讨硒元素在土壤-植物系统中的迁移富集规律.研究表明:拜泉地区根系土硒含量均值为0.25×10-6,属中等富硒土壤,黄豆和水稻富硒占比相对较高;水溶态硒和离子交换态硒含量之和约为5％,一定程度上制约硒的有效量.土壤理化性质对硒全量、硒形...     

乌鲁木齐市某蔬菜基地富硒土壤地球化学特征及生物效应研究

对乌鲁木齐市某蔬菜基地富硒土壤地球化学特征及生物效应分析可知,以硒含量大于等于0.4 mg/kg标准圈定富硒土壤面积约52.89 km^2,硒含量均值为0.78 mg/kg;富硒土壤中重金属元素含量较低,养分元素含量适量丰富,农作物富硒效应较好,安全性较高。通过对土壤中硒元素赋存状态分析,发现区内土壤中存在大量土壤缓效硒,潜在供硒能力较强,且对植物吸收有利的有效硒占比达4.02%;土壤中硒的有效性不仅取决于总硒的含量,还与土壤pH、有机质等有一定关系;农作物中硒的含量水平可能受土壤中有效硒、总硒、有机质、pH等多个因素综合影响。     

湖沼相富硒土壤的发现及其生态学意义

通过对浙北平原土壤调查与研究,发现一种新类型富硒土壤,其特征为环太湖周边断续出现。土壤硒全量为(0.084~1.296)×10^-6,平均值为0.399×10^-6,标准离差为0.037,变异系数为0.094;土壤有效硒与有机质关系密切,与土壤pH不相关;在土壤有机质丰富和氧化条件下,稻米、玉米、豆类和叶菜类等农产品富硒效果较好。进一步研究表明,该富硒土壤的形成与湖沼相沉积有关,据此提出湖沼相富硒土壤新类型。     

巴彦淖尔市临河区狼山镇和新华镇一带富硒土壤地球化学特征及影响因素北大核心CSCD

内蒙古自治区巴彦淖尔市临河区狼山镇和新华镇一带发现大面积硒高含量区。为研究该地区富硒土壤的地球化学特征及土壤硒含量的控制因素,采集6250件表层土壤样品,并设计5条土壤垂直剖面进行化学元素测试分析。结果表明,研究区耕地土壤硒含量介于(0.06~0.77)×10^(-6)之间,平均含量为0.32×10^(-6),硒的背景值为0.32×10^(-6),是巴彦淖尔市表层土壤背景值(0.20×10^(-6))和中国土壤背景值(0.20×10^(-6))的1.6倍,且研究区耕地土壤中达到富Se水平(0.4×10^(-6)以上)的样品数为1072个,占全部采样点位的17.2%,表明研究区耕地土壤中硒含量相对较高。研究区土壤中硒和营养元素及重金属元素存在正相关关系,与土壤pH存在一定的负相关关系;硒在土壤垂直方向上分布总体上表现出表聚性特征,随剖面深度增加,硒含量逐渐降低。表层土壤中硒含量主要受土壤有机质含量影响,土壤垂直方向上硒含量主要受有机质与粘土矿物影响。     

云南省新平县哀牢山地区富硒土壤成因及其影响因素研究

以云南省新平县者竜—戛洒地区1∶5万土地质量地球化学调查评价结果为基础,对该地区富硒土壤的成因及其影响因素进行分析,结果表明,研究区土壤硒平均含量为0.38 mg/kg,高于全国土壤硒平均含量0.29 mg/kg,按0.4 mg/kg相似文献   

Relationship between Se/S and sulfur isotope ratios of hydrothermal sulfide minerals

The pH and f_{O 2} dependences of the [Se^2–]/[S^2–] ratio in chloride solutions at 100°, 200° and 300°C are predicted thermodynamically. Under the high f_{O 2} conditions where sulfate species are dominant in solution, the [Se^2–]/[S^2–] ratio always increases with increasing pH and/or f_{O 2}. Under the low f_{O 2} conditions where sulfide species are dominant in solution, the pH and f_{O 2} dependences of the [Se^2–]/[S^2–] ratio are seriously affected by the presence of native selenium. With native selenium present, the [Se^2–]/[S^2–] ratio decreases with increasing f_{O 2}, but almost independent of pH in geologically important pH regions. When native selenium is absent, the [Se^2–]/[S^2–] ratio is solely a function of pH and independent of f_{O 2}. Combining the above with the pH and f_{O 2} dependences of ³⁴S value of aqueous sulfur species, we discuss the possible influences of the pH and f_{O 2} of ore-forming solutions on the relationship between the Se/S ratio and ³⁴S value of hydrothermal sulfide minerals. The results are applied to some Japanese sulfide ore deposits.     

四川省沐川县西部地区土壤硒含量特征及影响因素

硒是人体和动物必需的微量有益元素,摄入适量硒是提高人群生活质量的重要标志。食用富硒农产品是缺硒地区人体获取和补充硒元素的重要途径。调查土壤硒的含量特征、圈定富硒土壤资源分布区、查明土壤硒迁移富集的影响因素,是高效利用富硒土壤资源和科学开发富硒农产品的重要依据。本文选择四川省沐川县西部地区采集土壤样品,采用原子荧光光谱法、X射线荧光光谱法、电感耦合等离子体质谱/发射光谱法等方法测定土壤中Se、Al₂O₃、TFe₂O₃、OrgC、Cd等元素含量和pH值,利用统计学及相关分析等方法研究了土壤硒等元素含量和分布特征,并对土壤硒含量的主要影响因素进行探讨。结果表明：①研究区表层土壤硒含量范围为0.08~1.30mg/kg,平均含量为0.39±0.15mg/kg,满足富硒土壤条件的土壤面积为112km²,占研究区总面积的52%,其中无公害富硒土壤面积为35km²。土壤Cd含量是造成富硒土壤和无公害富硒土壤面积具有较大差异性的主要因素。②地质背景与土壤硒含量密切相关,富硒土壤主要受含碳酸盐岩及夹碳质地层的砂岩、粉砂岩等地层控制,土壤硒来源稳定;③土壤硒含量随pH值、风化程度的降低而升高,随有机质、TFe₂O₃、S含量的升高而升高,其中有机质对土壤硒的影响显著大于TFe₂O₃,表明该区域铁氧化物对硒的吸附能力低于有机质。综上所述,研究区富硒土壤资源丰富,建议当地充分利用相关资源开发富硒农产品,同时应注重有机肥的平衡施肥,并进一步加强土壤-作物系统中硒迁移富集影响因素的协同分析。     

Geochemical evidence for Se mobilization by the weathering of pyritic shale, San Joaquin Valley, California, U.S.A.

Acidic (pH 4) seeps issue from the weathered Upper Cretaceous-Paleocene marine sedimentary shales of the Moreno Formation in the semi-arid Coast Ranges of California. The chemistry of the acidic solutions is believed to be evidence of current reactions ultimately yielding hydrous sodium and magnesium sulfate salts, e.g. mirabilite and bloedite, from the oxidation of primary pyrite. The selenate form of Se is concentrated in these soluble salts, which act as temporary geological sinks. Theoretically, the open lattice structures of these hydrous minerals could incorporate the selenate (SeO₄⁻²) anion in the sulfate (SO₄⁻²) space. When coupled with a semi-arid to arid climate, fractional crystallization and evaporative concentration can occur creating a sodium-sulfate fluid that exceeds the U.S. Environmental Protection Agency limit of 1000 μg l⁻¹ for a toxic Se waste. The oxidative alkaline conditions necessary to ensure the concentration of soluble selenate are provided in the accompanying marine sandstones of the Panoche and Lodo Formations and the eugeosynclinal Franciscan assemblage. Runoff and extensive mass wasting in the area reflect these processes and provide the mechanisms which transport Se to the farmlands of the west-central San Joaquin Valley. Subsurface drainage from these soils consequently transports Se to refuge areas in amounts elevated to cause a threat to wildlife.     

Selenium isotope fractionation during reduction by Fe(II)-Fe(III) hydroxide-sulfate (green rust)

We have determined the extent of Se isotope fractionation induced by reduction of selenate by sulfate interlayered green rust (GR_SO4), a Fe(II)-Fe(III) hydroxide-sulfate. This compound is known to reduce selenate to Se(0), and it is the only naturally relevant abiotic selenate reduction pathway documented to date. Se reduction reactions, when they occur in nature, greatly reduce Se mobility and bioavailability. Se stable isotope analysis shows promise as an indicator of Se reduction, and Se isotope fractionation by various Se reactions must be known in order to refine this tool. We measured the increase in the ⁸⁰Se/⁷⁶Se ratio of dissolved selenate as lighter isotopes were preferentially consumed during reduction by GR_SO4. Six different experiments that used GR_SO4 made by two methods, with varying solution compositions and pH, yielded identical isotopic fractionations. Regression of all the data yielded an instantaneous isotope fractionation of 7.36 ± 0.24‰. Selenate reduction by GR_SO4 induces much greater isotopic fractionation than does bacterial selenate reduction. If selenate reduction by GR_SO4 occurs in nature, it may be identifiable on the basis of its relatively large isotopic fractionation.     

陕西省石头河一带土壤及植物富硒特征

土壤硒的丰缺与人类和动物的健康密切相关,依据李家熙的土壤硒含量划分标准,石头河地区存在中硒土壤(0.2~0.4×10-6)和富硒土壤(0.4×10-6)。小麦籽实分析均为富硒小麦,与富硒土壤关系密切。硒形态分析表明土壤中硒的强/弱有机结合态、水溶态、残渣态、铁锰结合态、碳酸盐结合态含量变化均为:水稻土水系沉积物褐土。硒的全量及形态含量受pH值影响较大,在酸性土壤中施加一定量的CaCO3,可提高土壤的pH值,增加硒的溶解度,有利于提高植物对土壤硒的吸收。     

福建省寿宁县土壤硒分布特征及影响因素

通过福建省寿宁县多目标区域地球化学调查,查明了土壤硒分布和富集特征,研究了土壤硒与pH值及其他元素的相关关系。结果表明,表层土壤硒含量为0.13~0.92 mg/kg,平均值为0.35 mg/kg,深层土壤硒含量为0.14~0.54mg/kg,平均值为0.29 mg/kg,燕山晚期正常花岗岩（ξγK₁）发育的土壤中硒含量最高,平均值为0.39mg/kg,其次为南园组四段（J₃n⁴）和小溪组上段（K₁x²）发育的土壤,不同土壤类型硒平均含量呈现出黄壤 > 红壤 > 水稻土的特点。表层土壤总体上属于富硒、足硒土壤,富硒土壤面积为405.04 km²,占28.24%,表层土壤硒含量相对于深层土壤表现出明显的富集特征,强烈富集区域与富硒土壤区域基本吻合,具有开发富硒农产品的潜力。相关分析表明,土壤硒含量与TOC、Al₂O₃、TFe₂O₃、Mn等呈显著正相关,与pH呈显著负相关,说明土壤理化性质、铁锰氧化物等对硒的表生地球化学行为有重要影响。     

海南岛农田土壤Se的地球化学特征

Se是人和动物必需的微量元素之一,具有广阔的开发应用前景,研究土壤中Se的地球化学分布规律和生物有效性控制因素意义重大。系统总结了海南岛27 426 km2范围内土壤Se的含量特征和影响因素。结果表明,研究区69.98%土地面积为足硒和富硒土壤,表层土壤Se含量在一定程度上继承了成土母岩(或深层土壤)Se含量,但不同成土母岩形成的表层土壤Se含量富集贫化趋势不同。进一步研究显示,土壤中Se含量与有机碳、Al2O3、TFe2O3、Mn和CIA等具有显著的正相关关系,说明土壤中粘土矿物、有机碳、铁锰氧化物及风化淋溶程度对Se的地球化学行为有重要影响,同时这些指标又是影响土壤Se生物有效性的重要参数。土壤有机碳、粘粒、CEC等含量或指标越高,Se的生物有效性越低。研究区土壤pH6.5时,土壤Se含量较低;土壤pH6.5时,土壤Se含量随pH下降而增加;当土壤pH为5.5～7.5时,土壤Se生物有效性相对较高。因此,开发富硒农产品不但要依据土壤总Se含量,还必须考虑土壤pH、TOC、CEC、粘粒等指标含量。     

内蒙古通辽市科尔沁区土壤硒地球化学特征

对通辽市科尔沁区土壤与农作物中硒元素地球化学特征及影响因素的系统研究显示，研究区土壤硒含量水平普遍较低，且空间分布不均，仅局部达到足硒水平.硒元素主要富集在表层土壤中，且与有机碳、Al₂O₃、TFe₂O₃、Mn、P等呈正相关关系，表明土壤中有机碳、黏土矿物、铁锰氧化物对硒元素地球化学行为有重要影响.研究区土壤呈碱性至强碱性，富硒农作物并不严格产出在富硒土壤中.因此，开发富硒农产品要综合考虑土壤硒含量、土壤有效态硒含量、农作物硒含量、土壤理化性质及地理景观等因素.     

内蒙古通辽市科尔沁区土壤硒地球化学特征

对通辽市科尔沁区土壤与农作物中硒元素地球化学特征及影响因素的系统研究显示,研究区土壤硒含量水平普遍较低,且空间分布不均,仅局部达到足硒水平.硒元素主要富集在表层土壤中,且与有机碳、Al₂O₃、TFe₂O₃、Mn、P等呈正相关关系,表明土壤中有机碳、黏土矿物、铁锰氧化物对硒元素地球化学行为有重要影响.研究区土壤呈碱性至强碱性,富硒农作物并不严格产出在富硒土壤中.因此,开发富硒农产品要综合考虑土壤硒含量、土壤有效态硒含量、农作物硒含量、土壤理化性质及地理景观等因素.     

广东省普宁市土壤硒的分布特征及影响因素研究

开展了广东省普宁市区域土壤硒调查研究,采集了413个表层土壤样品(0～20 cm)和103个深层土壤样品(> 150 cm),测定了土壤全硒含量,据此研究土壤硒分布特征及其影响因素。结果表明,普宁市土壤全硒含量变化于0. 16～2. 01 mg/kg,平均值为0. 63 mg/kg,总体上处于中硒及高硒水平,不存在缺硒和硒过剩土壤。砂页岩风化形成的赤红壤全硒含量较高,平均值达0. 86 mg/kg,以侏罗系页岩母质发育的土壤全硒含量最高,平均值达0. 89 mg/kg;三角洲第四系沉积物发育形成的水稻土全硒含量最低,平均值为0. 41 mg/kg。回归分析表明,土壤全硒含量与铁铝含量、有机碳含量具有极显著正相关,与p H呈极显著负相关。影响普宁市土壤硒含量的主要因素是成土母质,土壤p H、有机碳和铁铝含量及土地利用方式对土壤全硒含量分布与富集也有一定的影响。     

贵州省长顺县耕地土壤硒元素分布及其影响因素分析

在嵌入式系统下借助语音识别技术设计一套无线控制系统,通过此系统对传统家电进行一些常规的语音与界面人机交互操作,实现包括多设备交互控制、网络连接、数据显示等功能,这将极大提升家居生活的便利性和舒适性。系统采用基于高级精简指令集机器(advanced RISC machine,ARM)处理器+Linux+语音识别库+无线传感器网络的方案,主要包括硬件电路设计和软件开发,控制系统利用语音识别技术对声音进行识别,借助ZigBee模块进行主控系统与终端设备的交互。与传统产品相比,该交互式家居语音控制系统提供多样的识别、交互模式,创新的控制模式及更大范围的识别距离。     

Contaminants from Cretaceous black shale: I. Natural weathering processes controlling contaminant cycling in Mancos Shale,southwestern United States,with emphasis on salinity and selenium

Soils derived from black shale can accumulate high concentrations of elements of environmental concern, especially in regions with semiarid to arid climates. One such region is the Colorado River basin in the southwestern United States where contaminants pose a threat to agriculture, municipal water supplies, endangered aquatic species, and water-quality commitments to Mexico. Exposures of Cretaceous Mancos Shale (MS) in the upper basin are a major contributor of salinity and selenium in the Colorado River. Here, we examine the roles of geology, climate, and alluviation on contaminant cycling (emphasis on salinity and Se) during weathering of MS in a Colorado River tributary watershed. Stage I (incipient weathering) began perhaps as long ago as 20 ka when lowering of groundwater resulted in oxidation of pyrite and organic matter. This process formed gypsum and soluble organic matter that persist in the unsaturated, weathered shale today. Enrichment of Se observed in laterally persistent ferric oxide layers likely is due to selenite adsorption onto the oxides that formed during fluctuating redox conditions at the water table. Stage II weathering (pedogenesis) is marked by a significant decrease in bulk density and increase in porosity as shale disaggregates to soil. Rainfall dissolves calcite and thenardite (Na₂SO₄) at the surface, infiltrates to about 1 m, and precipitates gypsum during evaporation. Gypsum formation (estimated 390 kg m⁻²) enriches soil moisture in Na and residual SO₄. Transpiration of this moisture to the surface or exposure of subsurface soil (slumping) produces more thenardite. Most Se remains in the soil as selenite adsorbed to ferric oxides, however, some oxidizes to selenate and, during wetter conditions is transported with soil moisture to depths below 3 m. Coupled with little rainfall, relatively insoluble gypsum, and the translocation of soluble Se downward, MS landscapes will be a significant nonpoint source of salinity and Se to the Colorado River well into the future. Other trace elements weathering from MS that are often of environmental concern include U and Mo, which mimic Se in their behavior; As, Co, Cr, Cu, Ni, and Pb, which show little redistribution; and Cd, Sb, V, and Zn, which accumulate in Stage I shale, but are lost to varying degrees from upper soil intervals. None of these trace elements have been reported previously as contaminants in the study area.     

Predicted equilibrium constants for solid and aqueous selenium species to 300 °C: applications to selenium-rich mineral deposits

In this study, an attempt has been made to assess aqueous speciation of selenium and solubility product constants of common selenides at elevated temperatures (up to 300 °C) by using various extrapolation methods. This study predicts that reduced selenium species are dominant species in many geological processes even under relatively oxidized conditions such as those dictated by the magnetite–hematite buffer. On the basis of extrapolated equilibrium constants and solubility product constants for common Se-bearing mineral phases, critical ∑Se/∑S ratios (molal ratios) in mineralizing fluids are proposed for independent selenium mineralization. The minimum ∑Se/∑S ratios in mineralizing fluids for independent selenium mineralization should be at least 10⁻⁶, 10⁻⁵ and 10⁻⁴ at 100, 200 and 300 °C, respectively. For giant independent selenium deposits such as the La'erma and Qiongmo Au–Se deposits in the western Qingling mountains, and Yutangba Se deposits in Hubei Province, China, the mineralizing fluids have reached much higher ∑Se/∑S ratios ranging from 10⁻¹ to 10⁻³ at 200 °C. This study also suggests that the equilibrium assemblage of pyrite–ferroselite among the common ore minerals requires the highest ∑Se/∑S ratios in mineralizing fluids, followed in decreasing order by the assemblages of stibnite–antimonselite, galena–clausthalite, cinnabar–tiemannite, and acanthite/argentite–naumannite. The assemblage of pyrite–ferroselite can also be formed under relatively oxidizing conditions where [∑H₂Se]/[∑H₂S] ratios can be high enough for the formation of independent ferroselite.