Study on the background level of selenium in soils and its sources,Guizhou Province

The contents of selenium in soil samples from Guizhou Province, which cover an area of 17.6×104 km2, have been determined. The arithmetic mean value of 947 samples is 0.39 mg/kg, the medium value is 0.30 mg/kg and the contents of selenium vary from 0.06 to 1.29 mg/kg in soils developed on the basement rocks, which are controlled by the basement rocks themselves.

Assessment of selenium pollution in agricultural soils in the Xuzhou District,Northwest Jiangsu, China

Xuzhou City is an important base for coal production and coal-fired power. To evaluate selenium contamination in this area, we sampled agricultural soil, soil profile, irrigation water, bedrock, coal, fly ash, paddy rice, and vegetables from the north of Xuzhou City, and determined their selenium contents. The background level of selenium in the soil profile was 0.08 mg/kg. The selenium concentrations in agricultural soils and irrigation water were in the range of 0.21-4.08 mg/kg and 0.002-0.29 mg/L, respectively. Soils with high selenium content were located closely to coalmines and power plants. The average selenium concentrations in coal and coal fly ash were 5.46 and 2.81 mg/kg, respectively. In contrast, the concentrations of selenium in bedrock and in the soil profile were very low. These results imply that the high selenium level in agricultural soils is mainly caused by anthropogenic activities, rather than by parent material. The arithmetic mean of selenium concentration in paddy rice was 0.116 mg/kg, and in cabbage was 0.05 mg/kg. The selenium concentration in rice was positively correlated with total selenium concentration in soil, suggesting that selenium in soil is readily transferred into the crops. Furthermore, the estimated dietary intake （88.8 μg） of selenium from paddy rice and cabbage exceeds the recommended dietary allowance （55 μg）. Therefore, there is a potential health risk from consumption of local staple food in the study area.

Isolation and Identification of Selenium-tolerant Strains from Selenium-rich Soil in Guangxi

To provide reference for selenium resource exploitation of soil,many selenium-tolerant strains were isolated from selenium-rich soil in Guangxi. The dilution spread plate method and selenium-added culture method were used to screen the selenium-tolerant strains from the soils which were sampled from the main Selenium-rich areas such as Yongfu,Bama,Yulin Hanshan,Guiping and Tengxian. The results showed that 8 strains with high selenium tolerance were obtained,which could tolerate the selenium concentration above 10 000 μg/m L in solid medium. Among the 8 strains,YLB1-33 showed the highest selenium tolerance,and it could still grow weakly in the solid medium with selenium concentration of 29 000 μg/m L. The sequencing of 16 S rD NA and phylogenetic analysis showed that YLB1-6 was identified as Bacillus cereus,BMB2-1 and TXB1-8 were identified as Bacillus pumilus,GPB2-5 was identified as Bacillus thuringiensis,YLB1-26 and YLB1-33 were identified as Bacillus licheniformis,and YLB1-2 and YFB1-8 were identified as Serratia marcescens. The finding of selenium-tolerance strains had potential application value on promoting the utilization of selenium soil resources and the development of selenium-rich agricultural products in Guangxi.

Migration of Selenium in Soil-rice-human System and Its Health Risk Assessment in Enshi

In order to to provide scientific reference for the management and development of selenium resources in Enshi,four soil samples and four relevant rice samples were collected from four regions of Enshi,and then selenium content in the soil and rice samples were measured by ICP-MS. Afterwards,the occurrence forms of selenium in the soil samples were detected by continuous extraction. At last,the bioavailability of selenium in rice was studied by the in vitro gastrointestinal model. The results showed that selenium content in soil was 0. 15-5. 42 mg/kg in Enshi. The proportion of water-soluble selenium in soil was the lowest,ranging from 1. 41% to 3. 80%; the proportion of residual selenium was the highest,reaching 36. 1%-41. 7%. Besides,selenium content in rice was 0. 07-1. 61 mg/kg,and the bioconcentration factor of selenium in rice was 0. 22-0. 48. The bioaccessibility of selenium in rice ranged from 45. 7% to 56. 4% in the stomach and from 58. 4% to68. 5% in the small intestine. In addition,the daily intake of selenium per capita( PDI) in Yutangba,Changping,Shadi,and Taiyanghe was490,26,132 and 57 μg/d,indicating that people in Yutangba had the risk of chronic selenium poisoning,and people's diet was rich in selenium in Shadi and Taiyanghe,while people's diet was deficient in selenium in Changping.

Environmental behaviors of selenium in soil of typical selenosis area,China

Daba Mountain area is one of the two endemic selenosis areas in China,which may relate with the environmental behaviors of selenium (Se) in soil.This study focuses on the concentraion and distribution of Se and its relationships with some other elements in natural soil in the area.The average concentration of Se in Daba Mountain soils was 14.3 times higher than the value cited for natural soil background worldwide,suggesting that soils in the region were contaminated by the element.The finding was confirmed...

Form and Interconversion Factor of Selenium in Soil

In recent years,production and processing of natural selenium-rich agricultural products has become a research hotspot. The main factor affecting the selenium content in plant is the content of effective selenium in soil. So it is important to understand the form and conversion relationship of selenium in soil and find ways to improve selenium effectiveness. By summarizing the researches on selenium at home and abroad,we analyze the classification of soil selenium form,the transformation among different selenium forms and the improving factors of selenium effectiveness. We understand the relationship between chemical form and extraction form of selenium,analyze the driving factors of conversion among different forms,and discuss the ways to improve selenium effectiveness of soil in high selenium-rich area. By combining characteristics of soil and crop in different selenium-rich regions,different selenium activation methods are used,which could provide more scientific evidence for further selenium research.

Study of Factors Controlling on Distribution of Selenium in the Soil Profiles

Selenium is a useful element in plant growth and it’s also an necessary ingredient for animal life.The inadequateness or excessiveness of selenium content and different forms of selenium in soil can affect the plant growth directly and then bring about further influence to the health of human and animals by food-chain.So it is significant to study the transport and transformation of the selenium in the soil profile.

土壤中硒元素来源和迁移作用研究现状

自然过程和人为因素可以活化和迁移硒进入和离开土壤。查明土壤中硒的来源和迁移作用对富硒土地管理和富硒产业开发具有科学上和实践上的重要意义。岩石圈和大气干湿沉降是土壤硒的最基本来源。地表水径流、地下水淋滤、农作物收割、植物和微生物的挥发是土壤硒丢失的主要途径。土壤中硒的迁移作用可归因于水动力迁移作用、固相吸附作用和动植物循环作用。土壤组成和物理化学条件是控制土壤中硒分布和迁移的直接因素,气候、地形和农业活动通过改变土壤组成和物理化学条件间接地影响土壤中硒的迁移和重分布。在区域尺度(如大洲、国家和省)上,地质背景、气候和地形因素对硒的分布至关重要,而在局部尺度(如县、乡和农田)上,人类活动特别是农业耕作的影响更为显著。基于硒在土壤中的行为特性,提出了一系列硒资源管理策略:1)生物强化和修复,通过动植物循环作用来调节土壤中硒分布和生物有效性,它被认为是一种生态富硒手段;2)灌溉模式,通过改变水动力条件来调整土壤的理化条件,进而改变土壤的固相吸附作用和动植物循环作用,其中漫水灌溉和有氧灌溉结合的水管理模式被认为可以提升土壤硒的有效性;3)农艺措施,如施加硒肥、磷肥、硫肥和撒石灰,通过直接改变土壤组成和理化条件调整土壤硒的分布和有效性,这是传统的富硒农艺措施,但也可能产生一定的生态风险。

福建富硒红壤区土壤硒含量特征及作物对硒的吸收

在调查我国南方红壤区土壤及农产品中硒含量状况的基础上,分析了富硒红壤中硒的分布特征及其所产农产品中硒含量的变化规律。结果表明:我国南方富硒红壤面积较大,但在地理空间分布上具有一定破碎度;土壤中的硒虽伴生一定量的重金属和稀土等元素,但与重金属或稀土元素的相关性不大;在富硒土壤上生产的农作物总体表现为可食部位的硒含量低于非可食部位的,并且农作物中的硒含量与土壤有效态硒含量相关性显著。依据我国南方富硒红壤区土壤自身特性,可以通过调控富硒红壤区农田土壤的酸碱度、水分含量、施肥种类、施用调理剂等来提高土壤硒的有效性,达到农产品中硒含量增加的目的;同时,对外源补硒的技术和相应农产品硒的健康效应,需进一步研究与规范。

2019年凉山州土壤、粮食和头发中硒含量调查

目的2019年6—8月,通过抽样调查对凉山州土壤、粮食和头发样本中硒含量进行测定,为该地区克山病防治工作提供依据。方法在凉山州西昌市、冕宁县、布拖县、美姑县、盐源县各选择1个村作为采样点,分别采集10分土壤样本、30份头发样本和30份粮食样本,氢化物原子荧光光谱法测定样本中硒含量,并对测定结果进行统计描述。结果凉山州平均土壤硒含量为(0.22±0.10)mg/kg,布拖县、盐源县、西昌市、美姑县和冕宁县土壤硒含量分别为(0.24±0.02)mg/kg、(0.16±0.03)mg/kg、(0.26±0.13)mg/kg、(0.21±0.06)mg/kg和(0.22±0.15)mg/kg;平均粮食硒含量为(0.017±0.021)mg/kg,各调查地分别为(0.010±0.008)mg/kg、(0.012±0.012)mg/kg、(0.012±0.010)mg/kg、(0.031±0.039)mg/kg和(0.016±0.018)mg/kg;平均头发硒含量(0.199±0.066)mg/kg,各调查地分别为(0.178±0.060)mg/kg、(0.175±0.049)mg/kg、(0.227±0.085)mg/kg、(0.179±0.046)mg/kg和(0.234±0.058)mg/kg。除盐源县,其余调查地土壤硒含量均处于适量水平,粮食硒和发硒含量均低于本省2009年调查结果。结论此次调查中,凉山州平均土壤硒含量处于适宜水平,但分布不均;粮食硒和头发含量均处于较低水平,应持续优化补硒措施,以维持合适的人群硒营养水平。

土壤调理剂对生姜硒镉积累和品质安全的影响

为明确土壤调理剂对重金属污染土壤上生姜的营养品质和安全性的影响及作用机制,采用生姜土壤盆栽试验,比较研究了3种土壤调理剂(硅酸钾、麦饭石、贝壳粉)对土壤硒镉有效性以及生姜硒镉积累、生长发育和营养品质的影响。试验结果表明:3种土壤调理剂均能显著提高生姜硒含量,同时显著降低镉含量。与对照(不添加土壤调理剂)相比,施用0.2%硅酸钾调理剂效果最佳,分别使生姜地上部位和姜块硒含量提高了165.01%和111.36%,镉含量降低了71.96%和65.15%;另外,施用3种土壤调理剂可显著提高姜块产量、品质及养分吸收。与对照相比,产量提高了23.93%~67.67%,可溶性糖、可溶性蛋白和姜黄素含量分别提高了2.34%~6.00%、154.72%~602.83%和11.05%~33.43%,氮、磷、钾养分含量分别提高了10.28%~14.42%、24.62%~34.87%、28.81%~29.01%;施用3种土壤调理剂还可提高姜块过氧化物酶(POD)和过氧化氢酶(CAT)活性,降低丙二醛(MDA)含量;与对照相比,3种土壤调理剂增加土壤pH 0.35~0.53个单位,土壤有效态镉含量降低了16.92%~22.76%,有效态硒含量增加了3.60%~10.99%。研究表明,施用土壤调理剂能够降低土壤有效态镉含量、活化土壤有效态硒,从而降低生姜镉含量并提高硒含量和姜块营养品质,可实现镉污染土壤安全利用,保障生姜优质安全生产。

兴凯湖西部土壤-植物系统中硒含量特征、成因来源及迁移转化主控因素

硒及其有机化合物对生物体具有重要的生物活性和特殊的保健功能,开展富硒土壤硒成因来源和迁移转化研究,对富硒土地利用和富硒功能产品研发具有重要的科学和经济意义。基于区域地质特征、土壤数据和植物籽实数据,开展土壤硒空间分布和成因来源研究,运用地统计学、相关性、生物富集系数等方法探讨硒在土壤-植物系统中的迁移转化主控因素。土壤Se含量为0.11~0.70 mg/kg,均值为0.37 mg/kg,含量特征及空间分布主要受成土母质控制;富锦组黑色岩系是形成富硒土壤的物质基础和Se元素的最初来源,后期有利的古气候环境演化促进了黑色岩系的持续风化,为土壤提供了丰富的硒源;植物富集能力BCF水稻/土壤>BCF玉米/土壤,籽实Se平均含量为Se水稻>Se玉米,含量与土壤理化指标相关性揭示,硒在土壤-植物系统中迁移转化受土壤矿物组成及土壤环境等因素制约。土壤硒主要来源于富锦组黑色岩系及其风化物,硒在土壤-植物系统中迁移转化主控因素为粘土矿物的吸附/解析作用;划定天然富硒土地6550.68 hm^(2),为富硒土地科学利用和富硒功能产品开发提供地学依据,有效支撑服务地方经济发展和疾病预防。

南方红壤区典型母质发育土壤硒素特征及影响因素

为探究南方红壤区不同母质土壤硒素特征及理化性质对硒有效性的影响,以广西典型红壤区不同母质土壤为研究对象,通过测定硒形态特征及理化性质,并利用AMOS路径分析模型及土壤培养试验,量化了不同因子对不同母质土壤有效硒的影响。结果表明:南方红壤区不同母质土壤总硒含量均高于0.4 mg/kg,其中以花岗岩母质土壤总硒含量最高,以砂页岩母质土壤有效硒含量最高,且变幅最大。土壤硒形态主要以残渣态和有机结合态为主,不同形态硒含量由高到低均表现为:残渣态硒>有机结合态硒>铁锰氧化物结合态硒>交换态硒>可溶态硒。AMOS路径分析模型结果表明,影响不同母质土壤硒形态分配贡献的主要因素是全磷、有机质和pH,第四纪红色黏土母质土壤中的全氮及砂页岩母质土壤中的速效氮的影响也值得关注。利用贡献较大的理化因子开展土壤培养试验,外源理化因子添加后均在一定的时间及剂量条件下出现土壤有效硒含量最大值,且不同母质土壤获得的最佳因子条件不同。因此,不同土壤母质因土壤理化性质的不同,其硒形态特征存在较大差异,不同理化因子作用于土壤后,土壤硒会因土壤环境的变化而重新分配。

贵州黑色岩系和煤系地层发育的富硒黄壤中硒的空间分异特征

研究富硒土壤硒的分异特征对贵州富硒农业开发具有重要意义。本文以黔西南二叠纪煤系地层和遵义寒武纪黑色岩系地层中发育的黄壤为研究对象,对土壤的总硒含量、硒的形态分布、有效硒含量及影响因素进行了研究。结果表明,黑色岩系和煤系地层发育黄壤的总硒平均含量分别为0.76 mg/kg和0.99 mg/kg;两种地层发育黄壤中的硒元素(Se)以有机结合态、残渣态和铁锰氧化物结合态为主;有效硒平均含量分别为67.2μg/kg和71.8μg/kg,分别占其总硒的8.57%和6.98%,包括水溶态、可交换态及碳酸盐结合态的有效硒供给水平很低。黑色岩系地层发育的黄壤总体呈酸性(pH均值为5.88),其有效硒含量主要受有机质影响;煤系地层发育的黄壤总体呈中性(pH均值6.84),其有效硒含量主要受pH影响。黑色岩系和煤系地层发育的黄壤,其影响硒有效性的因素有显著差异。因此,在发展富硒农业时需因地制宜。

河北承德地区土壤硒元素地球化学特征、地质成因及其生态环境评价

【研究目的】查明承德地区土壤硒的分布特征及地质成因,为当地土壤硒的勘查及有效利用提供科学依据。【研究方法】通过地质调查查明该区成土母质类型,利用X-射线荧光光谱法、电感耦合等离子体发射光谱法、凯氏定氮法等获取了553个土壤样品及66件岩矿石样品中硒及多个元素的含量,并利用SPSS软件分析数据,结合地质作用分析地质成因。【研究结果】研究区成土母质大致分为9类,表层土壤中硒含量最小值为0.016mg/kg,最大值为0.743 mg/kg,平均值为0.17 mg/kg,土壤平均硒含量仅为全国土壤平均硒含量的1/2,处于缺乏等级。铁矿石、金矿石、铅锌矿石中硒含量均值分别为0.860 mg/kg、1.233 mg/kg、3.365 mg/kg,明显高于各类矿石的尾矿及围岩。【结论】承德地区土壤硒整体含量很低,主要决定于成土母质,分布特征受控于地质建造。富硒土壤区域集中在隆化县南部(A区)、承德市南部(B区)(双滦区、双桥区)、宽城县东部(C区)。C区属于“岩石风化型”,与含硒量高的原生碳酸盐岩+碳质泥岩地层组合有关;B区属于“成矿伴生型”,与铅锌矿成矿过程中硒与金属硫化物的伴生关系及硒与硫的替代关系有关;A区属于“河道沉积型”,与河道沉积过程中河湖冲动力驱动、有机质的吸附作用有关。承德南部富硒区域具有发展林果经济的天然优势,围场县处于低硒环境,是引发克山病等地方病流行的因素之一。

土壤-植物系统中硒的生物有效性及其影响因素研究进展

硒的生物有效性是决定硒在土壤-植物系统中转运、积累的关键因素,然而目前关于该方面研究进展还缺乏系统的总结和论述。本文结合赣南富硒脐橙调查研究结果,以硒在土壤-植物系统中的运移为切入点,系统总结和论述了硒在土壤-植物系统中的氧化-还原、吸收、转运过程,探讨了土壤理化性质、微生物、施肥、农艺管理和植物生长阶段等对硒生物有效性和迁移的影响,并提出未来硒的研究热点:土壤微生物活性与硒生物地球化学循环的耦合关系;植物生长、果实品质与硒代谢相关的分子机制;结合同位素示踪技术和薄膜扩散梯度(DGT)技术原位探究硒在生物地球化学中的归趋。本综述可为土壤硒生物有效性调控、植物体系中硒的有效积累和农艺生物强化富硒措施方面的研究提供理论参考。

蔬菜根系土壤硒镉含量与理化性质关系研究

以贵州省观山湖区土壤-蔬菜协同样为试材,采用调查采样方法,研究了蔬菜硒镉、土壤硒镉含量及主要理化性质,进一步了解蔬菜硒镉富集情况,明确主要土壤理化指标与土壤硒镉含量的关系,以期为富硒土壤资源的综合利用提供参考依据。结果表明:在各级理化性质分级下,土壤(0~20 cm)全硒平均含量均高于富硒土壤标准(0.4 mg·kg^(-1));采集的46件蔬菜样品镉含量均未超过食品安全国家标准《食品中污染物限量》(GB2762-2022)限量值,超标率为0%,镉的安全性较高,硒含量均未检出。土壤理化性质对硒、镉的地球化学行为有重要影响,土壤有机质、pH、碱解氮与土壤硒含量呈显著相关关系,土壤速效钾与土壤镉含量呈极显著相关关系,土壤有机质、pH、碱解氮与土壤硒之间分别呈幂函数、指数函数、线性函数关系,土壤速效钾与土壤镉含量之间呈线性函数关系。研究区存在“土壤富硒作物不富硒”的问题,究其原因是土壤总硒与有效硒的关系不明确,因此在今后的研究中探究土壤中硒的形态特征及生物有效性对富硒农产品的稳定生产具有重要意义。

海东市平安区土壤与农作物Se含量分布特征

为探究青海省海东市平安区的土壤及农作物的硒含量及富集特征,系统地采集分析了平安区七个乡镇152份0~50 cm深度土壤样品及1161份植物样品,采用氢化物-原子荧光光谱法测定土壤及作物硒含量。结果表明,平安区表层硒含量平均值为0.27 mg/kg,高于全国及世界土壤硒平均值,有75.36%的地区处于适量硒状态,且三合镇的土壤硒含量最高,古城乡最低,总体上各乡镇采集的0~10 cm、10~20 cm、20~30 cm、30~50 cm土层之间的硒含量差异不显著,但随土壤深度的增加,硒含量逐渐降低。在几种作物中,油菜的平均硒含量最高,达到富硒标准,小麦、玉米、豌豆、燕麦、马铃薯硒含量平均值均达到足硒标准,青稞和蚕豆在土壤硒含量较高的三合镇达到足硒标准以上。综合分析,土壤硒含量与相应的作物籽粒硒含量呈正相关,油菜、小麦、玉米硒的富集系数较高,对硒具有良好的吸收能力,因此适宜在相应的富硒地发展富硒农产品,豌豆、蚕豆、燕麦、青稞属于中等富硒作物,马铃薯的富集系数最小而变异系数最高,适合在硒含量较高的地方种植马铃薯。

广西玉林博白县富硒土壤重金属分布特征与来源分析

为推动地方绿色富Se产业发展和巩固脱贫成果,在广西壮族自治区玉林市博白县中北部连片农耕区采集表层土壤样品172件,农作物样品水稻100件、玉米30件和荔枝42件,利用统计学以及正定矩阵因子(PMF)模型分析了研究区土壤中Se和重金属元素的含量、空间分布特征及来源。结果表明,博白县表层土壤富Se率为42.08%,As、Cd、Cu、Hg、Pb和Zn超标率低,Cr和Ni不超标,土壤质量满足地方发展富Se农业的要求。空间分布特征显示,富Se土壤主要分布在径口镇、博白镇、亚山镇、顿谷镇和旺茂镇,土壤Se、As、Cr、Ni、Pb和Zn高值区与泥盆系东岗岭组和志留系连滩组地层分布一致,Cd、Cu、Ni、Pb和Zn在三滩镇明显富集。PMF分析结果表明,研究区土壤Se和重金属来源包括自然源(Se、Cr和Ni)、矿业源(Cd、Cu、Pb和Zn)、大气沉降来源(Hg)和农业源(As),各组来源的综合贡献率分别为29.52%、34.87%、23.15和12.45%。研究区水稻、玉米和荔枝的富Se率分别为90.0%、76.67%和2.38%,但水稻Cd超标率达24%,矿业活动是区域土壤Cd的主要来源,同时土壤整体呈强酸性~酸性,Cd的生物有效性高,导致水稻Cd含量较高。应加强工矿企业废渣、废水、废气排放的监管,开展土壤酸化治理或喷施富含Se元素的叶面阻隔剂,推动博白县绿色富Se水稻产业发展。