黔西南红土型金矿硬叶小金发藓对几种金属元素的吸收、富集特征

利用原子吸收法测定黔西南红土型金矿硬叶小金发藓(Pogonmon neesii(C.Muell)Dozy)植株及其土壤中的Au、Pb、Cu、、Zn、Ca、Mg、Hg和As等8种金属元素含量,并分析它们之间的相关性及植物对金属的富集能力.结果表明:硬叶小金发藓体内的金属元素含量普遍较高,对不同金属元素的吸收、富集具有较大的差异,Ca-Mg呈极显著正相关,Cu-Zn、Hg-As呈显著正相关.该植物对Hg和As均具有强烈的富集作用.     

张家湾子金矿苔藓植物物种多样性及其对重金属污染的监测

调查了贵州省张家湾子金矿苔藓植物,并利用原子荧光光谱仪AF-640和AAnalyst800原子吸收光谱仪,对重污染区、相对污染区和清洁区苔藓植物优势种及土壤基质6种重金属元素(Cu、Zn、Cd、Pb、Hg、As)含量进行测定.在该金矿共采集苔藓样品75份,鉴定为9科16属23种.优势科为丛藓科和真藓科,生活型主要有4种:矮丛集型、高丛集型、交织型和平铺型,矮丛集型以80.3％占绝对优势.重金属含量测定结果表明,该矿区受Hg、As、Cd污染严重;硬叶净口藓对Cd的富集系数为5.58,属于强烈富集;匐灯藓对Cd富集系数为1.64,属于相对富集.苔藓与土壤重金属含量呈正相关,苔藓植物能监测该矿区重金属污染.     

湖北铜山口铜矿五种藓类植物及其基质元素含量分析

利用原子吸收光谱仪对湖北铜山口铜矿5种藓类植物(北地对齿藓Didymodon fallax、尖叶对齿藓D.con-strictus、阔叶丛本藓Anoectongium clarum、双色真藓Bryum dichotomum和舌叶毛口藓Trichostomum sinochenii)及其生长基质中的Cu、Zn、Ca、Mg、Cd、Pb、Hg等7种元素进行测定及分析,并计算出富集系数。结果表明,铜山口铜矿这5种藓类植物体内及其生长基质中,Cu、Zn、Ca、Mg等4种元素含量较高;北地对齿藓对Cd有较强的富集能力,可以作为寻找Cd矿的特征植物;相对于其它4种藓类植物,双色真藓对Cu、Zn、Pb有较强的富集能力,可以作为寻找Cu矿、Zn矿、Pb矿的参考植物;舌叶毛口藓对Hg有一定的富集能力,可以作为寻找Hg矿的参考植物。在这5种藓类植物中,Cu-Zn、Zn-Pb、Mg-Pb在0.05水平上达到显著正相关,Cu-Mg、Zn-Mg在0.01水平上达到极显著正相关。     

镉胁迫下3种藓类植物抗氧化酶活性变化的比较研究

采用水培实验研究了重金属Cd对3种藓类植物尖叶拟船叶藓(Dolichomitriopsis diversiformis)、湿地匍灯藓(Plagiomnium acutum)和匍枝青藓(Brachythecium procumbens)的抗氧化酶系统(SOD、POD和CAT)的影响.结果表明,在1-100 mg·L-1的镉胁迫浓度范围内,Cd对3种藓类植物的SOD活性都具有显著的促进作用,SOD对Cd胁迫的种间敏感性顺序为尖叶拟船叶藓>湿地匍灯藓>匍枝青藓;3种藓类植物的POD和CAT活性对Cd胁迫均表现为先升后降,POD对Cd胁迫的种间敏感性顺序为匍枝青藓>湿地匍灯藓>尖叶拟船叶藓;高浓度Cd对CAT具有明显的抑制效应,CAT对Cd胁迫的种间敏感性顺序为湿地匍灯藓>尖叶拟船叶藓>匍枝青藓.在Cd长期胁迫下,SOD对3种藓类植物体内活性氧的清除起到关键作用,可作为藓类植物抗镉能力强弱的敏感生理指标;3种鲜类植物中匍枝青藓的抗镉能力最强,湿地匍灯藓次之,尖叶拟船叶藓最弱,并且这种抗性与cd在植物体内的积累成反相关.     

贵州烂泥沟金矿区苔藓植物及其生态修复潜力分析

对世界级的大型卡林型金矿一贵州贞丰烂泥沟金矿区的苔藓植物进行初步调查。258份标本经鉴定共有15科37属81种。丛藓科（Pottiaceae）、真藓科（Bryaceae）、牛毛藓科（Ditrichaceae）和珠藓科（Bartramiaceae）植物适于在该区生长。对金灰藓（Pylaisiella polyantha）、黄色真藓原变种（Bryum pallescens var．pdlescens）、牛毛藓（Ditrichum heteromallum）、阔叶小石藓（Weisia planifolia）、短叶小石藓（Weisia semipatlida）、红毛细羽藓（Cyrio-hypnum versicolor）6种植物及其基质中的9种重金属元素进行测定，基质中As的含量达到222．378mg kg^-1，为国家3级标准（40mg kg^-1）的5．56倍；Hg的含量达23．516mg kg^-1，为国家3级标准（1．5mg kg^-1）的15．68倍，污染状况比较严重。通过对富集系数的分析来看，每种苔藓植物对至少3种以上的复合重金属有一定的富集能力，可以作为复合重金属含量较高矿山的生态修复与重建的先锋植物。     

苔藓植物对青岛市大气重金属污染的生物监测作用

苔藓植物因具有独特的形态和生理特征, 对空气污染反应十分敏感, 已被广泛用于监测城市或地区的环境质量与变化。通过分析连续2年采自青岛市崂山区的苔藓植物体内重金属含量, 并与崂山土壤重金属含量相比较, 探讨苔藓植物对大气重金属污染物的积累和指示作用。结果表明, 苔藓植物体内重金属含量能够反映空气重金属污染程度和空气质量变化。在崂山广泛分布的毛尖紫萼藓(Grimmia pilifera)对空气中重金属Pb、Zn、Cu和Cd都有着很强的富集能力, 是一种很好的重金属污染指示植物。长叶鳞叶藓(Taxiphyllum taxirameum)、大灰藓(Hypnum plumaeforme)和深绿绢藓(Entodon luridus)在崂山分布较多, 对重金属的积累能力也较强, 可用来监测青岛大气重金属污染。该研究为评价青岛市空气重金属污染状况提供了一个有效的生物监测方法。     

贵州木油厂汞矿区4种藓类植物及其基质中重金属元素分析

通过对贵州木油厂汞矿区4种藓类植物(真藓、卵蒴真藓、羽枝青藓和圆枝粗枝藓)及其生长基质中的Cu、Zn、Ca、Mg、Cd、Pb、Hg、As 8种元素进行测定分析,以揭示藓类植物与生长基质中重金属元素及其污染程度的关系.结果表明:(1)贵州木油厂汞矿区藓类植物生长基质中Cu、Hg和As元素的平均含量分别是相应国标值的1.29倍、300倍和1.69倍,说明该矿区已受到Cu、Hg和As的污染,且Hg污染特别严重.(2)羽枝青藓的As、Zn、Cd和Pb含量均最高,圆枝粗枝藓的Cu、Ca、Mg和Hg含量均最高,对重金属具有较强的耐受性.(3)羽枝青藓和圆枝粗枝藓对Zn均强烈富集,其富集系数分别为6.14和3.364;羽枝青藓、卵蒴真藓和真藓对Pb均强烈富集,其富集系数分别为13.769、9.547和3.004;表明羽枝青藓对Zn和Pb的富集能力最强,可用于土壤Zn和Pb的污染治理.(4)4种藓类植物对Cu 的富集系数为0.915～1.184,卵蒴真藓和圆枝粗枝藓对Hg的富集系数分别为0.542和0.682,圆枝粗枝藓对As的富集系数为0.74,均为同一水平,表明4种藓类植物可指示其生长基质中Cu、Hg和As的含量.(5)元素间的相关分析显示,木油厂汞矿的Cd和As之间呈显著负相关(P＜0.05),表明两元素间有拮抗作用.     

浙江镜湖湿地3种菌根植物根部真菌群落多样性及对金属元素富集能力的研究

城市湿地（urban wetland）植物多样性水平高,并具有积极的净化和美化环境的作用。本研究以浙江绍兴镜湖城市湿地公园为研究样地,通过ICP-AES检测了人工园区和次生林土壤中几种金属元素（Al、Cr、Cu、K和Zn）的含量,比较不同类型的菌根植物——黑麦草（Lolium perenne L.）（AM）、六月霜（Monochasma sauatieri Franch）（AM）和乌饭树（Vaccinium bracteatum Thunb）（ERM）对金属元素的富集作用。通过高通量测序分析各宿主植物根部真菌群落的组成和结构,比较其对宿主植物金属富集能力的影响。结果表明：（1）人工园区土壤中5种金属元素的含量均显著高于次生林下的土壤;（2）乌饭树对Al的富集能力较强,黑麦草和六月霜富集Cr能力都较强;（3）3种植物根部真菌主要来自Ascomycota,而乌饭树根部Basidiomycota也是优势真菌,AM真菌在黑麦草和六月霜根部真菌群落结构中较少,而公认的ERM真菌Helotiales和Sebacinales在乌饭树根部真菌群落中的比例较高,且与所测金属元素无显著相关性。绍兴镜湖城市湿地公园次生林土壤环境保持良好。     

干旱半干旱地区生物结皮层藓类植物氨基酸和营养物质组成特征及适应性分析

通过对生长在干旱-半干旱地区的藓类体内的氨基酸组成及含量变化、营养元素含量变化和可溶性糖含量变化及藓类结皮土壤相应营养元素含量变化的分析,以揭示藓类的营养组成特征及对环境的适应性机制。研究样地选择在内蒙古鄂尔多斯高原的典型草原区和宁夏腾格里沙漠南缘的草原化荒漠区。通过实验,从藓类植物体内检测出17种氨基酸,表明其体内的氨基酸组成大部分与高等植物相同,其中天门冬氨酸、谷氨酸、丙氨酸、亮氨酸和精氨酸的含量最高,约占总氨基酸的50%。脯氨酸含量在所有氨基酸中处于较低水平,平均只占氨基酸总量的3.12%。草原化荒漠区与典型草原区分布真藓平均总氨基酸含量均大于土生对齿藓,两地区间真藓有10种氨基酸(包括脯氨酸)含量有显著性均数差异(p<0.05),而土生对齿藓只有脯氨酸有显著性差异(p<0.05)。赖氨酸、精氨酸含量在两个地区各种藓类体内有相对稳定的含量,没有显著差异,而脯氨酸的含量在同一地区没有显著的差异,但在不同地区却有显著性差异。藓类体内营养元素显著高于结皮层土壤,表明苔藓植物有很强的元素富集能力,其中N含量最高,P含量最低。不同种类植物体内营养元素Ca、Mg、K的含量存在差异,表明藓类植物对金属营养元素有很强的选择吸收能力。元素相对利用能力(植物/土壤),K最大,P最小,Ca、Mg因种类不同存在差异。N/P比率在草原化荒漠区分别为真藓10.25,刺叶赤藓13.59,土生对齿藓15.78;在典型草原区分别为真藓11.91,土生对齿藓10.55,盐土藓11.37,可知N、P在干旱区不是藓类植物生长的限制因子。元素之间的相关分析表明N和P,Ca和Mg明显相关(p<0.05),而K和Ca、Mg之间则显著负相关(p<0.01),表明K和Ca、Mg之间存在制约关系。可溶性糖和脯氨酸含量分析表明,随降雨量增加二者含量明显呈现递减趋势,说明脯氨酸、可溶性糖的含量与苔藓植物的抗旱性有一定的关系。     

满江红金属元素含量的种间差异及其富集特性研究

为揭示满江红属(Azolla Lam.)植物资源材料对金属元素吸收积累特性差异,该研究采用ICP-MS的方法,对8种21个满江红品系的12种金属元素含量进行测定分析,比较不同种类满江红中金属元素含量的差异及富集特性,通过主成分分析确定满江红属品系的特征金属,并采用聚类法对供试材料进行分类。结果表明:(1)满江红属植物中金属元素含量变异系数大于30%的有8种,其中Mo含量在品系间差异最大(127.73%),Ca含量在品系间差异最小(18.94%)。(2)满江红属植物对土壤中不同金属元素的富集能力不同,富集系数大小依次为Mn>Mg>Mo>K>Cd>Ca>1。(3)不同种满江红对金属元素K、Mg、Mn、Zn、Mo的富集能力存在显著差异(P<0.05)。(4)满江红的特征金属元素为Cd、Hg、Ca、Mn、Cu、Zn、K和Cr。(5)基于特征金属元素含量的聚类结果显示,当遗传距离为15时,可将21份满江红资源分为3类,与传统分类基本吻合,其中品系‘3006’和‘MH3-1’对重金属Cd、Cr和Hg的富集能力较强,聚为一类。研究认为,满江红对金属元素的富集存在种间差异,且这种差异可以作为满江红品种分类的参考依据。     

不同产地黄芩中无机元素含量及其与根际土壤无机元素的关系

药用植物中各无机元素含量的不仅影响药用植物的生长发育,也是药材有效成分的构成因子。通过对全国范围内16个不同产地(即居群)的92个野生黄芩(Scutellaria baicalensis Georgi)样本及其相应的根际土壤中10种无机元素含量的分析,发现不同产地黄芩及其根际土壤无机元素都有很大变异,且不同产地黄芩根际土壤中无机元素的变异远大于黄芩药材中无机元素的变异。总体来看,黄芩中Mg(9级)含量较其他植物含量高;P(1级)、K(2级)、Mn(3级)含量与其他植物相比处处较低水平;黄芩对Sr(富集系数达到3.52)有较强富集。并且通过无机元素分布曲线分析建立了无机元素指纹谱,主成分分析筛选出黄芩主要特征无机元素为Mg、K、Ca、Fe、Zn。本研究还表明,黄芩对各元素的吸收能力受产地的影响较大,提示黄芩对无机元素的吸收与各产地根际土壤无机元素有一定关联性。     

南极地区苔藓剖面中地球化学元素的营养运移特征

对采自南极的苔藓剖面上各层苔藓的地球化学元素含量进行分析,得到以下的初步结论：地球化学元素在苔藓剖面上的分布具有很强的继承性;不同地球化学元素在苔藓剖面上的分布特征不同,这与元素在苔藓中的营养特征有关,研究发现元素Ca在苔藓体内,异常活跃,它极易被累积在新鲜苔藓体内,Zn也是苔藓易吸收的元素;地球化学元素在老新苔藓中的转移能力不同;底层苔藓的元素转移能力很低,中层苔藓中元素维持在基本平衡的状态,上层苔藓中元素的转移系数较大。     

The Iron and Manganese Content of Plants present in the Natural Vegetation of the English Lake District

Estimations of iron and manganese have been made on ninety-sixspecies of plants (including fungi, mosses, ferns, and floweringplants) from a wide range of natural habitats. These plantsnormally contain more of both elements than is usual in cropplants grown on cultivated fields, probably owing to the greateracidity and humus content of the natural soils. The amount presentvaries with the individual species, the plant group, and thetype of habitat. While some species and groups tend to takeup iron or manganese selectively, both the absolute amountsand the ratio of the two elements may vary widely without apparentinjury to the plant. In general, these elements accumulate mostin aquatic plants growing on organic and anaerobic muds. Thelowest amounts are found in species characteristic of flushedbrown earths and in plants from drained acid peats. The fruitingbodies of fungi contain little of either element.     

Lo Sviluppo Del Sistema Conduttore Nelle Plantule Di “Opuntia Vulgaris„ Mill.

Aquatic mosses and sediments were monitored along Topolnitsa River Basin (Bulgaria), copper-producing and mining region. Six mosses were applied as biomonitors: Bryum turbinatum, Fontinalis antipyretica, Leptodictyum riparium, Platyhypnidium riparioides, Rhizomnium punctatum and Sciuro-hypnum plumosum. Background levels were determined for both plants and fine fraction of sediments collected from an unpolluted site. Contamination factors (CFs) and metal pollution index at each site were presented. The highest sediment enrichment with toxic elements was found in Zlatishka River. Strong increase above background levels showed all 13 heavy metals and toxic elements in biomonitors from stations at Zlatishka and Pirdopska rivers. The two moss species adopted as biomonitors for the first time – Bryum turbinatum and Rhizomnium punctatum – showed high CFs for several heavy metals and contributed to chemical pollution pattern assessment. The parallel use of mosses and sediments in the monitoring study, as well as the applied statistical tools, led to the conclusion that mosses as higher plants revealed pollution patterns not detected by sediments. Results also showed that in a seriously contaminated aquatic environment, which requires rapid assessment, different moss species can be applied for water-monitoring purposes to present preliminary picture of pollution patterns and to direct further studies.     

Chemical composition of reindeer forage plants in Svalbard and Norway

Several of the most important reindeer forage plants in Svalbard were analysed for content of minerals (Na, K, P, Ca, Mg, S, Cl, Fe, Cu, Mn, Zn, Mo and Co) and for content of ash, crude protein, crude fiber, ether extracts and nitrogen free extracts. Some forage plants were also examined in in vitro digestibility trials. The results were compared with results from similar analyses of alpine mountain plants from southern Norway. Also freshly voided fecal samples were analysed for the same components as the forage plants.
The Svalbard vegetation had a higher content of Na, Ca, Mg, Cl, Fe and Co, than similar plants from Southern Norway. The content of other elements examined seemed to be more equal in Norway and on Svalbard. Within the Svalbard area plants growing in limestone areas had the highest content of calcium and magnesium. Also plants growing on manured soil below bird cliffs appeared to have high nutritional value. It is furthermore concluded that the closeness to the sea as well as the occurrence of several plants with high mineral content, gave the Svalbard reindeer the possibility to further improve their mineral balance compared with continental reindeer. Also the dietary shift from lichens as a major dietary component in Norway, to mosses on Svalbard, may increase mineral intake, but may also have an inferior effect on digestibility.
Although balance experiments and carcass analyses of minerals in Svalbard reindeer are missing, it is concluded that Svalbard reindeer apparently had adequate intake of most mineral elements. In spite of low standing biomass of reindeer forage plants, the quality of the vegetation seemed to compare favourably with continental reindeer pasture.     

陆地生态系统植物多样性对矿质元素输入的响应

人类活动的加剧改变了陆地生态系统矿质元素(如氮、磷、钾等)循环的速度和方向,并且对生态系统的结构和功能也产生重要影响。如今,矿质元素输入量的改变及其产生的后续效应对陆地生态系统生物多样性的影响备受学者们的关注。从4个方面综述了全球氮沉降背景下主要矿质元素输入的改变对陆地植物多样性的影响及其机理:1)矿质营养元素限制的概念、确定方法以及与植物多样性的耦合关系;2)概述了氮、磷、钾等主要矿质元素输入对陆地植物多样性的影响:主要表现为负面效应;3)探讨了矿质元素输入影响植物多样性的可能机制,包括生态系统水平上的机制(如竞争排斥、酸化铝毒、物种入侵、同质性假说,间接诱导机制等)和植物个体水平上的机制(如元素失衡和环境敏感性增加等);4)根据目前研究现状,指出了已有研究的局限性,分析了未来可能的研究方向和重点。     

杨桃对土壤重金属元素的吸收与富集

通过对廉江市杨桃（Averrhoa carambola）绿色食品基地不同土质、不同树龄的土壤样品及果实样品重金属元素Cd、Hg、Cu、Pb、As、Cr含量的检测,分析杨桃果实对土壤重金属元素的吸收与富集作用。结果表明：①果园土壤pH≤5．50,为酸性土壤,杨桃果园土壤和鲜果中的重金属含量均符合我国水果绿色食品生产的质量要求;②杨桃对土壤重金属的吸收因土壤质地和重金属元素的种类不同而异;③杨桃对重金属元素的富集,以Cd元素为最强,富集系数高达0．947,各种重金属的富集系数按大小排序为：Cd（0．947）〉Hg（0．098）〉Cu（0．023）〉Pb（0．003）〉As（0．001）：Cr（0．001）。     

Relationships among testate amoebae (Protozoa), vegetation and water chemistry in five Sphagnum-dominated peatlands in Europe

To study the relationships between groups of organisms and the degree to which these relationships are consistent across major climatic gradients, we analysed the testate amoeba ( Protozoa ) communities, vegetation and water chemistry of one peatland in five countries: Switzerland, The Netherlands, Great Britain, Sweden and Finland, as part of the BERI (Bog Ecosystem Research Initiative) project. The relationships between the different data sets and subsets were investigated by means of detrended correspondence analysis, canonical correspondence analysis and Mantel permutation tests. The comparison of data on vegetation and testate amoebae showed that inter-site differences are more pronounced for the vegetation than for the testate amoebae species assemblage. Testate amoebae are a useful tool in multi-site studies and in environmental monitoring of peatlands because: (1) the number of species in Sphagnum -dominated peatlands is much higher than for mosses or vascular plants; (2) most peatland species are cosmopolitan in their distributions and therefore less affected than plants by biogeographical distribution patterns, thus differences in testate amoeba assemblages can be interpreted primarily in terms of ecology; (3) they are closely related to the ecological characteristics of the exact spot where they live, therefore they can be used to analyse small-scale gradients that play a major role in the functioning of peatland ecosystems. This study revealed the existence of small-scale vertical gradients within the vegetation and life-form niche separation in response to water chemistry. The deep-rooted plants such as Carex spp. and Eriophorum spp. are related to the chemistry of water sampled at or near the ground water table, whereas the mosses are not. Testate amoebae were shown to be ecologically more closely related to the chemistry of water sampled at or near the water table level and to the mosses than to the deep-rooted plants.     

Global gradients in moss and vascular plant diversity

Knowledge on the distribution and hotspots of different taxon groups is indispensable for improving the state of biodiversity protection. Our aim was to determine if the relations between major environmental factors and species richness of two plant groups, mosses and vascular plants differ on a global scale. The dependence of species richness on environmental factors in 50 regions, covering 17 % of the global terrestrial territory, was analysed with SAS statistical software. Species richness of vascular plants increases significantly towards the equator, but for mosses the increase is not significant. Species richness of mosses and vascular plants are significantly positively correlated only in the near equator zone. Although there were similarities in the trends of mosses and vascular plant diversities at a global scale, their relations with some factors differ with distance from the equator. The effect of precipitation on species richness is similar for both plant groups, but coastline length has a significant positive influence only on moss richness, whereas species richness of vascular plants was related strongly to area and energy input. Therefore, effective conservation policy at both local and global scale demands consideration of all diversity drivers of different taxon groups.