土壤中十溴二苯乙烷(DBDPE)的植物吸收传输特征及微观机制研究

采用温室土培实验,研究了土壤中新型溴代阻燃剂十溴二苯乙烷（DBDPE）在不同种属植物中的吸收和传输特征,以及植物脂的影响作用;进一步应用计算模拟的手段解析了植物载脂蛋白与DBDPE的分子间相互作用,以阐明DBDPE的植物吸收传输的微观机制.结果表明,在玉米、小麦和黄瓜3种植物的根和地上部均检测到了DBDPE,根中DBDPE的含量高出地上部1~2个数量级.植物中累积的DBDPE量随时间的变化存在明显的生长稀释效应（p<0.05）.DBDPE的根吸收和茎向传输表现出植物种属间的显著差异（p<0.05）,根富集因子（RCF）顺序为黄瓜（0.30~0.57） > 小麦（0.10~0.39） > 玉米（0.03~0.26）,而传输系数（TF）为小麦（0.17~0.20） > 玉米（0.16~0.19） > 黄瓜（0.04~0.07）.DBDPE的根吸收量及RCF值与植物根脂含量成显著正相关关系（r=0.94,p<0.01;r=0.98,p<0.01）;其地上部累积量及TF值与植物地上部脂含量显著正相关（r=0.77,p<0.05;r=0.94,p<0.05）,但与植物根脂含量呈显著负相关关系（r=-0.74,p<0.05;r=-0.76,p<0.05）,说明脂是控制植物吸收和传输DBDPE的重要组分.分子对接的结果显示,DBDPE能键合进入3种植物载脂蛋白的活性区域并与载脂蛋白特异性的活性位点作用,且DBDPE与载脂蛋白的结合方式及结合能力存在植物种属的显著差异,两者的结合强弱与根吸收DBDPE能力的顺序一致,印证了实验结果.本研究有助于理解植物中DBDPE的吸收传输特征及机制,可为深入认识DBDPE的陆生生态环境行为提供重要依据.     

Plant development in the absence of epiphytic microorganisms

Microorganisms (bacteria, fungi) are common residents of the roots, stems and leaves of higher plants. In order to explore the dependency of plant development on the presence of epiphytic microorganisms, the achenes (seeds) of sunflower (Helianthus annuus L.) were sterilized and germinated under aseptic conditions. The sterility of the seedlings was determined with the agar impression method. In seedlings from non-sterile seeds (control) that were likewise raised in a germ-free environment, all plant organs investigated (stem, cotyledons and primary leaves) were contaminated with bacteria. Hypocotyl elongation was not affected by epiphytic microorganisms. However, the growth rates of the cotyledons and primary leaves were higher in sterile seedlings compared with the control. The implications of this differential inhibition of organ development by epiphytic bacteria that are transmitted via the outer surface of the seed coat are discussed. We conclude that epiphytes in the above-ground phytosphere are not necessary for the development of the sunflower seedling.     

Metals and metalloid bioconcentrations in the tissues of Typha latifolia grown in the four interconnected ponds of a domestic landfill site

The uptake of metals in roots and their transfer to rhizomes and above-ground plant parts (stems, leaves) of cattails (Typha latifolia L.) were studied in leachates from a domestic landfill site (Etueffont, France) and treated in a natural lagooning system. Plant parts and corresponding water and sediment samples were taken at the inflow and outflow points of the four ponds at the beginning and at the end of the growing season. Concentrations of As, Cd, Cr, Cu, Fe, Mn, Ni and Zn in the different compartments were estimated and their removal efficiency assessed, reaching more than 90% for Fe, Mn and Ni in spring and fall as well in the water compartment. The above- and below-ground cattail biomass varied from 0.21 to 0.85, and 0.34 to 1.24 kg dry weight/m², respectively, the highest values being recorded in the fourth pond in spring 2011. The root system was the first site of accumulation before the rhizome, stem and leaves. The highest metal concentration was observed in roots from cattails growing at the inflow of the system''s first pond. The trend in the average trace element concentrations in the cattail plant organs can generally be expressed as: Fe > Mn > As > Zn > Cr > Cu > Ni > Cd for both spring and fall. While T. latifolia removes trace elements efficiently from landfill leachates, attention should also be paid to the negative effects of these elements on plant growth.     

Assembly and loss of the polar flagellum in plant-associated methylobacteria

On the leaf surfaces of numerous plant species, inclusive of sunflower (Helianthus annuus L.), pink-pigmented, methanol-consuming, phytohormone-secreting prokaryotes of the genus Methylobacterium have been detected. However, neither the roles, nor the exact mode of colonization of these epiphytic microbes have been explored in detail. Using germ-free sunflower seeds, we document that, during the first days of seedling development, methylobacteria exert no promotive effect on organ growth. Since the microbes are evenly distributed over the outer surface of the above-ground phytosphere, we analyzed the behavior of populations taken from two bacterial strains that were cultivated as solid, biofilm-like clones on agar plates in different aqueous environments (Methylobacterium mesophilicum and M. marchantiae, respectively). After transfer into liquid medium, the rod-shaped, immobile methylobacteria assembled a flagellum and developed into planktonic microbes that were motile. During the linear phase of microbial growth in liquid cultures, the percentage of swimming, flagellated bacteria reached a maximum, and thereafter declined. In stationary populations, living, immotile bacteria, and isolated flagella were observed. Hence, methylobacteria that live in a biofilm, transferred into aqueous environments, assemble a flagellum that is lost when cell density has reached a maximum. This swimming motility, which appeared during ontogenetic development within growing microbial populations, may be a means to colonize the moist outer surfaces of leaves.     

Factors affecting airborne monocyclic aromatic hydrocarbon uptake by plants

Three factors influencing foliar uptake of monocyclic aromatic hydrocarbons (MAHs; benzene, toluene, ethylbenzene, xylenes) in situ were investigated. The first factor, the plant species, was found to determine absorption pattern and concentrations. Secondly, time variation studies showed that response of leaf concentrations to small changes in air concentrations only occurs after several days or weeks, whereas adaptation to a much higher level of air pollution takes several months. Thirdly, MAH leaf concentrations were observed to be dependent on mean air pollution at the sampling site. Bioconcentration factors BCF_vs (g m⁻³ of wet leaf/g m⁻³ of air) for MAHs in Pseudotsuga menziesii (Mirb.) Franco leaves were determined to range from 2.7 × 10⁴ to 4.7 × 10⁵.     

4种浮床植物吸收水体氮磷能力试验研究

选取美人蕉、黄菖蒲、再力花和千屈菜4种常见植物作为研究对象,建立淀山湖富营养化防治植物浮床试验工程,对其生长特性和氮磷吸收能力进行试验研究. 结果表明,采用上下层尼龙网固定种植方式有利于浮床植物的快速生长繁殖,美人蕉和再力花的成活率均为83.33%,高于千屈菜的76.67%和黄菖蒲的53.33%. 11月收割时美人蕉和再力花的分蘖数分别达到64株和78株,生物量（鲜重）分别为32.0 kg/株和38.6 kg/株. 美人蕉和再力花体内氮磷含量分布均为茎叶>根系,美人蕉茎叶和根系单位干物质量中氮、磷含量比分别为1.40和1.21,再力花则分别为1.59和1.08. 植物体内的氮磷累积量差异主要来自于生物量的差异,再力花对氮的吸收能力最强,收割时氮获得量达到457.11 g/m²,美人蕉对磷的吸收能力最强,收割时磷获得量达到41.29 g/m²,美人蕉茎叶氮、磷吸收量分别为根系的2.17倍和1.86倍;再力花分别为1.73倍和1.17倍. 美人蕉和再力花可以作为淀山湖水体富营养化防治的浮床栽培备选植物来进行推广应用.     

美洲商陆和籽粒苋对接种伯克氏菌的生理生化响应及其对富集铯的影响

利用盆栽试验研究一株具有重金属耐性的伯克霍尔德氏菌(Burkholderia sp.D54)对美洲商陆和籽粒苋生长及对铯富集的影响.结果表明,接种菌株D54,美洲商陆和籽粒苋总干物重分别比对照处理增加19.8%～33.4%和22.9%～76.6%,美洲商陆和籽粒苋地上部铯含量分别增加4.9%～22.4%和8.1%～19.4%,根中铯含量分别增加6.8%～15.7%和1.1%～10.8%.同时,接种微生物还增加了植物对钾的吸收,提高供试植物的光合反应速率、气孔导度、蒸腾速率和水分利用率,增加铯胁迫条件下植物的抗氧化酶CAT、POD、SOD的活性,降低了MDA的含量.     

能源植物修复镉污染土壤对根际细菌网络结构的影响

选取油脂类能源植物大豆和碳水化合物类能源植物玉米,采用高通量测序方法研究大豆、玉米修复Cd污染土壤过程中根际土壤细菌群落组成,基于高通量测序数据采用分子生态网络分析细菌相互作用.结果表明,50 mg·kg-1Cd污染土壤中两种植物根部Cd浓度和积累量最高,转移系数TF分别为玉米0.78和大豆0.35.基于细菌16S r RNA基因的群落分析表明,大豆、玉米根际土壤细菌主要包括Proteobacteria(变形菌门)、Acidobacteria(酸杆菌门)31个门细菌组成,大豆、玉米种植均能影响土壤细菌群落组成,能影响Candidate division TM7 norank、Acidimicrobiales norank、Sphingomonas等丰度.分子生态网络分析表明种植大豆和玉米增加了细菌之间的相互作用,导致其网络结构更为复杂,关键细菌从不种植物处理的1个增加到种植大豆的6个和种植玉米的10个.     

Rhizobium sp.W33对不同植物吸收铜和根际分泌物的影响

通过盆栽试验,采用1株植物促生细菌Rhizobium sp.W33接种黑麦草、狼尾草、高羊茅、紫花苜蓿、猪屎豆、油菜和印度芥菜等7种不同植物,考察了Cu胁迫下菌株对植物生物量、Cu含量和根际土壤中分泌物的影响,并筛选根瘤菌-植物联合修复重金属污染土壤的组合体系,以期初步探明细菌-植物联合修复重金属污染土壤的机制.结果表明,接种Rhizobium sp.W33后,有5种植物的干重增加了11%~56%,增加幅度为印度芥菜黑麦草高羊茅狼尾草油菜,紫花苜蓿和猪屎豆的干重下降.黑麦草、狼尾草、高羊茅和猪屎豆根内Cu含量接近或超过1000mg·kg-1,Cu大量积累在植物根部.Rhizobium sp.W33能够显著促进黑麦草吸收Cu(p0.05),并提高其对Cu的富集系数和转移系数,增加根部和地上部的Cu总量.苹果酸是供试植物-细菌联合修复Cu污染土壤的主要有机酸种类,接种根瘤菌W33后黑麦草、狼尾草根际的苹果酸和水溶性糖含量降低,过氧化氢酶活性增加,其中,苹果酸、水溶性糖含量与黑麦草中Cu含量呈显著相关性(p0.05).因此,根瘤菌W33-黑麦草联合体系修复重金属Cu污染土壤的效果最好,具有应用于重金属Cu污染土壤稳定修复的潜力.     

Screening of endophytic bacteria against fungal plant pathogens

Bacterial endophytes were found from 6 plant leaves among 35 plant leaves screened. Two of the isolated bacteria showed antagonistic activity against fungal plant pathogens. An isolate named KL1 showed the clear inihibition against plant pathogens, Fusarium oxysporum and Rhizoctonia solani, on PDA as well as TSA plate. Supernatant of the bacterial culture also showed the clear inhibition against the fungal growth on the plate and the antibiotic substance was identified as iturin A by HPLC analysis. KL1 was identified as Bacillus sp. from the 16S rRNA gene analysis. Very thin hyphae of R. solani was miccroscopically observed when the fungus was co-cultivated with KL1.     

接种丛枝菌根真菌对蜈蚣草吸收铀的影响

采用盆栽土壤实验,模拟铀(uranium,U)污染土壤,以蜈蚣草(Pteris vittata L.)为研究材料,每盆接种丛枝菌根真菌地表球囊霉(Glomus versiforme,Gv)30 g,探索蜈蚣草菌根对U污染土壤不同时间段的修复效果.结果表明,蜈蚣草菌根侵染率2013年9月最低为57.14%,2014年3月最高为75.20%,呈先上升后下降的年周期变化规律;同一时期蜈蚣草的生物量(干重)Gv组显著高于CK组,根系最为明显;接种Gv组蜈蚣草各器官总U含量均显著高于CK组,且被吸收的U主要固定在根部,Gv组根部总U含量均高于同一时期CK组;接种Gv组基质中总U含量小于CK组,其中接种Gv后蜈蚣草对铁锰氧化态和硫化物态U的吸收效果最好;基质中各形态U随培养时间的延长含量均呈下降趋势.接种Gv组比CK组富集系数大,且均大于1;菌根侵染率与富集系数呈显著正相关关系.以上结果说明接种Gv促进蜈蚣草对U的吸收,因此,蜈蚣草丛枝菌根真菌共生体对治理U污染土壤有良好的应用前景.     

废弃尾矿库15种植物对重金属Pb、Zn的积累和养分吸收

在废弃的铅锌尾矿库进行人工植被恢复试验.对3年生15种植物重金属积累和养分吸收特性的研究表明,植物对土壤重金属和养分的吸收积累因植物种类、部位、金属种类和种植时间的不同而有显著差异.树木不同器官Pb质量浓度高低的总趋势为根〉叶〉茎,部分树种Zn质量浓度表现为叶〉根和茎;在15种参试植物中,加拿大紫荆根系Pb和Zn质量浓度均处于最高水平（分别为1 803 mg.kg-1和2 120 mg.kg-1）,盐肤木具有最高的茎枝Pb、叶片Pb和Zn质量浓度（分别为280、546和1 507 mg.kg-1）,旱柳具有最高的茎枝Zn质量浓度（729 mg.kg-1）和较高的叶片Zn质量浓度（1 153 mg.kg-1）.枫香、紫花苜蓿对Pb,旱柳、盐肤木、紫花苜蓿对Zn的转移系数TF值均〉1.植物Pb的富集系数BCF值均小于0.17,旱柳、盐肤木、紫花苜蓿Zn的BCF值达0.37～0.43.固氮植物体内N含量显著高于其它植物,火炬树、臭椿对P和夹竹桃对K的吸收积累能力强.随着种植时间的增加,植株体内有重金属质量浓度增加、营养元素含量下降的趋势.盐肤木、旱柳等重金属积累树种及紫穗槐、紫花苜蓿、截叶胡枝子、桤木等固氮植物在铅锌尾矿治理中具有应用前景.     

Effect of chromium on growth attributes in sunflower (Helianthus annuus L.)

Heavy metal soil pollution takes place when the metal concentration of soil exceeds natural background level and causes ecological destruction and deterioration of the environment. In the present study, a pot experiment was conducted to evaluate the effect of chromium-contaminated soil in sunflower (Helianthus annuus L.) growth attributes. Three different levels of chromium (Cr) i.e., 20, 40, and 60 mg/kg were applied to three varieties of sunflower (G-3, G-9, and G-59). The results of morphological, chemical, and yield parameters were recorded at crop maturity. The result showed that germination, root, and shoot lengths were decreased with increase in Cr concentrations. A gradual decrease was observed for various morphological parameters like root fresh and dry weights, shoot fresh and dry weights, and plant height with increase in Cr levels. A comparison among Cr treatments obtained a significant decrease in yield parameters as achenes/capitulum, achenes/plant, and 100 achenes weight in three varieties. Cr was significantly absorbed by roots but its transport to other parts of plants was slow, and uptake in seeds was much lower than in roots and shoots.     

产多胺细菌提高小麦Cd抗性和消减Cd吸收机制

为了探究重金属固定植物促生细菌强化作物消减对重金属的吸收及其机制,以产多胺细菌Enterobacter bugandensis YX6和小麦为研究对象,通过水培试验研究Cd胁迫下菌株YX6对小麦生长和Cd吸收以及Cd在小麦根系中亚细胞分布的影响,同时借助非标记蛋白质组学技术研究菌株YX6对小麦根系蛋白质表达的影响.结果表明,与单独3 mg·L^-1Cd处理相比,Cd胁迫下接种菌株YX6显著提高了小麦根（42.71%）和叶片（82.83%）的干重,显著降低了小麦根（48.56%）和叶（61.41%）中Cd的含量.同时,菌株YX6的接种显著提高了小麦根和叶中多胺的含量,进而增强了小麦对Cd的抗性.此外,YX6+Cd处理组中小麦根细胞器和可溶性部分中Cd的比例显著低于单独Cd处理中的比例,而细胞壁中Cd的比例则要高于单独Cd处理中的比例.非标记蛋白质组学显示,Cd胁迫下菌株YX6提高了小麦根系中与DNA修复（蛋白质-DNA复合物和DNA包装复合物）和激素（脱落酸和茉莉酸）合成相关蛋白质的表达,从而提高了小麦对Cd的抗性和消减Cd吸收.结果可为阐明产多胺细菌消减小麦Cd吸收的分子机制和保障小麦安全生产提供科学依据和技术途径.     

不同作物根系多环芳烃吸收特征差异的比较研究

为选育不/少或超量吸收多环芳烃(PAHs)的植物品种进而进行农产品的安全生产和PAHs污染环境的植物修复,以菲为PAHs的代表物,比较了水培条件下3种常见农作物(大豆、小麦、胡萝卜)根系吸收菲的动力学特征差异.结果表明,3种作物根系对水培液中的菲有明显的吸收和累积作用,且菲的吸收量随时间延长而增加,整个吸收过程可分为快速吸收和慢速吸收2个阶段;3种作物根系菲吸收能力的大小为大豆>胡萝卜>小麦;作物根系吸收菲量与吸收时间的关系可以用Elovich方程拟合,大豆、胡萝卜和小麦根系菲吸收速率常数分别为4.31、4.10和2.84 mg.(kg.h)-1;作物根系菲吸收的动力学曲线可用米氏方程表征,大豆、胡萝卜和小麦根系菲的Km值分别为0.117、0.124和0.540 mg.L-1;根系菲吸收会导致营养液pH升高,pH升高的趋势和吸收速率常数k与Km值相对应,且与3种作物根系吸收能力的大小一致.因此可用根系吸收速率常数k、米氏常数Km值和水培液pH的变化表征作物根系吸收PAHs的能力差异,且从受影响因素的多寡角度考虑,吸收速率常数k和米氏常数Km较pH变化更适合.     

A2O工艺活性污泥中可培养丝状细菌的多样性

活性污泥法是应用最广泛的污水处理方法之一,但是由于丝状菌过度繁殖而引发的污泥膨胀是制约其发展的重大难题.本研究从A2O工艺城市污水处理系统的膨胀期活性污泥中分离培养出17株丝状细菌.对各菌株进行了16S rDNA测序和系统发育树分析,结果表明,这些分离的可培养丝状细菌均属于链霉菌属;利用rep-PCR指纹图谱技术进一步分析了所得菌种属内多样性,显示出活性污泥中链霉菌存在丰富的多样性.由于这些可培养丝状细菌与引起污泥膨胀的优势丝状菌(微丝菌)生理特征差别较大,不会在污水处理系统中过度繁殖,本研究向活性污泥中投加一定量的链霉菌分离菌株,发现部分菌株对污泥的沉降性能有明显改善作用,为污泥膨胀的防控提供了新的思路.     

Profile of the culturable microbiome capable of producing acyl-homoserine lactone in the tobacco phyllosphere

Bacterial populations coexisting in the phyllosphere niche have important effects on plant health. Quorum sensing (QS) allows bacteria to communicate via diffusible signal molecules, but QS-dependent behaviors in phyllosphere bacterial populations are poorly understood. We investigate the dense and diverse N-acyl-homoserine lactone (AHL)-producing phyllosphere bacteria living on tobacco leaf surfaces via a culture-dependent method and 16S rRNA gene sequencing. Our results indicated that approximately 7.9%-11.7% of the culturable leaf-associated bacteria have the ability to produce AHL based on the assays using whole-cell biosensors. Sequencing of the 16S rRNA gene assigned the AHL-producing strains to two phylogenetic groups, with Gammaproteobacteria (93%) as the predominant group, followed by Alphaproteobacteria. All of the AHL-producing Alphaproteobacteria were affiliated with the genus Rhizobium, whereas the AHL-producing bacteria belonging to the Gammaproteobacteria mainly fell within the genera Pseudomonas, Acinetobacter, Citrobacter, Enterobacter, Pantoea and Serratia. The bioassays of supernatant extracts revealed that a portion of the strains have a remarkable AHL profile for AHL induction activity using the two different biosensors, and one compound in the active extract of a representative isolate, NTL223, corresponded to 3-oxo-hexanoyl-homoserine lactone. A large population size and diversity of bacteria capable of AHL-driven QS were found to cohabit on leaves, implying that cross-communication based AHL-type QS may be common in the phyllosphere. Furthermore, this study provides a general snapshot of a potential valuable application of AHL-producing bacteria inhabiting leaves for their presumable ecological roles in the phyllosphere.     

Nickel accumulation and its effect on biomass, protein content and antioxidative enzymes in roots and leaves of watercress （Nasturtium officinale R. Br.）

In order to understand its response towards nickel stress, watercress (Nasturtium o cinale R. Br.) was exposed to nickel (1–25 mg/L) for 1, 3, 5 and 7 days. The accumulation and translocation of nickel were determined and the influence of nickel on biomass, protein content and enzymatic antioxidants was examined for both roots and leaves. It was determined that N. o cinale could accumulate appreciable amounts of Ni in both roots and leaves. Nickel accumulated particularly in the roots of plants. Biomass increased at low nickel concentrations but certain measurable change was not found at high concentrations. Under stress conditions the antioxidant enzymes were up-regulated compared to control. An increase in protein content and enzyme activities was observed at moderate exposure conditions followed by a decline at both roots and leaves. The maximum enzyme activities were observed at di erent exposure conditions. Our results showed that N. o cinale had the capacity to overcome nickel-induced stress especially at moderate nickel exposure. Therefore, N. o cinale may be used as a phytoremediator in moderately polluted aquatic ecosystems.     

Uptake of NO,NO2 and O3 by sunflower (Helianthus annuus L.) and tobacco plants (Nicotiana tabacum L.): dependence on stomatal conductivity

The uptake of NO, NO₂ and O₃ by sunflowers (Helianthus annuus L. var. giganteus) and tobacco plants (Nicotiana tabacum L. var. Bel W3), using concentrations representative for moderately polluted air, has been determined by gas exchange experiments. Conductivities for these trace gases were measured at different light fluxes ranging from 820 μEm⁻²s⁻¹ to darkness. The conductivities to water vapor and the trace gases are highly correlated. It is concluded that the uptake of NO, NO₂ and O₃ by sunflowers and tobacco plants is linearly dependent on stomatal opening. While the uptake of NO is limited by the mesophyll resistance, the uptake of NO₂ is only by diffusion through the stomata. Loss processes by deposition to the leaf surfaces are more pronounced for O₃ than for NO and NO₂.     

不同磷石膏添加量与接种菌根对玉米生长及磷、砷、硫吸收的影响

通过盆栽模拟试验研究了不同磷石膏（PG）添加量（0、20、40g·kg-1）和接种3种丛枝菌根真菌（Glomus mosseae（GM）、Glomus aggregatum（GA）、Diversispora spurcum（DS））对玉米生长及其磷、硫、砷吸收的影响.试验结果表明：随磷石膏添加量的提高,土壤有效磷、有效...