铝和锰对外生菌根真菌生长、养分吸收及分泌作用的影响

在强酸性土壤和铝锰矿墟上,铝和锰是影响森林生长和植被恢复的主要限制因子,研究它们对外生菌根真菌的影响,筛选优良的抗性菌株,可为开展污染土壤生物修复提供技术支撑及理论依据.试验采用纯培养技术研究了Al3+、Mn2+单独或共存对褐环乳牛肝菌13(Suillus luteus 13,Sl 13)、土生空团菌04(Cenococcum geophilum 04,Cg 04)、彩色豆马勃715(Pisolithustinctorius 715,Pt 715)这3株外生菌根真菌生长、养分吸收、有机酸分泌的影响.结果表明,Mn2+使Sl 13、Cg 04、Pt 715的生物量分别降低了70.35%、52.44%和18.55%;Al3+使Sl 13的生物量下降50.74%,但增加Cg 04的生物量;Al3+和Mn2+共存对3种菌株生长均有协同抑制作用,但对Pt 715的抑制最小,表明Cg 04抗铝,Pt 715对铝、锰的单独污染和复合污染均有较强的抗性.Al3+和Mn2+抑制外生菌根真菌吸收养分,对Sl 13的抑制作用显著大于Pt 715和Cg 04;但提高3个菌株的草酸和H+分泌速率,增加其分泌量,两者共存对Cg 04草酸分泌速率具有协同促进效应,Pt 715不仅能分泌草酸而且还分泌丁二酸.因此,抗性强的外生菌根真菌可通过分泌较多的有机酸络合Al3+和Mn2+而缓解其毒害.     

4株外生菌根真菌对Al3+吸收与吸附的研究

本研究采用液体培养方法,分析了4株源自不同生境的外生菌根真菌[Pisolithus tinctorius(Pt 715)、Suillus luteus(Sl 08和Sl 14)、Gyroporus cyanescens(Gc 99)]细胞对铝的吸收与吸附,旨在探讨外生菌根真菌抗铝的机制,为减轻树木铝害、指导抗(耐)铝菌株的筛选和保持森林健康奠定理论基础.结果表明,Al3+对菌株Pt 715和Sl 08生长的影响不明显,但是可明显抑制Sl 14和Gc 99的生长;各供试菌株铝的吸附和吸收量均随培养液中Al3+浓度的升高而增加,可见环境中Al3+浓度是影响菌根真菌铝吸收量的关键因素;耐铝菌株(Pt 715和Sl 08)吸收的总铝及单位菌丝吸收的铝量较铝敏感菌株(Gc 99和Sl14)少,这可能是其对铝不敏感的原因之一.此外,增加对氮、磷、钾等营养元素的吸收亦可能是外生菌根真菌缓解铝毒的重要途径.     

铝胁迫下外源钙对外生菌根真菌抗氧化保护酶活性的影响

采用液体培养方法,研究了4个不同菌株(Bo 02、Bo 15、Pt 715和Sl 08)的抗铝性及其在铝胁迫下加入0、0.25、0.5、1.0 mmol.-1L-1Ca2+处理后抗氧化保护酶活性的变化,旨在了解钙在缓解外生菌根真菌铝毒方面的作用.结果表明,不同菌株抗铝性不同,Pt 715和Sl 08的抗铝性强于Bo 02和Bo 15.铝胁迫可显著提高外生菌根真菌Bo 02 CAT和SOD活性、Bo 15SOD活性、Sl 08 CAT和POD活性,说明外生菌根真菌中这几种酶活性的提高与铝毒胁迫密切相关.4个菌株中,Bo 02酶活性对外源钙最敏感,外源钙对Bo 02铝胁迫的缓解作用最好.较高浓度的钙(≥0.5 mmol.L-1)可缓解或消除Sl 08铝胁迫造成的抗氧化酶活性上升.     

外生菌根真菌对五氯芬的耐受性及生理响应

在纯培养条件下,研究了7种外生菌根真菌--美昧牛肝菌(Boletus edulis)、铆钉菇(Gomphidius viscidus)、双色腊蘑(Laccaria bicolor)、褐疣柄牛肝菌(Leccinum 8cabrum)、红绒盖牛肝菌(Xerocomus chrysenteron)、大毒滑锈伞(Heboloma crustulinifoume)和长柄粘滑菇(Hebeloma longicaudum)在不同五氯酚浓度下的生长速度和耐受性,筛选出具有降解五氯酚潜力的3种外生菌根真菌--铆钉菇、双色腊蘑、褐疣柄牛肝菌;考察了这3种外生菌根真菌在五氯酚胁迫下的生长模式,并采用点试方法对真菌氧化还原酶的产生情况进行了检测.结果表明:低浓度(≤10mg·L-1)条件下,五氯酚并没有改变菌种的生长模式,其中铆钉菇表现出了对五氯酚较强的耐受性,而在较高浓度下(15mg·L-1),所有菌种生长均受到抑制.酶点试结果表明,铆钉菇是3种外生菌根真菌中氧化还原酶活性最强且种类较多的菌种,它表现出较高的漆酶、酪氨酸氧化酶和过氧化物酶活性,是一种具有高效降解芳环结构污染物潜力的菌根真菌.     

铜镉胁迫对2种菌根真菌生长和细胞壁离子交换量的影响

在离体培养条件下,研究了铜镉胁迫对2种外生菌根真菌美味牛肝菌(Boletus edulis)和铆钉菇(Gomphidius viscidus)生长状况,培养环境pH值和细胞壁离子交换量的影响.结果表明,以对照相比,铜镉处理抑制了菌根真菌的生物量积累.通过半致死浓度评价2种菌根真菌耐受性发现,铆钉菇的Cu耐受性强于美味牛肝菌,而Cd耐受性弱于美味牛肝菌.菌根真菌培养后,基质pH降低与真菌生物量有关.铜镉处理下菌根真菌单位生物量下降的pH单位大于对照,说明菌根真菌在重金属胁迫下能通过调节自身pH环境缓解压力.铆钉菇的离子交换量在780～1 800μmol·g^-1之间,并随重金属处理浓度的增加而增加;美味牛肝菌的离子交换量在500～750μmol·g^-1之间,并随重金属处理浓度的增加而减少.     

小兴安岭红松外生菌根真菌资源及响应面法优化Suillusgrevillei培养基

红松是濒危的珍稀植物,同时又是典型的外生菌根树种。论文对小兴安岭红松林内外生菌根真菌资源进行了调查,同时利用响应面法筛选优化厚环粘盖牛肝菌(Suillus grevillei)培养基的组分。经对小兴安岭红松林下外生菌根真菌采集调查与分类鉴定,初步确定有5个科、8个属、21个种的真菌为红松外生菌根真菌类群,其中常见的有厚环粘盖牛肝菌、灰鹅膏菌(Amanita vaginata)、赭盖红菇(Russula mustelina)等。以改良MMN培养基为基础培养基,利用响应面法优化筛选确定S.grevillei的最佳培养基配方是KH₂PO₄ 0.3 g、Peptone 16 g、Glucose 12 g、Beef extract 15 g、 CaCl₂ 0.05 g、MgSO₄·7H₂O 0.15 g、Malt extract 3 g、FeCl₃(1%溶液) 1.2 ml、NaCl 0.025 g、(NH₄)₂HPO₄ 0.25 g、Vitamin B₁微量(0.005 g) 、Agar 20 g并加水至1 000 ml。该配方为S.grevillei菌剂的规模化生产奠定了基础。     

4种外生菌根真菌对滴滴涕的耐受性及生理响应

在纯培养条件下,研究了外生菌根真菌--美味牛肝菌(Boletus edulis)、铆钉菇(Gomphidius viscidus)、双色蜡蘑(Laccaria bicolor)、褐疣柄牛肝菌(Leccinum scabrum)在不同质量浓度DDT处理下的生长效应、耐受性和生理响应. 结果表明:DDT没有影响外生菌根真菌的生长模式,只是改变了其生长速度和生物量积累. 在5.0 mg/L的DDT处理下,美味牛肝菌、铆钉菇和双色蜡蘑的生长没有受到显著影响. 在25.0 mg/L的DDT处理下,美味牛肝菌的生长没有受到显著影响,显示出了较好的耐受性. 在高ρ(DDT)处理下,铆钉菇的多酚氧化酶、漆酶和过氧化物酶活性显著增强,液体培养基Ph下降幅度较大. 美味牛肝菌和铆钉菇通过不同的方式来响应DDT的胁迫,它们均具有较好地降解DDT的潜力.      

几种纯培养外生菌根真菌对矿物油的降解效果

用紫外分光光度法对4种外生菌根真菌降解矿物油的能力进行了研究.结果表明,这4种外生菌根真菌都具有降解矿物油的能力.但在不同的培养基中其生物量和降解矿物油的能力显著不同,以有机氮作为氮源及提供少量葡萄糖作为启动碳源将大大提高其生物量及矿物油降解率.结果为应用菌根技术修复矿物油污染土壤及优化降解条件提供了依据.     

Cu和Cd胁迫下接种外生菌根真菌对油松根际耐热蛋白固持重金属能力的影响

铜和镉是我国土壤重金属常见种类,生物固定过量重金属以降低其生理毒害是修复土壤重金属污染的有效方法之一.外生菌根能够通过分泌大量有机物质来降低土壤中重金属的生物有效性.在Cu或Cd胁迫下,外生菌根真菌接种油松幼苗根际分泌的耐热蛋白具有固持重金属的潜力.结果表明,纯培养条件下接种并没有增加耐热蛋白的分泌,但是在Cu或Cd的胁迫培养下,接种幼苗耐热蛋白的分泌量增加.不同Cu浓度处理下,接种油松幼苗总提取耐热蛋白(total thermostable protein,TTP)和易提取耐热蛋白(easily extracted thermostable protein,EETP)的分泌量为未接种油松的2.64~11.79倍;Cd处理下接种油松TTP和EETP的分泌量,分别是未接种油松的1.49~7.56倍.虽然Cu处理下无论是接种还是未接种,根际耐热蛋白和根系细胞中固持的总Cu量显著大于空白对照,但接种显著增加了根际的重金属固持量,其Cu总相对含量是未接种的1.81~2.75倍,且绝大部分重金属固持在耐热蛋白中,使得根际耐热蛋白中的Cu相对含量是根系细胞含量的4.19~43.00倍.Cd处理下也得到了相似的结论.说明接种菌根真菌促进了植物分泌耐热蛋白量,加强了根系对重金属的固持能力,从而达到减少过量重金属的生物有效性,缓解土壤重金属污染的目的.     

半干旱-亚湿润干旱沙区樟子松根内真菌群落结构和功能时空动态特征

研究揭示呼伦贝尔沙地樟子松天然林和不同引种地(呼伦贝尔沙地、科尔沁沙地和毛乌素沙地)不同林龄(中龄林、近熟林和成熟林)人工林根内真菌群落结构和功能时空动态特征及其对环境变化(气候因子和土壤理化性质)的响应,阐明樟子松根内真菌生态功能及其与林木生长的互作关系.结果表明：(1)樟子松人工林根内真菌多样性指数均显著高于天然林(P<0.05),且毛乌素沙地人工林最高;樟子松根内真菌群落存在明显的地理分布,但林龄影响不存在显著差异(P>0.05).(2)与樟子松人工林相比,天然林外生菌根真菌比例更高(50.49%),主要包括Acephala、小菇属(Mycena)和乳牛肝菌属(Suillus);樟子松天然林主要指示菌种为Acephala,呼伦贝尔沙地人工林为肉齿菌属(Sarcodon),科尔沁沙地人工林为红菇属(Russula)和美口菌属(Calostoma),毛乌素沙地人工林为地孔菌属(Geopora)、Mallocybe和棉革菌属(Tomentella).(3)在樟子松天然林和人工林中,指示菌种主要受到有效氮、有效磷和林龄的影响,而与土壤含水量、 pH值和全氮含量相关的指示菌种数...     

Size distributions of aerosol and water-soluble ions in Nanjing during a crop residual burning event

To investigate the impact on urban air pollution by crop residual burning outside Nanjing, aerosol concentration, pollution gas concentration, mass concentration, and water-soluble ion size distribution were observed during one event of November 4-9, 2010. Results show that the size distribution of aerosol concentration is bimodal on pollution days and normal days, with peak values at 60-70 and 200-300 nm, respectively. Aerosol concentration is 10⁴ cm^-3. nm^-1 on pollution days. The peak value of spectrum distribution of aerosol concentration on pollution days is 1.5-3.3 times higher than that on a normal day. Crop residual burning has a great impact on the concentration of fine particles. Diurnal variation of aerosol concentration is trimodal on pollution days and normal days, with peak values at 03:00, 09:00 and 19:00 local standard time. The first peak is impacted by meteorological elements, while the second and third peaks are due to human activities, such as rush hour traffic. Crop residual burning has the greatest impact on SO₂ concentration, followed by NO₂, O₃ is hardly affected. The impact of crop residual burning on fine particles (< 2.1 μm) is larger than on coarse particles (> 2.1 μm), thus ion concentration in fine particles is higher than that in coarse particles. Crop residual burning leads to similar increase in all ion components, thus it has a small impact on the water-soluble ions order. Crop residual burning has a strong impact on the size distribution of K⁺, Cl^-, Na⁺, and F^- and has a weak impact on the size distributions of NH₄⁺, Ca²⁺, NO₃^- and SO₄^2-.     

Water quality in rice-growing watersheds in a Mediterranean climate

Rice (Oryza sativa L.) agriculture is estimated to cover 161 million ha of land on Earth, with 10% grown in temperate regions. Currently there are strong concerns about surface water nutrient pollution, and the purpose of this study was to determine the impacts of temperate rice cultivation on nutrient dynamics at the small watershed scale. Over the course of the 2008 growing season (May through September), bi-weekly grab samples were collected from outlets of 11 agricultural subwatersheds in California. Samples were analyzed for NO₃-N, NH₄-N, PO₄-P, K, and dissolved organic nitrogen (DON) concentrations, and the average values across all subwatersheds and sampling dates were 0.22, 0.031, 0.047, 1.36, and 0.32 mg L⁻¹, respectively. Linear mixed effects analysis was used to evaluate the magnitude of relationships between nutrient concentration and flux and subwatershed characteristics (i.e. percent soil clay and organic matter, percent rice area, irrigation water reuse, subwatershed discharge, irrigated area, and time, measured as the day in the growing season). For all nutrients, flux decreased over time and increased with discharge. Concentrations of K and DON were highest at the start and end of the growing season. Concentrations of NH₄-N were near non-detect levels, with the exception of a peak in mid-July, which corresponds to when many growers top-dress rice fields with N fertilizer. Nitrate-N concentration and flux decreased with percent rice area, whereas PO₄-P concentrations increased with percent rice area, indicating that rice area should be considered in future watershed-scale studies of nutrient discharge. In all subwatersheds, the discharge loads of K were smaller than surface water input loads, while NO₃-N, NH₄-N, PO₄-P, and DON discharge loads exceeded input loads when total growing season discharge was greater than 3500-6600 m³ ha⁻¹. This implies that the management of subwatershed discharge can be used to control nutrient export from rice-growing areas.     

Modelling sulphate-enhanced cadmium uptake by Zea mays from nutrient solution under conditions of constant free Cd2+ ion activity

A controlled hydroponic experiment was undertaken to investigate Cd uptake in relation to the activity of Cd species in solution other than the free ion (Cd²⁺) by maintaining a constant Cd²⁺ activity under variable SO₄₂⁻ and Cl⁻ concentrations exposed to maize (Zea mays var. Cameron) plants. The objectives of these experiments were: (1) to distinguish and quantify the different uptake rates of free and inorganic-complexed Cd from nutrient solution, and (2) to model the uptake of Cd by maize with a Biotic Ligand Model (BLM) in a system which facilitates the close examination of root characteristics. Results of the current experiments suggest that, in addition to the free ion, CdSO₄⁰ complexes are important factors in determining Cd uptake in nutrient solution by maize plants. Higher nominal SO₄²⁻ concentrations in solution generally resulted in a greater Cd accumulation by maize plants than predicted by the Cd²⁺ activity. A better integration of the complete dataset for the 3 harvest times (6, 9 and 11 days after treatment) was achieved by including consideration of both the duration of Cd exposure and especially the root surface area to express Cd uptake. Similarly, the fit of the BLM was also improved when taking into account exposure time and expressing uptake in terms of root morphological parameters.     

Dissolution of different zinc salts and Zn uptake by Sedum alfredii and maize in mono- and co-cropping under hydroponic culture

Previous soil pot and field experiments demonstrated that co-cropping the hyperaccumulator Sedum alfredii with maize increased Zn phytoextraction by S. alfredii and decreased Zn uptake by maize shoots. This hydroponic experiment was conducted to investigate whether the facilitation of Zn phytoextraction by S. alfredii resulted from improved dissolution in this co-cropping system and its relation to root exudates. S. alfredii and maize were mono-and co-cropped (without a root barrier) in nutrient solution spiked with four Zn compounds, ZnS, ZnO, Zn3(PO4)2 and 5ZnO·2CO3·4H2O (represented as ZnCO3 ) at 1000 mg/L Zn for 15 days without renewal of nutrient solution after pre-culture. The root exudates were collected under incomplete sterilization and analyzed. The results indicated that the difference in Zn salts had a greater influence on the Zn concentration in maize than for S. alfredii, varying from 210-2603 mg/kg for maize shoots and 6445-12476 mg/kg for S. alfredii in the same order: ZnCO3 > ZnO >Zn3(PO4)2 > ZnS. For the four kinds of Zn sources in this experiment, co-cropping with maize did not improve Zn phytoextraction by S. alfredii. In most cases, compared to co-cropped and mono-cropped maize, mono-cropped S. alfredii resulted in the highest Zn2+ concentration in the remaining nutrient solution, and also had a higher total concentration of low molecular weight organic acids (LMWOA) and lower pH of root exudation. Root exudates did partly influence Zn hyperaccumulation in S. alfredii.     

模拟酸雨对南方土壤硅铝释放的影响

通过模拟酸雨淋溶实验,分析了淋溶液pH值和硅铝离子释放规律和特点的关系．结果表明,模拟酸雨的酸度是决定土壤中硅铝淋溶释放量的主要因素．当pH＞3.0时释放量增幅较为缓慢,而pH＜3.0以后释放量骤增．土壤溶液中H⁺浓度的增加,使得以水解反应为主要过程的土壤矿物的风化作用加强,从而使硅铝释放量增大.     

不同交通状况下道路边大气颗粒物数浓度粒径分布特征

研究了不同交通状况下北京交通环境大气颗粒物数浓度的污染特征.应用扫描电迁移率颗粒粒径谱仪(SMPS)测定了2009年8月常规交通状况和2008年8月奥运交通状况下北四环道路边大气颗粒物的数浓度,分析了数浓度的粒径分布特征及其逐时变化规律,目的为辨析交通流改变对交通环境中颗粒物数浓度的影响.常规交通状况下道路边超细颗粒物(10～100nm)和10～478 nm颗粒物总粒数浓度分别为(1.15±0.49)×104个.cm-3、(1.61±0.57)×104个.cm-3,奥运交通状况下分别下降到(0.55±0.14)×104个.cm-3、(1.21±0.24)×104个.cm-3,不同粒径段中超细颗粒物数浓度降幅最高,为52.2%.常规交通状况下道路边大气中颗粒物粒数浓度呈双峰分布,峰值粒径依次为22.5 nm和113.0 nm.奥运期间由于机动车单双号限行和黄标车禁行等措施的实施,22.5 nm处颗粒物数浓度峰值消失.粒径分布逐时变化显示,常规交通状况下00:00～04:00柴油车流量高峰、11:00～13:00高温强光照和17:00～20:00交通晚高峰这3个时段内超细颗粒物数浓度较高;而奥运期间受到交通流量下降、平均车速提高等因素影响,道路边颗粒物数浓度粒径分布逐时变化趋于平缓.     

聚合氯化铝中纳米Al13形态的分离纯化及形态表征

采用超滤法和层析法分离纯化聚合氯化铝(PAC)中的Al₁₃形态,并采用Al-Ferron逐时络合比色法、²⁷Al-NMR、TEM和粒度测定仪对分离纯化所得的Al₁₃形态进行了分析和表征.研究结果表明,超滤法分离纯化的效果受超滤膜的孔径及PAC浓度的影响,选择合适孔径的膜和PAC溶液浓度即可以获得高纯度的Al₁₃,在层析法中则随着洗脱时间延长按分子的大小依次洗脱下来,因此截取中间组分即可得到Al₁₃;Al-Ferron逐时络合比色法和²⁷Al-NMR的分析结果表明,采用上述2种方法分离提纯得到的样品中Al₁₃的含量分别可达到90%以上和100%.TEM和粒度测定结果表明,在B=2.5的PAC溶液中,Al₁₃极少以Al₁₂AlO₄(OH)₂₄(H₂O)⁷⁺₁₂的单体形态存在,而是呈两维结构的线性和枝状的聚集体,Al₁₂AlO₄(OH)₂₄(H₂O)⁷⁺₁₂的聚集体尺寸通常在几十至几百nm.