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丛枝菌根真菌(Glomus caledonium)对铜污染土壤生物修复机理初探 总被引:12,自引:2,他引:12
利用盆栽试验,研究了丛枝菌根真菌(Glomus.caledonium)在不同程度铜污染土壤上对玉米苗期生长的影响。结果表明,即使在土壤施铜量达150mg/kg时,菌根真菌对玉米仍有近55%的侵染率;接种菌根真菌,能显著促进玉米根系的生长。菌根玉米的根系生物量和根系长度,平均较未接种处理分别提高108.4%和58.8%;接种处理的植株地上部生物量达到每盆(3株)10.58g,显著高于不施铜的非菌根玉米。这些结果表明,丛枝菌根真菌对铜污染具有较好的抗性;并且由于菌根的形成,使宿主植物明显地改善了对磷的吸收和运输,并能通过抑制土壤酸化、降低土壤可溶态铜的浓度等机制,增强宿主植物对铜污染的抗(耐)性。在150mg/kg施铜水平时,与非菌根玉米相比,菌根玉米地上部和根系铜浓度分别降低24.3%和24.1%,吸铜量分别提高了28.2%和60.0%,表明菌根植物对铜污染土壤具有一定的生物修复作用。 相似文献
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为探讨多胺对共生条件下丛枝菌根真菌及其宿主植物生长发育的影响,本研究以丛枝菌根真菌(Gigaspora margarita)为试验材料,通过施用不同浓度的多胺(Polyamine,PA)及其生物合成抑制剂[Methylglyoxal bis(guanylhydrazone),MGBG]处理接种丛枝菌根真菌的葡萄微繁苗,研究共生培养条件下外源多胺及多胺合成抑制剂对丛枝菌根真菌孢子萌发、芽管菌丝及其宿主植物生长发育的影响.试验结果表明,共生培养条件下,一定浓度的外源PA对丛枝菌根真菌及其宿主植物的生长发育具显著促进作用,丛枝菌根真菌孢子数、菌丝长度、侵染率、丛枝丰富度及菌根化葡萄幼苗生长势均显著提高.MGBG则表现较强的抑制作用.且该抑制作用可被外源PA部分解除,证明外源多胺对菌根化葡萄微繁苗生长发育的促进作用是通过活化根系土壤中丛枝菌根真菌,促进微繁苗丛枝菌根共生体的良好发育,最大程度地发挥菌根化效应得以表现的. 相似文献
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铅锌矿区分离丛枝菌根真菌对万寿菊生长与吸镉的影响 总被引:3,自引:0,他引:3
盆栽试验研究了土壤不同施Cd水平(0、20、50 mg kg-1)下,接种矿区污染土壤中丛枝菌根真菌对万寿菊根系侵染率、植株生物量及Cd吸收与分配的影响。结果表明:接种丛枝菌根真菌显著提高了Cd胁迫下万寿菊的根系侵染率和植株生物量;随着施Cd水平提高,各处理植株Cd浓度和Cd吸收量显著增加。各施Cd水平下万寿菊地上部Cd吸收量远远高于根系Cd吸收量,尤其在20 mg kg-1施Cd水平下,接种处理地上部Cd吸收量是根系的3.90倍,对照处理地上部Cd吸收量是根系的2.33倍;同一施Cd水平下接种处理地上部Cd吸收量要显著高于对照。总体上,试验条件下污染土壤中分离的丛枝菌根真菌促进了万寿菊对土壤中Cd的吸收,并增加了Cd向地上部分的运转,表现出植物提取的应用潜力。 相似文献
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《土壤通报》2010,(6)
对松嫩盐碱草地主要植物的丛枝菌根(AM)真菌共生状况进行了初步调查,在观察的9科20种植物中,所有植物均能被AM真菌侵染。在过去认为不被侵染的莎草科、藜科和蓼科植物中,发现球序苔草、碱蓬、灰绿藜、碱地肤、萹蓄蓼和碱蓼有侵染现象。丛枝菌根结构类型以Arum类型(A-型)为主,占75%,少数为Paris类型(P-型),占15%。根际土壤中AM真菌孢子密度范围为0.23~4.71个g-1。在不同质地土壤条件下,根际土壤中AM真菌孢子密度、AM真菌侵染率和侵染强度均有差异,松嫩盐碱草地的壤土比砂壤土更适宜AM真菌的生存。植物根际土壤的pH值和全盐含量对AM真菌侵染和AM真菌均有一定的影响。 相似文献
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丛枝菌根真菌在植物修复砷污染土壤中的作用 总被引:2,自引:0,他引:2
丛枝菌根真菌能增强植物对矿质元素的吸收、提高植物的抗逆性、增强抗病性、改善植物根际微环境,减轻重金属对植物的毒害,影响植物对重金属的吸收和转运,在重金属污染土壤的植物修复中显示出极大的应用潜力。近年来,As污染已成为全球非常突出且急需解决的环境问题之一,对As污染土壤的生物修复也因而成为研究热点。本文主要从丛枝菌根真菌改变土壤pH和酶活性、增强植物对As的耐性和影响植物对As的吸收方面综述了丛枝菌根在As污染土壤修复中应用的研究进展,揭示出菌根应用在As污染土壤中的作用潜力和研究方向。 相似文献
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《土壤与作物》2017,(3)
为了探索丛枝菌根(AM)真菌对甘草的侵染特性,揭示土壤相对含水量不同条件下AM真菌对甘草生长及甘草酸含量的影响,以盆栽甘草为研究对象,分别接种摩西管柄囊霉(Funneliformis mosseae)、地表球囊霉(Glomus versiforme)、聚丛球囊霉(G.aggregatum)和幼套球囊霉(G.etunicatum)4种AM真菌,研究了土壤在不同相对含水量条件下AM真菌对甘草的侵染率及侵染后甘草的株高、主根长、地上干重、地下干重及甘草酸含量等,结果表明,接种的4种AM真菌均能与甘草形成丛枝菌根,形成了丰富的丛枝、泡囊结构,侵染率达到70%以上,显著促进了甘草的生长;在50%和65%的土壤相对含水量条件下,AM真菌都对甘草生长有促进作用,在土壤相对含水量小于35%时,甘草生长不良,甘草酸含量低;综合分析土壤在各个不同相对含水量处理中,接种摩西管柄囊霉的甘草适应生长的范围更大,甘草酸含量更高,综合来看,摩西管柄囊霉更有利于提高甘草对干旱的适应性,促进甘草生长效果显著,并且在干旱条件下仍保持较高的甘草酸含量。 相似文献
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红壤中丛枝菌根真菌对污泥态铜生物有效性的影响 总被引:9,自引:0,他引:9
以玉米为宿主植物 ,研究了不同污泥量 (0、1 %、4% )施入红壤后接种丛枝菌根真菌Acaulosporalaevis、Glomuscaledonium和Glomusmanihotis对菌根侵染率、孢子密度、玉米生长和铜生物有效性的影响。结果表明 ,施用 1 %的污泥可增加接种A laevis的菌根侵染率和孢子密度 ,其玉米地上部和地下部生物量也有显著增加 ,而不接种 (含土著菌根真菌 )、接种G caledonium和G manihotis的菌根侵染率、孢子密度、玉米地上部和地下部生物量却有显著下降 (p<0 0 5 )。施用 1 %的污泥时接种A laevis降低了玉米地上部铜浓度 ,而接种G caledonium和G manihotis却增加了玉米地上部铜浓度 ,另外 ,接种处理增加玉米根部对铜的吸收总量。不同的菌根真菌对重金属的耐受力是不同的 ,只有施入一定的污泥量即在一定污染程度下才能发挥菌根真菌A laevis对污染土壤的修复作用 相似文献
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以不同开采程度钼矿区根际土壤为研究对象,探索了钼矿开采对土壤球囊霉素相关土壤蛋白、化学计量特性及其两者之间关系的影响。结果表明,开采区土壤碳、氮含量分别为25.30和1.00 g/kg,显著低于恢复区和未开采区土壤的碳、氮含量。开采区土壤的碳氮比达到29.36,分别是恢复区和未开采区的2.02倍和1.30倍。恢复区和未开采区土壤的总提取球囊霉素含量为2.81和3.64 mg/g,易提取球囊霉素含量为1.22和2.02 mg/g,分别是开采区土壤总提取和易提取球囊霉素的2.08倍、2.70倍和1.97倍、3.26倍。此外,土壤碳、氮含量对丛枝菌根真菌分泌球囊霉素相关土壤蛋白有显著的影响。可见,钼矿开采主要导致了土壤碳、氮的大量流失,并对丛枝菌根真菌分泌球囊霉素相关土壤蛋白具有明显的抑制作用。 相似文献
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接种AM真菌对采煤沉陷区文冠果生长及土壤特性的影响 总被引:2,自引:2,他引:0
煤炭井工开采往往造成地表塌陷,导致了土壤养分贫瘠和水分缺乏,土壤沙化和水土流失,从而限制了当地矿区植被生长,而丛枝菌根真菌(arbuscular mycorrhiza fungi,AM真菌)对植被生长有促进作用。以文冠果为宿主植物,采用野外原位监测和室内分析方法,研究了未接种和接种丛枝菌根真菌对采煤沉陷区复垦植物文冠果生长和土壤特性的影响。结果表明:与未接种AM真菌处理相比,接种AM真菌显著提高了文冠果根系菌根侵染率和土壤根外菌丝密度,7月接种AM真菌文冠果的株高、冠幅和地径提高了31.89%,23.07%,9.89%。同时,9月接种AM真菌处理的根际土壤全氮、碱解氮和有机碳含量分别比对照组增加0.29g/kg、13.0mg/kg和1.4g/kg,接种AM真菌显著提高了根际土壤的含水率、总球囊霉素和易提取球囊霉素,而速效磷和速效钾的含量显著降低。相关分析结果表明,菌根侵染率、土壤根外菌丝密度与根际土壤理化性质之间存在协同反馈效应。因此,接种AM真菌促进了采煤沉陷区复垦植被文冠果的生长和土壤的改良,这对矿区水土保持、维持生态系统稳定性和持续性具有重要意义。 相似文献
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Elcio L. Balota Oswaldo Machineski Carolina Honda Ines F. U. Yada Graziela M. C. Barbosa Andre S. Nakatani Mark S. Coyne 《Land Degradation \u0026amp; Development》2016,27(4):1141-1150
Swine slurry is a common agricultural fertilizer in many countries. However, its long‐term use in large amounts can cause excess nutrient accumulation, alter soil compounds, and potentially influence critical microbial populations such as arbuscular mycorrhizal fungi, which have important roles in plant nutrition and soil sustainability. This work determined if arbuscular mycorrhizal status, external mycelium, and glomalin‐related soil protein content were affected by long‐term swine slurry application to different soil tillage systems. The experiment was conducted on a clayey oxisol, in southern Brazil. Swine slurry (0, 30, 60, 90, and 120 m3 ha−1 y−1) was applied for 15 years to conventional tillage and no tillage soil prior to the summer (soybean or maize) and winter (wheat or oats) crop seasons. Swine slurry decreased mycorrhizal root colonization, spore number, and total external mycelium. Swine slurry increased active external mycelium and both easily extractable and total glomalin‐related soil protein. No‐tillage soil had more glomalin‐related soil protein than conventional tillage soil. The most significant response variables were root colonization, easily extractable glomalin‐related soil protein, and total external arbuscular mycorrhizal mycelia. Long‐term application of swine slurry in this environment, even at high rates, did not adversely affect crop yield but did influence arbuscular mycorrhizae fungi and their products in the soil environment. Benefits of swine slurry application for crop nutrition must be weighed against potential adverse consequences for the size, activity, and benefits of the mycorrhizal community to subsequent annual crops. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
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Mycorrhizae are ubiquitous symbiosis which can mediate uptake of some plant nutrients. In polluted soils they could be of great importance in heavy metal availability and toxicity to plants. Mycorrhizae have also been reported to protect plants against toxic metals. We investigated the occurrence and infectivity of arbuscular mycorrhizal (AM) spores as affected by heavy metal levels and other soil properties in Norwegian soils collected from heavy metal polluted, high natural background and non-polluted areas. Spore numbers, mycorrhizal infectivity and spore germination of indigenous mycorrhizal fungi and of a reference strain (Glomus mosseae) in soils showed lower values in two soils with high metal concentrations and in one soil with a low pH. Mycorrhizal infectivity was negatively correlated with extractable metals. Spore number and mycorrhizal infectivity in a soil with naturally high heavy metal content were not different to in non-polluted soils, and indigenous AM fungi appeared more tolerant to metals than those in non-polluted soils. Mycorrhizal infectivity, expressed as MSI50 values, was significantly correlated (r′=0.89, P< 0.05) with the percentage of germinating G. mosseae spores in the soils. However, the number of spores per volume of soil was not significantly correlated with infectivity or spore germination of the reference strain. The spore germination method is discussed as a bioassay of heavy metal toxicity in soil. 相似文献
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Interactive effect between Cu‐adapted arbuscular mycorrhizal fungi and biotreated agrowaste residue to improve the nutritional status of Oenothera picensis growing in Cu‐polluted soils 
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下载免费PDF全文 Sebastián Meier Pablo Cornejo Paula Cartes Fernando Borie Jorge Medina Rosario Azcón 《植物养料与土壤学杂志》2015,178(1):126-135
The interactive effect of sugar beet (SB) agrowaste and arbuscular mycorrhizal (AM) fungi inoculation in response to increasing Cu levels was evaluated in the metallophyte Oenothera picensis. Plants were grown in a Cu‐added soil (0, 100, or 500 mg Cu kg?1), in presence or absence of SB, and inoculated with: (1) indigenous Cu adapted mycorrhiza (IM) isolated from Cu‐polluted soils; (2) Claroideoglomus claroideum (CC); or (3) maintained uninoculated (control). Sugar beet application produced an increase in shoot biomass of 2 to 7 times, improving plant nutritional status and allowing their survival at the highest Cu concentrations. Moreover, AM fungi utilization had a positive effect promoting the plant establishment; nevertheless, Cu plant concentration as well as the mycorrhizal development in terms of AM colonization, AM spore density, and glomalin production were strictly dependent of the AM fungi strains used. Remarkable differences between AM fungi strains were observed at the highest soil Cu level where only plants colonized by IM were able to survive and grow when no SB residue was added. An interactive effect between AM fungi and SB produced a higher plant growth than plants without the amendment application, improving the plant establishment and allowing their survival at highest copper concentrations, suggesting that this combination could be used as a biotechnological tool for the phytoremediation of Cu‐polluted soils. 相似文献
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接种丛枝菌根真菌对土壤水稳性团聚体特征的影响 总被引:5,自引:0,他引:5
为了研究接种丛枝菌根真菌对土壤团聚体特征的影响,采用盆栽试验,以小麦(Triticum aestivuml)为宿主植物,在两个不同供磷水平条件下,分别接种丛枝菌根真菌Glomus intraradices和Glomus mosseae,收获后分析土壤团聚体数量、分布和分形维数,并运用通径分析对不同作用因子进行统计。结果看出,与对照相比,接种丛枝菌根真菌显著提高了土壤中有机质含量、球囊霉素相关土壤蛋白含量,土壤水稳性大团聚体数量也显著增加。接种处理提高了土壤的平均重量直径、几何平均直径,而且降低了土壤分形维数。通径分析表明,在影响土壤水稳性大团聚体的众多因子中,菌丝密度具有最大的作用,且以直接作用为主;有机质和球囊霉素相关土壤蛋白也表现出较大的作用。接种G. mosseae对改良土壤结构的作用优于接种G. intraradices。 相似文献
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A better understanding of the role of glomalin in arbuscular mycorrhizal fungi necessitates knowledge about the cellular functions and locations of this putative heat-shock protein (Hsp). In the present study, we determined the cellular localization of glomalin in mycelium of Glomus intraradices using immuno-electron microscopy, employing the monoclonal antibody MAb32B11. We observed that there were more gold beads bound to hyphae and spore walls than in the cytoplasm. There was also differential binding within the wall layers: L3 and L2 presented more intense labeling than the L1 layer. Our data on wall-binding of glomalin are strongly suggestive of functions other than cytoplasmic (Hsp-related), and point to a possibility of mediating interactions with the biotic and abiotic soil environment. 相似文献
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To measure and manage plant growth in arid and semi-arid sandlands, improved understanding of the spatial patterns of desert soil resources and the role of arbuscular mycorrhizal (AM) fungi is needed. Spatial patterns of AM fungi, glomalin and soil enzyme activities were investigated in five plots located in the Mu Us sandland, northwestern China. Soils to 50 cm depth in the rhizosphere of Astragalus adsurgens Pall. were sampled. The study demonstrated that A. adsurgens Pall. could form strong symbiotic relationships with AM fungi. Arbuscular mycorrhizal fungal status and distributions were significantly different among the five studied plots. Correlation coefficient analysis demonstrated that spore density was significantly and positively correlated with soil organic carbon (SOC), soil acid phosphatase and to two Bradford-reactive soil protein (BRSP) fractions (P < 0.01). Colonization of arbuscules and vesicles were positively correlated with protease activity. The BRSP fractions were also significantly and positively correlated to edaphic factors (e.g. SOC, available nitrogen, and Olsen phosphorus) and soil enzymes (e.g. soil urease and acid phosphatase). The means of total BRSP and easily extractable BRSP were 0.95 mg g−1 and 0.5 mg g−1 in all data, respectively. The levels of BRSP in the desert soil were little lower than those in native and arable soils, but the ratios of BRSP to SOC were much higher than farmland soils. The results of this study support the conclusion that glomalin could be an appropriate index related to the level of soil fertility, especially in desert soil. Moreover, AM fungal colonizations and glomalin might be useful to monitor desertification and soil degradation. 相似文献