丛枝菌根真菌在植物修复重金属污染土壤中的作用

菌根是真菌与植物根系所建立的互惠共生体,其中以丛枝菌根(AM)真菌在自然界中分布最广。在重金属污染条件下,AM真菌可以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。文章通过讨论菌根植物对重金属修复的作用机制,提出菌根技术在重金属植物修复中应在通过广泛调查、筛选超积累植物的基础上,不断探索植物-菌根体系修复问题,以促进重金属污染土壤的生物修复。     

菌根真菌对土壤有机污染物的生物降解

利用土壤真菌和植物的结合体菌根真菌修复土壤，尤其是修复有机污染的根际土壤，正作为一个新的研究方向开始受到广泛关注。菌根真菌作为土壤真菌的一种，与放线菌和细菌等微生物相比，对土壤中有更大的忍耐能力，并且能将许多持久性有机污染物（POPs）做为碳源来获取能量。文章通过总结近20年菌根真菌与土壤有机污染物关系的研究。列出了43种能分解POPs的菌根真菌，并探讨了菌根真菌通过直接分解和共代谢的方式降解土壤有机污染物的可能性，为进一步研究菌根真菌生物降解土壤中持久性有机污染物，利用菌根植物生物修复有机污染土壤提供信息。     

不同施铜水平下接种AM真菌对海州香薷根际pH的影响

研究表明,丛枝菌根(Arbuscular mycorrhiza,AM)真菌对宿主植物生长和吸收、转运重金属的作用受土壤pH的影响[1-3]。植物可以通过分泌质子或有机酸等改变根际土壤的pH,接种AM真菌可以改变宿主植物的根系分泌物[4-6],从而影响土壤pH。Li等[7]研究发现,接种AM真菌的白三叶在根-土界面、菌丝室及菌丝-土壤界面的pH均降低。Li和Christie[8]发现Zn污染土壤中接种G.mosseae降低了红三叶植物体内Zn浓度和吸收量;菌根处理土壤的pH比对照土壤高,土壤溶液中的Zn浓度低,在施Zn量大时尤为显著。AM真菌菌丝往往在利用NO3-N的同时释放出OH-,导致…     

菌根真菌影响土壤有机污染物降解机理的研究进展

菌根是植物根系与菌根真菌形成的共生体,它能增强植物的逆境抗胁迫能力,有促进有机污染物降解和转化的作用。近年来很多学者对其进行了研究,然而有关其降解和转化的机理目前仍不是很明确。介绍了国内外涉及菌根真菌对土壤中有机污染物的降解机理的研究成果,为促进菌根真菌在土壤有机污染生物修复中的应用提供了基础信息。     

丛枝菌根(AM)真菌对土壤中阿特拉津降解的影响

于盆栽高粱(Sorghum,龙杂一号)条件下研究了丛枝菌根(AM)真菌根内球囊霉(Glomus intraradices,GI)和摩西球囊霉(Glomus mosseae,GM)降解土壤中阿特拉津的效用。结果表明,阿特拉津(浓度为50 mg/kg)污染土壤中,供试AM真菌都能够侵染高粱根系形成菌根,而且GM比GI侵染效果好,最高侵染率可达到90.5%,显著提高了植株的生物量。接种AM真菌后土壤中阿特拉津的残留浓度显著低于不接种对照处理,并且接种GM比GI对阿特拉津的降解效果显著。接种GM处理的土壤中阿特拉津最高降解率达到了91.6%,其中菌根效应占22.6%。接种AM真菌的宿主植物根际土壤中微生物数量多于不接种处理,且GM优于GI处理,说明AM真菌能促进根际微生物的繁殖。此外,接种AM真菌后能显著增加土壤中脲酶活性,但对过氧化氢酶活性影响不显著。认为GM是一株比较理想的修复阿特拉津污染土壤的AM真菌。     

基于农产品质量安全的土壤资源管理与可持续利用

目前我国土壤和农作物中有毒物质的残留问题日趋突出。有机氯农药虽已禁用近20年,但通过某些食物链富集仍可对人体健康产生威胁。此外,残留农药的种类和数量逐年增加,其中有机磷农药问题尤为突出。重金属残留超标主要集中在大中城市郊区、污灌区和矿区农产品,尤其是城郊蔬菜中重金属污染问题比较突出。硝酸盐积累主要在农业集约化地区,尤其是塑料大棚等保护地问题比较普遍。农产品中的有机氯残留、重金属残留以及硝酸盐积累均与土壤污染有密切的关系,土壤是影响农产品质量安全的源头因素。因此,为了保证农产品质量安全,应尽快开展全国土壤环境质量调查与评价,建立长期性的土壤环境质量监测网络,并加强土壤中环境激素类的研究和监测,修订土壤环境质量与农产品质量标准,建立基于污染物生物有效性的环境质量标准体系与评价方法。同时制订土壤质量修复和保护规划,并完善有关立法,实现土地资源由数量管理向数量与质量管理并重的战略转变。     

AM菌对三叶草吸收、累积重金属的影响

采用4室根箱培养系统,探讨了Cu、Zn、Pb、Cd 4种重金属复合污染土壤中,丛枝菌根菌对三叶草生长及吸收、累积重金属的作用,结果表明:重金属Cu 100mg/kg、Zn 600mg/kg、Pb 300mg/kg、Cd 10mg/kg的复合污染对三叶草生物量影响较小,但土壤重金属处理使丛枝菌根菌Glomus intraradices和Glomus caledonium对三叶草的侵染率分别降低53%和56%,菌种G.intraradice的菌丝密度降低73%;接种菌根真菌能明显减少重金属复合污染土壤中三叶草对Cu、Cd和Pb的吸收,并强化根系在限制重金属Pb和Cd向地上部运输中的作用,地上部Pb和Cd含量分别下降24.2%~55.3%和65%~97.9%,使三叶草地上部Cd和Pb含量均低于我国牧草重金属安全含量,提高了三叶草可食部分的质量;不同菌根真菌对三叶草吸收、累积及分配重金属的影响有明显差异,Glomus intraradices对减少三叶草对重金属的吸收及其在地上部可食部分的累积的作用大于Glomus caledonium。丛枝菌根菌对于强化三叶草根系对重金属的固持作用,调节生态系统中重金属的生物循环,减轻重金属对食物链的污染风险方面起着重要作用。     

丛枝菌根真菌在植物修复砷污染土壤中的作用

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。     

土壤重金属污染对农产品质量安全的影响及其防治措施

针对当前日益严峻的土壤重金属污染及其所引起的农产品质量安全问题,本文论述了土壤重金属污染物的主要来源、重金属在土壤与植物中的存在形态及危害,探讨了农产品产地土壤重金属污染的防治措施,以期为提升产地土壤环境质量和建立农产品质量安全监管体系提供理论依据。     

丛枝菌根与土壤修复

菌根是真菌与植物根系所建立的互惠共生体, 其中以丛枝菌根在自然界中分布最广。近年来,随着菌根研究的发展,丛枝菌根在土壤修复中的应用日益受到人们的关注。本文综述了丛枝菌根在土壤重金属污染、有机污染、放射污染以及土壤退化修复中的作用,并对当前研究中存在的问题和未来发展前景作了探讨。     

Arylesterase activity in trace element contaminated soils

Arylesterase activity was measured along with microbial biomass C (B_C) and respiration, and H₂O‐soluble and NH₄NO₃‐exchangeable trace elements (TE), in contaminated soils (TECS) from three long‐term field trials. The AGIR (AG) soils were contaminated only by inorganic Cd, whereas the Ambarès (AM) and Louis Fargue (LF) soils were contaminated mainly by Mn and Zn, and Cd and Ni, respectively, from past sludge application at different rates. In the AG soils, the arylesterase activity decreased with increasing Cd total concentration and solubility. In the AM soils, the arylesterase activity decreased with increased contamination, whereas in the LF soils the arylesterase activity was increased by sludge additions, with the higher values detected in soils with lower sludge incorporation rates. In the AG and AM soils, arylesterase activity was significantly and negatively correlated with H₂O‐soluble and NH₄NO₃‐exchangeable TE, whereas in the LF soils it showed a ‘hump’‐shaped trend with sludge additions and could not be modelled. Multiple regression analysis showed significant interactions between TE, soil pH value and TOC with this enzyme activity. Respiration values of the AG soils generally increased while the B_C generally decreased with Cd contamination, while different trends were observed in the AM and LF soils. No trends in the enzyme activity‐to‐B_C ratios were found in relation to soil contamination. Information regarding the inhibition of arylesterase activity in TECS can be important for the management of soils co‐contaminated by TE and organic pollutants, in which the detoxification action of arylesterase may be reduced.     

DEHP污染的两种土壤中接种丛枝菌根对豇豆生长和DEHP降解的影响

A 60-day pot experiment was carried out using di-(2-ethylhexyl) phthalate (DEHP) as a typical organic pollutant phthalic ester and cowpea (Vigna sinensis) as the host plant to determine the effect of arbuscular mycorrhizal inoculation on plant growth and degradation of DEHP in two contaminated soils, a yellow-brown soil and a red soil. The air-dried soils were uniformly sprayed with different concentrations of DEHP, inoculated or left uninoculated with an arbuscular mycorrhizal (AM) fungus, and planted with cowpea seeds. After 60 days the positive impact of AM inoculation on the growth of cowpea was more pronounced in the red soil than in the yellow-brown soil, with significantly higher (P < 0.01) mycorrhizal colonization rate, shoot dry weight and total P content in shoot tissues for the red soil. Both in the yellow-brown and red soils, AM inoculation significantly (P < 0.01) reduced shoot DEHP content, implying that AM inoculation could inhibit the uptake and translocation of DEHP from roots to the aboveground parts. However, with AM inoculation no positive contribution to the degradation of DEHP was found.     

有机酸对土壤中镉的解吸及影响因素

研究了酒石酸和柠檬酸对两种不同处理土壤 (镉质土和污染土 )中Cd的解吸行为 ,探讨了介质pH值、支持电解质等对其解吸镉质土和污染土中Cd的影响。结果表明 ,随有机酸浓度升高 ,柠檬酸和酒石酸对镉质土和污染土中Cd的解吸率呈先降低后升高变化 ,出现一波谷 ,波谷位置与有机酸和土壤类型有关。当解吸液起始pH值由 2升至 8时 ,柠檬酸对镉质土和污染土中Cd的解吸率呈降低—升高—降低的变化 ,先后出现一波谷和一波峰 ,且柠檬酸浓度高时变化趋势尤为明显 ;而酒石酸对镉质土和污染土中Cd的解吸率则一直降低。解吸液中支持电解质浓度提高 ,酒石酸对镉质土和污染土中Cd的解吸率增大 ,且以KCl为支持电解质时的解吸率要高于KNO3。     

PARTITIONING OF HEAVY METALS IN PODZOL SOILS CONTAMINATED BY MINE DRAINAGE WATERS,DALARNA, SWEDEN

The discharge of acidic mine drainage waters onto a hillslope in Dalarna, central Sweden, has lead to the contamination of the podzol soils with Cu, Fe, Ni, Pb, Zn and sulfate. Samples from contaminated and reference soils have been collected for chemical and mineralogical analyses. Jarosite is identified by x-ray diffraction analysis as a precipitate in the upper horizons (A, E, B) of the contaminated soils, where the soil acidity (pH_KCl～2.6) promotes jarosite stability. The sequential chemical extraction of soil samples indicates that, in the reference A horizon, Cu, Pb, Ni and Zn are bound primarily to cation exchange sites and organic matter. In the A horizon of the contaminated soils closest to the rock dump, metal partitioning is dominated by the Fe oxide fractions, despite the high organic matter content; Pb is almost completely bound to crystalline Fe oxides, possibly adsorbed to Fe oxides or occuring in a jarosite solid solution. In the reference B and C horizons, Cu, Ni and Zn are primarily adsorbed/coprecipitated in the Fe oxide fractions, while Pb remains with a large fraction bound to organic matter. In the Fe-rich B horizon of the contaminated soils, the partitioning of the metals in cation exchange sites and to organic matter has greatly increased relative to the reference soils, resulting from the mobilization of organo-metal complexes down the profile.     

Native soil organic matter as a decisive factor to determine the arbuscular mycorrhizal fungal community structure in contaminated soils

The present study of arbuscular mycorrhizal (AM) fungi is focused on the identification of AM ecotypes associated with different plants species (Poa annua, Medicago polymorpha, and Malva sylvestris) growing in three contaminated soils with different organic matter, phosphorus, and trace element (TE; Cu, Cd, Mn, and Zn) contents. Soils were amended with biosolid and alperujo compost. Shifts in AM fungal community structure, diversity, richness, root colonization, and plant TE uptake were evaluated. Soil properties and plant species had a significant effect on AM fungal community composition as well as on root colonization. However, AM fungal diversity and richness were only affected by soil properties and especially by soil organic matter that was a major driver of AM fungal community. As soil quality increased, Glomeraceae decreased in favor of Claroideoglomeraceae in the community, AM fungal diversity and richness increased, and root colonization decreased. No effect due to amendment (exogenous organic matter) addition was found either in AM fungal parameters measured or TE plant uptake. Our results revealed that the role of TE contamination was secondary for the fungal community behavior, being the native organic matter content the most significant factor.     

The interactive effect of an AM fungus and an organic amendment with regard to improving inoculum potential and the growth and nutrition of Trifolium repens in Cd-contaminated soils

Aspergillus niger-treated dry olive cake (DryOC) can be used as a soil organic amendment and the aim of this work was to study the effectiveness of this amendment and a Cd-adapted arbuscular mycorrhizal (AM) fungus in improving Trifolium repens growth and nutrition in Cd-contaminated soil. In a compartmentalized growth system, consisting of a root compartment (RC) and two hyphal compartments (HCs), we investigated the influence of the amendment on intraradical and extraradical AM fungi development. In addition, we studied the viability and infectivity of the detached extraradical mycelium in plants, designated as receptor plants, grown in the HC after removal of the RC. Both the amendment and the AM fungus increased shoot and root biomass and nodulation in both the non-contaminated and Cd-contaminated soils. The positive interaction between the microbiologically treated DryOC and the AM fungus resulted in the highest plant yield, which can be explained by enhanced nutrient acquisition and arbuscular richness as well as by the immobilisation of Cd in amended soils. However, A. niger-treated DryOC had no effect on the extraradical mycorrhizal mycelium development. Although Cd decreased AM hyphal length density, symbiotic infectivity was similar in receptor plants grown in non-contaminated and contaminated soil, thus confirming the AM fungal inoculum potential.The combination of the AM fungus and A. niger-treated DryOC increased plant tolerance to Cd in terms of plant growth and nutrition and can be regarded as an important strategy for reclaiming Cd-contaminated soils.     

模拟酸雨对红壤中铝和水溶性有机质溶出及重金属活动性的影响

在模拟酸雨作用下 ,研究了重金属污染和未污染的酸性红壤和黄红壤中铝和水溶性有机质的溶出以及对重金属活动性的影响。结果表明 ,随模拟酸雨pH值下降 ,土壤pH值和盐基饱和度明显降低 ,而交换性酸度明显增加 ,污染土壤中交换性氢含量比未污染土壤高 ,而交换性铝含量比未污染土壤低。铝溶出量与模拟酸雨pH值密切相关 ,当模拟酸雨pH值在 5 .60～ 3.5 0时 ,供试红壤浸出液中铝浓度几乎在同一水平 ;当pH≥ 4 .5 0时 ,供试黄红壤中溶出铝亦未明显变化 ;当模拟酸雨pH =3.5 0时 ,未污染黄红壤中铝溶出明显增多 ;当pH =3.0 0时 ,供试土壤中铝溶出量急剧增加。随模拟酸雨pH值下降 ,污染土壤中铝溶出比未污染土壤低 ,而有效态重金属活动性明显增加 ;污染土壤中水溶性有机质比未污染土壤溶出明显增加 ,水溶性有机质 -重金属络合体促进了重金属的溶解迁移行为。     

多环芳烃污染土壤的植物-微生物联合修复初探

在温室盆栽条件下,通过种植紫花苜蓿单独或联合接种菌根真菌(Glomus caledonium L.)(AM)和多环芳烃专性降解菌(DB),研究了利用植物-微生物强化修复多环芳烃(PAHs)长期污染土壤的效果。试验结果表明,接种菌根真菌和PAHs专性降解菌能促进紫花苜蓿的生长和土壤中PAHs的降解。经过90天修复试验,种植紫花苜蓿接种AM、DB和DB+AM处理的PAHs的降解率分别为47.9%、49.6%、60.1%,均高于只种植紫花苜蓿的对照处理(CK)(21.7%)。另外,随着PAHs苯环数的增加,其平均降解率逐渐降低,但是接种PAHs专性降解菌能够提高4环和5环PAHs的降解率。同时也发现土壤中脱氢酶活性和PAHs降解菌数量越高的处理,土壤PAHs的降解率也越高,这也是种植紫花苜蓿接种微生物能够有效促进土壤PAHs降解的原因。     

A PCR-DGGE method for detecting arbuscular mycorrhizal fungi in cultivated soils

Arbuscular mycorrhizal (AM) fungi (AMF) are important components of agro-ecosystems and are especially significant for productive low-input agriculture. Molecular techniques are used to investigate fungal community composition in uncultivated, disturbed, or contaminated soils, but this approach to community analysis of AMF in agricultural soils has not been reported. In this study, a polymerase chain reaction and denaturing gradient gel electrophoresis (PCR-DGGE) procedure for the detection of fungal 18S ribosomal RNA gene was developed with reference cultures of seven isolates (representing five AMF species). These reference cultures were chosen because isolates of their species were putatively identified in a previous survey of farm field soils in the province of Saskatchewan, Canada. A reference PCR-DGGE profile was generated using DNA extracted and amplified from the spores of these cultures. The effectiveness of the procedure was tested by its application to soil samples from 38 farms. Prominent bands from the PCR-DGGE profiles of these samples were excised for sequence analysis. The total number of species recovered was low in comparison to other AMF community surveys of temperate climate locations. The majority of the sequences recovered were Glomus species. Scutellospora calospora, a previously undetected AM fungus in Saskatchewan was found. Though not without its drawbacks, this approach to community composition analysis of AMF was faster than conventional trap cultivation methods.     

有机质对多环芳烃环境行为影响的研究进展

多环芳烃(PAHs)的归宿和毒性受其环境行为的影响,主要取决于环境中各个因素的交互作用,而有机质是相当重要的因素,有机质对环境中PAHs的物理化学行为、生物过程均有一定的影响。本文着重介绍了有机质对水体、土壤和沉积物中PAHs的吸附、溶解和迁移以及生物可利用性和毒性等方面的影响,总结了离子强度、pH、表面活性剂、时间等影响有机质与PAHs作用的因素,同时简要介绍了土壤和沉积物中结合残留态PAHs的研究情况,指出结合残留态PAHs现有的研究方法有热解法和同位素标记法,最后提出系统地研究内源有机质(尤其碳黑和腐殖酸)的组成、性质与土壤PAHs的锁定与降解的关系和利用外源有机物强化修复污染的环境是今后研究的重点。