土壤因子对西藏高原草地植物AM真菌的影响

于西藏高原中部地区就土壤因子对草地植物AM真菌的影响进行的研究表明：AM真菌孢子密度与菌根侵染率、菌根侵染强度无相关性；土壤质地对AM真菌孢子密度的影响明显大于土壤类型，壤土、粉砂土中AM真菌对植物根系的侵染率高于砂壤土；土壤pH与植物根围土壤孢子密度、菌根侵染率分别呈显著正相关和正相关，与菌根侵染强度则呈负相关；土壤有机质与AM真菌孢子密度呈负相关，菌根侵染效果则随土壤有机质含量的增加而提高；高磷土壤环境对AM真菌产孢和侵染均具不同程度的抑制作用，其中植物菌根侵染率随土壤有效磷含量的提高而呈显著下降；AM真菌对莎草科植物矮生嵩草、扁穗莎草根系具有良好的侵染效应。     

烟草与丛枝菌根真菌的共生效应研究进展

丛枝菌根(Arbuscular mycorrhiza,AM)真菌是陆地生态系统中广泛存在的一类专性共生土壤微生物,是根系土壤区域中重要的功能菌群之一。AM真菌可侵染植物根系形成丛枝菌根共生体,改变植物根系形态和改善营养状况,从而提高宿主植物的生长发育、产量、质量和抗逆性。目前从烟草根系土壤分离报道的AM真菌已达13属54种,显示出烟草(Nicotiana tobacum L.)栽培的潜在AM真菌资源较为丰富。围绕烟草与AM真菌的共生效应,总结了影响AM真菌侵染和定殖烟草根系的主要因素,阐述了AM真菌对烟草生长、抗性生理及品质的影响,并对PGPR与AM真菌的协同作用进行了简要回顾,最后讨论了该领域存在的不足及今后展望;旨在为菌根技术运用于烟草栽培提供参考。     

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…     

松嫩盐碱草地植物丛枝菌根的初步调查

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。     

AM真菌与地上草食动物的互作及其对宿主植物的影响

丛枝菌根是自然生态系统中广泛存在的一种植物根系与菌根真菌的共生体.放牧是草原生态系统的一种重要生态学功能.目前,关于AM真菌和植物的关系,以及草食动物与植物的相互作用研究已经非常深入,但有关AM真菌-植物-草食动物的多重相互作用研究尚处于发展初期.本文从揭示AM真菌-植物-草食动物三者相互作用机理的角度出发,围绕动物采食作用对AM真菌的侵染、孢子群落组成的变化及其作用机理,丛枝菌根对动物采食行为的影响,以及植物个体与群落对二者共同作用的响应等方面,对AM真菌-植物-草食动物研究领域最新的成果进行综述,并在此基础上,提出AM真菌-植物-草食动物相互作用领域未来的研究方向.     

接种AM真菌对采煤沉陷区文冠果生长及土壤特性的影响

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。     

土壤因子对西北盐碱土中VA菌根真菌的影响

大量研究表明,盐碱土中存在着丰富的泡囊-丛枝(Vesicular Arbuscular;VA)菌根真菌[1,2],但其丰富程度受多种因素的影响,如宿主植物种类、土壤因子和环境因子等等[3]。近年来,国外一些学者初步探索了盐碱土中土壤因子与VA菌根真菌生长和发育间的关系[4],其中以A liasgharzadeh等[5]的研究较为系统,他们发现大不里士(伊朗西北部城市)盐碱土中VA菌根真菌孢子密度与土壤中砂粒的百分含量呈显著正相关,与Mg2+、Ca2+、Na+、C l-、土壤黏粒和速效磷含量呈显著负相关;VA菌根真菌侵染率与土壤中砂粒的百分含量呈显著正相关,与EC(电导率)、盐度及Mg2+、Ca     

蚯蚓与丛枝菌根真菌的相互作用及其对植物的影响

蚯蚓和丛枝菌根(Arbuscular mycorrhiza,AM)真菌都是有益的土壤生物,对提高土壤养分有效性和植物吸收利用营养元素具有重要影响。本文综述了蚯蚓对AM真菌取食、传播和侵染的影响、蚯蚓与AM真菌相互作用的效应和机制方面的最新研究进展,以及AM真菌与蚯蚓互作改善植物营养和生长以及协同修复土壤重金属方面的作用,以期为今后研究发展提供依据。     

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。     

同位素示踪研究丛枝菌根真菌吸收不同氮素并向寄主植物输运的机理

丛枝菌根(Arbuscular mycorrhizae,AM)是自然界中普遍存在的与植物共生的真菌[1]。目前人们对AM真菌的基础研究主要是着眼于与植物共生的生化代谢机理和信号机制、遗传学、建立共生关系相关基因的研究[2-8]。     

菲对秀丽隐杆线虫、中杆属和拟丽突属线虫毒性效应研究

采用悉生培养系统,研究不同浓度菲对秀丽隐杆线虫、拟丽突属与中杆属线虫的毒性效应,以及3种线虫对菲的去除作用。结果表明:(1)随着菲浓度的增加,3种线虫存活率逐渐降低。秀丽隐杆线虫在不添加菲的处理中,48 h内出现繁殖,而在添加菲的处理中,即使在最低浓度5 mg/L下,繁殖现象也会消失。中杆属与拟丽突属线虫由于世代时间较长,在本试验周期内均未出现繁殖现象。(2)暴露24 h时,比较不同浓度菲处理下线虫的相对死亡率,得到3种线虫的耐性依次为中杆属线虫≥秀丽隐杆线虫≥拟丽突属线虫,且随菲浓度的增加,秀丽隐杆线虫耐性水平逐渐降低;暴露48 h时中杆属线虫耐性依旧高于拟丽突属,而72 h时中杆属与拟丽突属线虫的耐性趋于一致。(3)3种线虫受菲胁迫后均失去头部正常摆动能力,且秀丽隐杆线虫与拟丽突属线虫体长随菲浓度的增加而逐渐降低。(4)不同种类线虫的添加均能促进菲的去除,不同线虫之间无显著差异。因此,菲会显著抑制3种线虫的存活率和生长发育,抑制秀丽隐杆线虫的繁殖。线虫的存活率受线虫种类、暴露时间、菲浓度及其交互作用的影响显著,其中中杆属线虫对菲的综合耐性最强,3种线虫均能促进溶液中菲的去除。     

Oleaster (var. sylvestris) and subsp. cuspidata are suitable genetic resources for improvement of the olive (Olea europaea subsp. europaea var. europaea)

The olive belongs to Olea, a complex genus and to a species with six subspecies. Subsp. europaea includes both the cultivated olive and the oleaster, the wild ancestor of the olive. Little is known on the phenotype of fruits from subsp. cuspidata. We aimed to compare europaea and cuspidata trees for oil content and composition and to verify whether natural hybrids may exist between the two subspecies. Specimens were from Kenya and putative natural hybrids between cuspidata and europaea were from Stellenbosch (South Africa). Cultivar and oleaster trees were sampled in France (continental and Corsica), Italy (Continental and Sardinia) and Tunisia. We have examined the fruit (drupe) structure between subsp. cuspidata and europaea and extracted oil from the pulp, seed and total drupe. Comparison for oil content was made between the cultivated olive and the oleaster and some cuspidata trees from Kenya. A few of cuspidata individuals from Botanical gardens do not enable phenotyping for oil content and composition. Oil composition analyses were performed for the main fatty acids to compare the three taxa. We used microsatellite markers at 11 loci to compute genetic distances between cuspidata, oleaster and cultivar trees and to reveal eventual hybrids. The SSR polymorphisms were huge between the two subspecies and they revealed that putative hybrids were true hybrids sampled around olive orchards. The whole comparison of oil content shows that olive cultivars display higher oil content than the subsp. cuspidata and that the oleaster trees are intermediate, whereas for oil composition of the drupe, cuspidata from Kenya shows less oleic acid than europaea. However, the cuspidata trees show seed oil composition similarities with the other two taxa. The discussion deals with possible reasons to explain the differences and of the possible uses of these taxa for breeding both the olive and brown olive. H. Hannachi and H. Sommerlatte have equal contribution in the article.     

酸枣荆条耗水特征及其茎木质部解剖构造

[目的]研究酸枣和荆条耗水特征与其茎木质部解剖构造之间的关系,为中国北方干旱区造林树种的选择提供技术支持。[方法]采用热扩散式液流探针(TDP)法对酸枣和荆条的树干液流进行监测,并于监测完成后,采用切片法,观察其茎木质部解剖构造。[结果](1)不同季节2树种的耗水特征存在差异,与湿润季节相比,干旱季节两树种树干液流变化均具有较强的波动性,其日均液流速度和日均耗水量均较小;2树种相比,干旱季节时酸枣的最大液流速度、日均液流速度以及日均耗水量均显著大于荆条,而湿润季节与之相反。(2)就其茎木质部解剖构造而言,酸枣的导管形状大小比较均一,而荆条的导管形状大小参差不齐;酸枣的导管直径、长度、面积平均值及边材相对输导面积均小于荆条,而其导管密度大于荆条。(3)酸枣的相对输导率和脆性指数均小于荆条,说明酸枣的水分输导的有效性小于荆条,而其安全性和抗旱性大于荆条;另外,在湿润季节,二者的耗水特征主要取决于其水分输导的有效性,而在干旱季节,主要取决于其安全性和抗旱性,进而阐明了二者在不同季节表现出不同耗水差异的原因。[结论]与荆条相比,酸枣的茎解剖构造更有利于其在干旱季节维持较高的树干液流,进而得以正常的生长,因此更适合于干旱区造林。     

Nuclear DNA content estimations in wild olive ( Olea europaea L. ssp. europaea var. sylvestris Brot.) and Portuguese cultivars of O. europaea using flow cytometry

Olive tree (Olea europaea L.) is an economically important woody fruit crop widely distributed in the Mediterranean regions. In this work the genome size of six Portuguese cultivars of olive (O. europaea ssp. europaea var. europaea) and wild olive (O. europaea spp. europaea var. sylvestris) was estimated for the first time. The nuclear DNA content of O. europaea cultivars ranged between 2.90 ± 0.020 pg/2C and 3.07 ± 0.018 pg/2C and the genome size of wild olive was estimated as 3.19 ± 0.047 pg/2C DNA. These results suggest a low intraspecific variation at least among the studied cultivars and between them and wild olive. This is not in accordance with previous results in some Italian cultivars where high genome size heterogeneity was found. The methodology presented here seems appropriate for genome size estimations within this genus and opens good perspectives for a large screening of estimation of nuclear DNA content among O. europaea cultivars and Olea species that could clarify this issue.     

Morphological characterization of seeds of three Australian wild Citrus species (Rutaceae): Citrus australasica F. Muell., C. inodora F.M. Bailey and C. garrawayi F.M. Bailey

The comparative morphology of the seeds of three Australian Citrus species, C. australasica C. inodora and C. garrawayi, was studied. Their seed characteristics were broadly similar to those of the cultivated species of the genus, when observed under light and scanning electron microscopy. Citrus garrawayi differed in seed shape (rounded to triangular) and seed coat morphology (i.e., thicker with longer epidermal protrusions) from C. australasica and C. inodora (rounded surface with flat underside in shape). The well-developed minute epidermal protrusions on the seed coat of C. garrawayi were more similar to those in the cultivated species, C. × sinensis and C. × aurantium. In contrast, the surface topography of C. australasica and C. inodora seeds was more like that of the cultivated species, C. × aurantifolia and C. × limon. Seed morphology, especially surface topography, was found to be a useful tool for taxonomic identification in Australian wild citrus.     

铅胁迫下小花南芥与玉米间作对根系分泌物 有机酸的影响

为了揭示Pb胁迫对间作和单作的超累积植物和作物根系分泌低分子有机酸的影响,研究设置400 mg·L?1Pb胁迫,采用水培曝气法试验,以玉米和小花南芥单作为对照处理,研究Pb胁迫下玉米和小花南芥间作对植物根系形态、根系分泌有机酸及Pb吸收的影响。结果表明:与单作相比,间作小花南芥情况下,玉米根系分泌物检测到乳酸;玉米分根条数、根表面积和根密度与单作相比分别增加60%、15%和42%,地下部和地上部干重生物量分别增加108%和75%,玉米地下部Pb含量下降44%;与单作相比,间作玉米条件下,小花南芥根系分泌物检测到乙酸和乳酸,小花南芥根系分泌物量与单作相比增加103%~1 700%,小花南芥地下部和地上部Pb累积量分别比单作增加49%和75%,转运系数增加22%。相关分析结果表明,单作小花南芥只有地上部Pb累积量与草酸显著相关,而间作小花南芥地下部和地上部Pb累积量与草酸、柠檬酸和苹果酸显著相关。研究表明超富集植物小花南芥与玉米间作体系,根系分泌的有机酸改变了Pb在小花南芥和玉米体内的累积特征,促进超累积植物小花南芥累积Pb,减少农作物玉米植株体内Pb含量。Pb胁迫下超累积植物小花南芥与玉米间作是一种可行的修复模式。     

rDNA polymorphism of foxtail millet (Setaria italica ssp. italica) landraces in northern Pakistan and Afghanistan and in its wild ancestor (S. italica ssp. viridis)

Ribosomal DNA (rDNA) spacer length polymorphism was studied in foxtail millet (Setaria italica ssp. italica) landraces from Pakistan and Afghanistan and in its wild ancestor (S. italica ssp. viridis) from Pakistan by PCR-based methods. Sequence polymorphism was also investigated for accessions selected based on the observed length polymorphism. The PCR-based length polymorphism and sequence polymorphism of rDNA intergenic spacer (IGS) clearly demonstrated genetic differentiation between cultivated and wild forms in the region. Genetic differentiation was observed between different areas to some extent in the cultivated form, and between different regions in the wild form of northern Pakistan. Based on the results, we discuss the genetic differentiation of foxtail millet and wild ancestor in this region and possible utility of rDNA markers to trace the dispersal of this crop in the region.     

Interception of water by pastures of Pennisetum clandestinum Hochst. ex Chiov. and Melinis minutiflora Beauv.

The conversion of montane cloud forests into pastures for grazing cattle is the main cause of important impacts on rivers and streams in most of the Andes. In order to evaluate the effects of vegetation changes we need to understand water fluxes, particularly canopy interception. We measured net precipitation responses by the canopies of Pennisetum clandestinum Hochst. ex Chiov. and Melinis minutiflora Beauv. under simulated rainfall. The samples were taken from grazed pastures during 1 year, digging out round mats of grass, placing them on wire-mesh devices after eliminating soil and underground biomass, and irrigating with different water amounts. The resulting data allow us to present a validated model for each species that predicts percentage of interception at different precipitation intensities taking into account previous canopy wetness within determined biomass ranges. We use these models to estimate 2 years of interception values for pastures of both species in the upper watershed of El Cañadón, Capaz River, Venezuelan Andes. Mean annual precipitation of El Cañadón is 1244 mm and the estimate of pasture interception was 36.5% and 31.8% for P. clandestinum and M. minutiflora, respectively. Interception models, such as the ones derived in this study, provide a basis for quantifying interception rates as a function of previous wetness of canopies and grass species.     

Analysis of clonal germplasm from five Saccharum species: S. barberi , S. robustum, S. officinarum, S. sinense and S. spontaneum . A study of inter- and intra species relationships using microsatellite markers

In order to study relationships within and among species of the highly complex polyploid genus Saccharum, 30 clones from 5 species (S. barberi, S. officinarum, S. robustum, S. sinense, and S. spontaneum) and 6 cultivated clones were analyzed using 15 sugarcane simple sequence repeat (SSR) markers and two multivariate statistical methods. The origins of two species, S. barberi and S. sinense, are unclear, and it has been hypothesized that they arose from crosses of S. officinarum × S. spontaneum. S. robustum is suggested to be ancestral to S. officinarum, which, when crossed with S. spontaneum, principally comprise the genomes of commercial cultivars. Although our analyses supported S. robustum as being an ancestor of S. officinarum, and show the composition of commercial clones as expected, our results concerning the species S. barberi and S. sinense indicated them to be much less related to the main Saccharum germplasm pool than previous molecular marker investigations, suggesting that introgression from other genera may exist in their ancestry. The differing results of our analysis of S. barberi and S. sinense are likely attributable to more equal and larger numbers of clones studied in each species. Given the extremely high ploidy, the use of only 15 SSR markers enabled clear distinction of Saccharum species and clones, and also identified likely mislabeled accessions. In addition, the replication of DNA extraction, polymerase chain reactions, and fragment electrophoresis increased the robustness of our analysis.     

梭梭和柽柳土壤微生物多样性初步分析

直接从沙漠土壤中提取混合微生物DNA,利用Illuminamiseq测序平台,对16S r DNA进行测序和分析。结果表明:1荒漠植被土壤微生物数量很少,生物活性极弱,DNA提取难度大;2沙漠植被土壤细菌多样性丰富,所有测得细菌分属到23个门和316个属,其中还存在一定数量的微生物新种,部分测得代表新属和种的序列提交Gen Bank,获得序列号(KT984242~KT984249);3不同沙漠土壤样品微生物群落有相似性,但也有较明显的差异,其差异与土壤理化因子等因素有关:如土壤含水量与酸杆菌和变形菌的分布相关;相对于空地,梭梭和柽柳群落土壤独有的迷踪菌门(Elusimicrobia)与固氮菌密切相关;梭梭的土壤环境p H明显高于柽柳土壤环境这决定了它们不同的优势种;土壤微生物生物量碳的大小不能反映微生物量的种类多少,但可以反映微生物数量的多少。