Trichoderma harzianum及其近缘种的分子系统学研究

Thichoderma harzianum是木霉属内最常见的一个“集合种”。本研究对来源不同的T.harzianum及其相似种的46个菌株进行了ITS序列测定,将其ITSl—5．8S—ITS2序列与来自EMBL的参考菌株的序列进行比较,并进行系统发育分析,此外对其中的18个菌株进行了RAPD多态性分析,试图明确T.harzianum的多样性以及与其相似种之间的关系。ITS结果表明,T.harzianum及其相似种可分成2个群(A、B)：A群由T.hamatum、T.asperellum、T.at-roviride、T.koningii和T.viride组成,并形成2个分支,表明T.viride和T.koningii、T.atroviride的亲缘关系较近,而与T.hamatum、T.asperellum较远;B群由T.spirale、T.hamatum、T.inhamatum、T.harzianum和T.anam。Hypocrea vinosa组成,并形成6个分支。T.inhamatum可分成2个群(Ti1、Ti2)、T.harzianum至少可分成5个群(Thl、Th2、Th4、Th5、Th6)。结果还表明T.hamatum的遗传差异较大,T.hamatum的模式菌株归属于A群,而其他的T.hamatum的菌株归属于B群。RAPD结果与ITS的结果基本一致。     

Molecular characterization and identification of biocontrol isolates of Trichoderma spp

The most common biological control agents (BCAs) of the genus Trichoderma have been reported to be strains of Trichoderma virens, T. harzianum, and T. viride. Since Trichoderma BCAs use different mechanisms of biocontrol, it is very important to explore the synergistic effects expressed by different genotypes for their practical use in agriculture. Characterization of 16 biocontrol strains, previously identified as "Trichoderma harzianum" Rifai and one biocontrol strain recognized as T. viride, was carried out using several molecular techniques. A certain degree of polymorphism was detected in hybridizations using a probe of mitochondrial DNA. Sequencing of internal transcribed spacers 1 and 2 (ITS1 and ITS2) revealed three different ITS lengths and four different sequence types. Phylogenetic analysis based on ITS1 sequences, including type strains of different species, clustered the 17 biocontrol strains into four groups: T. harzianum-T. inhamatum complex, T. longibrachiatum, T. asperellum, and T. atroviride-T. koningii complex. ITS2 sequences were also useful for locating the biocontrol strains in T. atroviride within the complex T. atroviride-T. koningii. None of the biocontrol strains studied corresponded to biotypes Th2 or Th4 of T. harzianum, which cause mushroom green mold. Correlation between different genotypes and potential biocontrol activity was studied under dual culturing of 17 BCAs in the presence of the phytopathogenic fungi Phoma betae, Rosellinia necatrix, Botrytis cinerea, and Fusarium oxysporum f. sp. dianthi in three different media.     

Trichoderma biodiversity in China

In the present study, we made further investigation into the diversity of Trichoderma in China than previous ones utilizing comprehensive approaches of morphological microscopic observation and phylogenetic analysis by detecting molecular markers. One thousand nine hundred ten Trichoderma strains were isolated from soil or other materials in China: East (Anhui, Fujian, Jiangsu, Jiangxi, Shandong, Zhejiang province and Shanghai municipality), South-West (Guizhou, Qinghai, Shanxi, Sichuan and Yunnan province, Tibet Autonomous Region and Chongqing municipality), South-East (Guangdong, Guangxi, Hainan province), and Middle China (Henan, Hubei and Hunan province). Representative isolates were verified at the species level by morphological characters and the oligonucleotide barcode program TrichoOKey v.10 and the custom BLAST server TrichoBLAST, using sequence of the ITS 1 and 2 region of the rDNA cluster and partial sequences of translation elongation factor 1-alpha(tef1-α). A total of 23 Trichoderma species were identified : T.asperellum, T.atrioviride, T.aureovriride, T.brevicompactum, T.citrioviride, T.erinaceum, T.gamsii, T.hamatum, T.harzianum (H.1ixii), T.intricatum, T.koningii (H.koningii), T.koningiopsis, T.longibranchiatum, T.pleuroticola, T.reeseii (H.jecorina), T.sinensis, T.spirale, T.stromaticum, T.tomentosum, T.velutinum, T.vermipilum, T.virens (H.virens), T.viride. Among them, 3 species: T.intricatum, T.stromaticum, T.vermipilum were first reported in China; T.harzianum (H,1ixii) was the most widely distributed species in China. This study further shows that, the highest biodiversity of Trichoderma population appeared in South-West China.     

我国河北、浙江、云南及西藏木霉种记述

对从中国河北、浙江、云南及西藏分离的72个木霉菌株进行了鉴定和分类学研究。采纳Gams&Bissett(1998)及Kullnig—Gradinger et al.(2002)的分类观点,鉴定出木霉属的12个种, 其中包括8个已知种:深绿木霉T.atroviride,桔绿木霉T.citrinoviride,哈茨木霉T.harzianum, 康宁木霉T.koningii,长枝木霉T.longibrachiatum,中国木霉T.sinensis,绿木霉T.virens和绿色木霉T.viride;4个我国新记录种是:木霉组(Trichoderma section)的棘孢木霉T.asperellum及粗梗组(Pachybasium section)的淡黄木霉T.cerinum,螺旋木霉T.spirale和茸状木霉T.velutinum。     

Phylogeny of the genus trichoderma based on sequence analysis of the internal transcribed spacer region 1 of the rDNA cluster

Sequences of the internal transcribed spacer region 1 (ITS1) of the ribosomal DNA were used to determine the phylogenetic relationships of species of Trichoderma sect. Pachybasium. To this end, 85 strains-including all the available ex-type strains-were analyzed. Parsimony analysis demonstrated that the section is nonmonophyletic, distributing the 85 strains among three main groups that were supported by bootstrap values. Group A comprises two clades (A1 and A2), with A1 including T. polysporum, T. piluliferum, and T. minutisporum, while A2 included T. hamatum, T. pubescens, and T. strigosum in addition to species previously included in sect. Trichoderma (i.e., T. viride, T. atroviride, and T. koningii). The ex-type strain of T. fasciculatum formed a separate branch basal to clade A. Clade B contained the sect. Pachybasium members T. harzianum, T. fertile, T. croceum, T. longipile, T. strictipile, T. tomentosum, T. oblongisporum, T. flavofuscum, T. spirale, and the anamorphs of Hypocrea semiorbis and H. cf. gelatinosa. Sequence differences among clades A1, A2, and B were in the same order of magnitude as between each of them and T. longibrachiatum, which was used as an outgroup in these analyses. Sequence differences within clades A1, A2, and B were considerably smaller: in some cases (i.e., T. virens and T. flavofuscum; T. strictipile and H. cf. gelatinosa), the ITS1-sequences were identical, suggesting conspecifity. In other cases (e.g., T. crassum and T. longipile; T. harzianum, T. inhamatum, T. croceum, T. fertile, and H. semiorbis; T. hamatum and T. pubescens; and T. viride, T. atroviride, and T. koningii) differences were in the range of 1-3 nt only, suggesting a very close phylogenetic relationship. The sequence of a previously described aggressive mushroom competitor group of T. harzianum strains (Th2) was strikingly different from that of the ex-type strain of T. harzianum and closely related species and is likely to be a separate species. Copyright 1998 Academic Press.     

辽宁木霉属(Trichoderma)真菌的形态分类研究

对采自辽宁省内14个地方的173份土样和植物组织材料进行分离,获得了54株Trichoderma菌株,采用形态学分类方法鉴定出12种木霉菌,分别是拟康氏木霉(Trichoderma pseudokoningii)、长枝木霉(T.longi-brachiatum)、粘绿木霉(T.virens)、卷曲木霉(T.spirale)、顶孢木霉(T.fertile)、粗壮木霉(T.strigosum)、长孢木霉(T.longipile)、钩状木霉(T.hamatum)、绿色木霉(T.viride)、康氏木霉(T.koningii)、深绿木霉(T.atroviri-de)和哈茨木霉(T.harzianum)。其中长孢木霉为中国新记录种,粗壮木霉和卷曲木霉为东北地区首次报道。文中列有辽宁省木霉属真菌的分种检索表,并附有各木霉菌的生境和分布。     

Soils of a Mediterranean hot spot of biodiversity and endemism (Sardinia, Tyrrhenian Islands) are inhabited by pan-European, invasive species of Hypocrea/Trichoderma

We have used a Mediterranean hot spot of biodiversity (the Island of Sardinia) to investigate the impact of abiotic factors on the distribution of species of the common soil fungus Trichoderma . To this end, we isolated 482 strains of Hypocrea / Trichoderma from 15 soils comprising undisturbed and disturbed environments (forest, shrub lands and undisturbed or extensively grazed grass steppes respectively). Isolates were identified at the species level by the oligonucleotide BarCode for Hypocrea / Trichoderma ( TrichO KEY), sequence similarity analysis ( Tricho blast ) and phylogenetic inferences. The majority of the isolates were positively identified as pan-European and/or pan-global Hypocrea / Trichoderma species from sections Trichoderma and Pachybasium , comprising H. lixii/T. harzianum , T. gamsii , T. spirale , T. velutinum , T. hamatum , H. koningii/T. koningii , H. virens/T. virens , T. tomentosum , H. semiorbis , H. viridescens/T. viridescens , H. atroviridis/T. atroviride , T. asperellum , H. koningiopsis/T. koningiopsis and Trichoderma sp. Vd2. Only one isolate represented a new, undescribed species belonging to the Harzianum–Catoptron Clade. Internal transcribed spacer sequence analysis revealed only one potentially endemic internal transcribed spacer 1 allele of T. hamatum . All other species exhibited genotypes that were already found in Eurasia or in other continents. Only few cases of correlation of species occurrence with abiotic factors were recorded. The data suggest a strong reduction of native Hypocrea / Trichoderma diversity, which was replaced by extensive invasion of species from Eurasia, Africa and the Pacific Basin.     

木霉属Trichoderma组和Pachybasium组的分子系统学研究

对来源不同的木霉及其有性型Longibrachiatum组、Trichoderma 组和Pachybasium组的81个菌株进行了ITS序列测定,并对ITS1序列用PHYLIP程序包中的DNAPARS程序进行系统发育分析。结果表明Trichoderma 组和Pachybasium组的所有菌株可分成两个群(A,B),B群进一步分为4个分支(B1,B2,B3,B4);A群由Trichoderma 组的H. aureoviridis和未鉴定到种的3个Hypocrea菌株构成;B1,B2,B4群均由Pachybasium组菌株构成;B3群由Pachybasium组的T. hamatum、T. strigosum和Trichoderma 组的T. asperellum、T. atroviride、T. koningii、T. viride和Hypocrea菌株T261构成。2个组相互交叉,组间没有明确的区分,进一步证明Pachybasium组是多系的。建议将Trichoderma 组中的T. viride aggr.、T. atroviride、T. koningii归并入Pachybasium组,对Trichoderma 组重新定义。     

Chemotaxonomy of Trichoderma spp. Using mass spectrometry-based metabolite profiling

In this study, seven Trichoderma species (33 strains) were classified using secondary metabolite profile-based chemotaxonomy. Secondary metabolites were analyzed by liquid chromatography-electrospray ionization tandem mass spectrometry (LC-ESI-MS-MS) and multivariate statistical methods. T. longibrachiatum and T. virens were independently clustered based on both internal transcribed spacer (ITS) sequence and secondary metabolite analyses. T. harzianum formed three subclusters in the ITS-based phylogenetic tree and two subclusters in the metabolitebased dendrogram. In contrast, T. koningii and T. atroviride strains were mixed in one cluster in the phylogenetic tree, whereas T. koningii was grouped in a different subcluster from T. atroviride and T. hamatum in the chemotaxonomic tree. Partial least-squares discriminant analysis (PLS-DA) was applied to determine which metabolites were responsible for the clustering patterns observed for the different Trichoderma strains. The metabolites were hetelidic acid, sorbicillinol, trichodermanone C, giocladic acid, bisorbicillinol, and three unidentified compounds in the comparison of T. virens and T. longibrachiatum; harzianic acid, demethylharzianic acid, homoharzianic acid, and three unidentified compounds in T. harzianum I and II; and koninginin B, E, and D, and six unidentified compounds in T. koningii and T. atroviride. The results of this study demonstrate that secondary metabolite profiling-based chemotaxonomy has distinct advantages relative to ITSbased classification, since it identified new Trichoderma clusters that were not found using the latter approach.     

洞庭湖湿地木霉多样性及生防活性

【目的】了解湖南省洞庭湖湿地木霉种类及分布,丰富我国的木霉种质资源,为功能菌株筛选应用奠定基础。【方法】利用ITS序列比对分析结合形态学特征对分离到的木霉菌株进行种类鉴定,构建系统发育进化树分析其亲缘关系。通过菌丝生长速率法测定菌株的平板抑菌能力,根据水解带大小检测菌株的水解酶活性,利用灰色关联度分析筛选综合生防效果较好的木霉菌株。【结果】从52个土样和18个水样中分离得到114株木霉菌株,经鉴定分属16个木霉种类:哈茨木霉、绿木霉、刺孢木霉、土星孢木霉、钩状木霉、拟康宁木霉、短密木霉、深绿木霉、猥木霉、毛细木霉(中国新记录种)、长枝木霉、卵孢木霉、侧耳木霉、加纳木霉、厚木霉及一个疑似新种;哈茨木霉为洞庭湖湿地中的优势种,占总菌株数量的19.30%;16种木霉在系统发育树中归于7个进化支:Harzianum Clade、Virens Clade、Longibrachiatum Clade、Lutea Clade、Viride Clade、Hamatum Clade、Unknown Clade。灰色关联度分析表明,菌株TW21990、QT22040和QT22094的灰色关联度较高,分别为0.849 5、0.798 6和0.732 6,综合生防性状较好。【结论】洞庭湖湿地木霉具有种类多样性和分布多样性,发现了一个中国新记录种毛细木霉和一个疑似新种,哈茨木霉TW21990、长枝木霉QT22040和卵孢木霉QT22094是潜在的优良生防菌株。     

Species pattern and genetic diversity of Trichoderma in a mid-European,primeval floodplain-forest

We investigated the occurrence and genetic diversity of Trichoderma in the river Danube national park, a primeval, riparian forest area located south-east of Vienna (Austria) which represents one of the last cases of an original European river-floodplain landscape. Forty-six strains were isolated and identified at the species level by analysis of morphological characters, by sequence analysis of their internal transcribed spacer regions 1 and 2 (ITS 1 and 2) of the rDNA cluster and--in some cases--a fragment of the translation elongation factor 1alpha (tef1) gene, and RAPD-analysis. Twenty-one strains were positively identified as T. harzianum, thirteen as T. rossicum, four as T. cerinum, two as T. hamatum, and one each as T. atroviride and T. koningii: four strains yielded two different ITS1 and 2 as well as tef1 sequence types, which were not alignable with any known species. Our studies show that they represent two new taxa of Trichoderma.     

Typing and selection of wild strains of Trichoderma spp. producers of extracellular laccase

Using the ITS region and the gene tef1, 23 strains of the genus Trichoderma were identified as belonging to the species T. harzianum (n = 14), T. olivascens (n = 1), T. trixiae (n = 1), T. viridialbum (n = 1), T. tomentosum (n = 2), T. koningii (n = 1), T. atroviride (n = 1), T. viride (n = 1), and T. gamsii (n = 1). Strains expressing extracellular laccase activity were selected by decolorization/oxidation assays in solid media, using azo, anthraquinone, indigoid, and triphenylmethane dyes, and the phenolic substances tannic acid and guaiacol. No strain decolorized Direct Blue 71 or Chicago Blue 6B, but all of them weakly oxidized guaiacol, decolorized Methyl Orange, and efficiently oxidized tannic acid. Based in decolorization/oxidation assays, strains CMU‐1 (T. harzianum), CMU‐8 (T. atroviride), CMU‐218 (T. viride), and CMU‐221 (T. tomentosum) were selected for evaluating their extracellular laccase activity in liquid media. Strain CMU‐8 showed no basal laccase activity, while strains CMU‐1, CMU‐218, and CMU‐221 had a basal laccase activity of 1,313.88 mU/mL, 763.88 mU/mL, and 799.53 mU/mL, respectively. Addition of sorghum straw inhibited laccase activity in strain CMU‐1 by 34%, relative to the basal culture, while strains CMU‐8, CMU‐21, and CMU‐221 increased their laccase activity by 1,321.5%, 64%, and 47%, respectively. These results show that assayed phenolic substrates are good tools for selecting laccase producer strains in Trichoderma. These same assays indicate the potential use of studied strains for bioremediation processes. Straw laccase induction suggests that analyzed strains have potential for straw delignification in biopulping and other biotechnological applications. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:787–798, 2016     

中国西南地区木霉属分类研究

从西南四省区(云、贵、川、藏)的土壤和其它样品中分离木霉301株,鉴定出9个木霉集合种(species aggregates) :哈茨木霉(Trichoderma harzianum Rifai),拟康氏木霉(T.pseudokoningii Rifai),长枝木霉(T.longibrachiatum Rifai),深绿木霉(T.atrovirideBissett),桔绿木霉(T.citrinoviride Bissett),绿色木霉(T.viride Pers.ex S.F.Gray),钩状木霉(T.hamatum(Bon)Bain),康氏木霉(T.koningii Oud.)以及黄绿木霉(T.aureoviride Rifai)。从各个样点收集的42种不同作物和其它植被土样中都分离到木霉;土样pH值为4—8.5,海拔300—5400m。以哈茨木霉和拟康氏木霉出现频率最高,分别为28.5%和21.1%,似为西南地区木霉优势种群,而绿色木霉、钩状木霉和深绿木霉很少分离到。这样的种群结构可能与西南地区气候和采样季节有关。     

Identification of Trichoderma strains from building materials by ITS1 ribotyping, UP-PCR fingerprinting and UP-PCR cross hybridization

To study the role of Trichoderma in sick building syndrome, it is essential to be able to accurately identify species. Forty-four strains of Trichoderma spp. isolated from Danish buildings damaged by water leaks were identified using ITS1 ribotyping and universally primed PCR, UP-PCR. Ribotyping allowed the assignment of the strains into three distinct groups. High similarity of UP-PCR banding profiles of the strains allowed species designation for almost all strains (43 out of 44) when compared with the UP-PCR banding profiles obtained from reference strains of T. atroviride, T. citrinoviride, T. harzianum, T. longibrachiatum and T. viride. However, cross hybridization of UP-PCR products showed that the latter strain had high DNA homology to the ex-type strain of T. hamatum. The combined approach is a convenient way for reliable identification of Trichoderma strains.     

Phylogeny of the GenusTrichodermaBased on Sequence Analysis of the Internal Transcribed Spacer Region 1 of the rDNA Cluster

Sequences of the internal transcribed spacer region 1 (ITS1) of the ribosomal DNA were used to determine the phylogenetic relationships of species ofTrichodermasect.Pachybasium.To this end, 85 strains—including all the availableex-type strains—were analyzed. Parsimony analysis demonstrated that the section is nonmonophyletic, distributing the 85 strains among three main groups that were supported by bootstrap values. Group A comprises two clades (A1 and A2), with A1 includingT. polysporum, T. piluliferum,andT. minutisporum,while A2 includedT. hamatum, T. pubescens,andT. strigosumin addition to species previously included in sect.Trichoderma(i.e.,T. viride, T. atroviride,andT. koningii). Theex-type strain ofT. fasciculatumformed a separate branch basal to clade A. Clade B contained the sect.PachybasiummembersT. harzianum, T. fertile, T. croceum, T. longipile, T. strictipile, T. tomentosum, T. oblongisporum, T. flavofuscum, T. spirale,and the anamorphs ofHypocrea semiorbisandH. cf. gelatinosa.Sequence differences among clades A1, A2, and B were in the same order of magnitude as between each of them andT. longibrachiatum,which was used as an outgroup in these analyses. Sequence differences within clades A1, A2, and B were considerably smaller: in some cases (i.e.,T. virensandT. flavofuscum; T. strictipileandH. cf. gelatinosa), the ITS1-sequences were identical, suggesting conspecifity. In other cases (e.g.,T. crassumandT. longipile; T. harzianum, T. inhamatum, T. croceum, T. fertile,andH. semiorbis; T. hamatumandT. pubescens;andT. viride, T. atroviride,andT. koningii) differences were in the range of 1–3 nt only, suggesting a very close phylogenetic relationship. The sequence of a previously described aggressive mushroom competitor group ofT. harzianumstrains (Th2) was strikingly different from that of theex-type strain ofT. harzianumand closely related species and is likely to be a separate species.     

Biochemical and metabolic profiles of Trichoderma strains isolated from common bean crops in the Brazilian Cerrado, and potential antagonism against Sclerotinia sclerotiorum

Some species of Trichoderma have successfully been used in the commercial biological control of fungal pathogens, e.g., Sclerotinia sclerotiorum, an economically important pathogen of common beans (Phaseolus vulgaris L.). The objectives of the present study were (1) to provide molecular characterization of Trichoderma strains isolated from the Brazilian Cerrado; (2) to assess the metabolic profile of each strain by means of Biolog FF Microplates; and (3) to evaluate the ability of each strain to antagonize S. sclerotiorum via the production of cell wall-degrading enzymes (CWDEs), volatile antibiotics, and dual-culture tests. Among 21 isolates, we identified 42.86% as Trichoderma asperellum, 33.33% as Trichoderma harzianum, 14.29% as Trichoderma tomentosum, 4.76% as Trichoderma koningiopsis, and 4.76% as Trichoderma erinaceum. Trichoderma asperellum showed the highest CWDE activity. However, no species secreted a specific group of CWDEs. Trichoderma asperellum 364/01, T. asperellum 483/02, and T. asperellum 356/02 exhibited high and medium specific activities for key enzymes in the mycoparasitic process, but a low capacity for antagonism. We observed no significant correlation between CWDE and antagonism, or between metabolic profile and antagonism. The diversity of Trichoderma species, and in particular of T. harzianum, was clearly reflected in their metabolic profiles. Our findings indicate that the selection of Trichoderma candidates for biological control should be based primarily on the environmental fitness of competitive isolates and the target pathogen.     

Screening of some wild fungal isolates for cellulolytic activities

Six wild fungal strains, Trichoderma viride, T. harzianum, Gliocladium virens, Aspergillus terreus, A. niger and Tiarosporella phaseolina , isolated from decomposed jute stacks and diseased jute stem, were tested for their cellulolytic and hemicellulolytic activities and compared with T. reesei MCG 77. Filter paper cellulase production by all these wild strains were lower than those produced by T. reesei while some strains ( T. viride, T. harzianum and G. virens ) possessed carboxymethyl cellulase, β-glucosidase, xylanase and β-xylosidase activities comparable to T. reesei. A. terreus and A. niger produced 3·2 and 1·2 times respectively, greater β-glucosidase activity compared to T. reesei when grown on microcrystalline cellulose.     

Isolate-specific conidiation in Trichoderma in response to different nitrogen sources

A characteristic feature of Trichoderma is the production of concentric rings of conidia in response to alternating light/dark conditions and a single ring of conidia in response to a single burst of light. In this study, conidiation was investigated in four biocontrol isolates (T. hamatum, T. atroviride, T. asperellum, T. virens) and one isolate from the mushroom pathogen species, T. pleuroticola. All five isolates produced concentric conidial rings under alternating light/dark conditions on potato-dextrose agar (PDA), however, in response to a 15min burst of blue light, only T. asperellum and T. virens produced a clearly defined conidial ring. Both T. pleuroticola and T. hamatum photoconidiated in a disk-like fashion and T.?atroviride produced a broken ring with a partially filled in appearance. In the presence of primary nitrogen, T. asperellum and T. pleuroticola conidiated in a disk, whereas, when grown in the presence of secondary nitrogen, a ring of conidia was produced. Primary nitrogen promoted photoconidiation and competency to conidiate in response to light appeared dependent on the nitrogen catabolite repression state of the cell. Mycelial injury was also investigated in the same five isolates of Trichoderma on PDA and under different nitrogen statuses. For the first time, we report that conidiation in response to injury is differentially regulated in different isolates/species of Trichoderma.     

Identification of Trichoderma strains by image analysis of HPLC chromatograms

Forty-four Trichoderma strains from water-damaged building materials or indoor dust were classified with chromatographic image analysis on full chromatographic matrices obtained by high performance liquid chromatography with UV detection of culture extracts. The classes were compared with morphological identification and rDNA sequence data, and for each class all strains were of the same identity. With all three techniques each strain--except one--was identified as the same species. These strains belonged to Trichoderma atroviride (nine strains), Trichoderma viride (three strains), Trichoderma harzianum (10 strains), Trichoderma citrinoviride (12 strains), and Trichoderma longibrachiatum (nine strains). The odd strain was identified as Trichoderma hamatum by morphology and rDNA sequencing, but not by image analysis as no reference strains of this species were included. It is concluded that the secondary metabolite profile contains sufficient information for classification and species identification.     

Tricalcium phosphate solubilizing abilities of Trichoderma spp. in relation to P uptake and growth and yield parameters of chickpea (Cicer arietinum L.)

Nine isolates of Trichoderma spp. were investigated for their ability to solubilize insoluble phosphate in Pikovskaya's broth and were compared with an efficient phosphate-solubilizing bacterium Bacillus megaterium subsp. phospaticum PB that was used as the reference strain. All 9 Trichoderma isolates were found to solubilize insoluble tricalcium phosphate to various extents. Trichoderma viride (TV 97) (9.03 microg x mL(-1)), Trichoderma virens (PDBCTVs 12) (9.0 microg x mL(-1)), and Trichoderma virens (PDBCTVs 13) (8.83 microg x mL(-1)) solubilized 70% of that solubilized by the reference strain Bacillus megaterium (12.43 microg x mL(-1)). Pot culture and field evaluations with Trichoderma harzianum (PDBCTH 10), Trichoderma viride (TV 97), and Trichoderma virens (PDBCTVs 12) using chickpea (Cicer arietinum L.) 'Annegeri-1' as the test plant and rock phosphate as the phosphorus source showed significantly increased P uptake in plants treated with Trichoderma harzianum (PDBCTH 10) followed by Trichoderma virens (PDBCTVs 12) and Trichoderma viride (TV 97). Inoculation of Trichoderma spp. also showed increased growth and yield parameters of chickpea compared with the uninoculated controls under both glasshouse and field conditions.