AM真菌控制蚕豆枯萎病发生的根际微生物效应

在温室盆栽条件下,研究了接种尖孢镰刀菌蚕豆专化型和丛枝菌根(AM)真菌(摩西球囊霉Gm、扭形球囊霉Gt、根内球囊霉Gi及幼套球囊霉Ge)对灭菌连作土壤中蚕豆幼苗生长、枯萎病发生、根际镰刀菌数量和微生物代谢功能多样性的影响.结果表明: 接种AM真菌能显著增加蚕豆幼苗地上部和地下部鲜质量;接种Gm、Gt、Gi和Ge真菌使蚕豆枯萎病病情指数分别显著降低94.0%、60.0%、64.0%和94.0%,使蚕豆根际镰刀菌数量分别显著降低98.6%、74.3%、77.8%和90.4%,以Gm和Ge真菌对蚕豆枯萎病的抑制效应最好.接种Gm、Gt和Ge显著提高了根际微生物对糖类(CH)、氨基酸类(AA)、羧酸类(CA)和酚酸类(PA)碳源的利用,使蚕豆根际微生物的AWCD值分别显著提高34.4%、31.5%和50.8%;而接种Gi对AA、CA、PA类碳源利用和AWCD值均无显著影响,使微生物对CH类碳源的利用显著降低59.3%.主成分和相关分析表明, 接种AM真菌明显改变了蚕豆根际微生物的群落结构.接种Gt真菌提高了蚕豆根际微生物对AA类碳源(β-甲基-D-葡萄糖苷、D-半乳糖酸-γ-内酯、D-甘露醇、N-乙酰基-D-葡萄糖胺、D-纤维二糖)和CA类碳源(D-半乳糖醛酸)的利用,而接种Gi真菌降低了微生物对以上碳源的利用;接种Gm和Ge真菌提高了根际微生物对L-精氨酸和4-羟基苯甲酸的利用.表明糖类和羧酸类是接种Gt真菌后蚕豆根际土壤微生物利用的主要碳源, 氨基酸和酚酸类是接种Gm和Ge后蚕豆根际土壤微生物利用的主要碳源.接种AM真菌显著提高了蚕豆根际微生物的活性,改变了微生物群落结构并抑制病原菌的增殖,是AM真菌减轻了蚕豆枯萎病的发生的重要原因.不同AM真菌减轻了蚕豆枯萎病的发生与其改变微生物的碳源利用密切相关.     

施氮对间作蚕豆根际微生物区系和枯萎病发生的影响

通过田间小区试验,研究了小麦、蚕豆间作条件下4个施氮水平(0,56.25,112.5kg.hm-2和168.75kg.hm-2)对蚕豆根际微生物区系和蚕豆枯萎病发生的影响。结果表明,单作和间作条件下,施氮显著增加了蚕豆根际的微生物数量,在N2(112.5kg.hm-2)水平下达到最高值;施氮对土壤微生物多样性无显著影响,但减轻了单、间作蚕豆枯萎病的发生,且在N2水平下发病最轻。与单作相比,间作显著增加了蚕豆根际的细菌、真菌、放线菌数量、微生物总数和微生物多样性,尤其在N0、N1(56.25kg.hm-2)和N2(112.5kg.hm-2)水平下间作对蚕豆根际微生物的促进效应明显,且以真菌和放线菌的增幅较大.N0、N1和N2水平下间作显著降低了蚕豆枯萎病的发病率和病情指数。小麦蚕豆间作下适量施氮能有效调节蚕豆根际微生物区系,是抑制蚕豆枯萎病发生的有效措施。     

间作减轻蚕豆枯萎病的微生物和生理机制

通过田间小区试验,研究了小麦与蚕豆间作对蚕豆枯萎病发病率、病情指数、根际镰刀菌数量、蚕豆根系抗氧化酶活性和膜质过氧化的影响.采用Biolog ECO板分析了根际土壤微生物的代谢功能多样性,通过高效液相色谱(HPLC)测定了蚕豆根际土壤中酚酸含量.结果表明: 与单作蚕豆相比,小麦与蚕豆间作有降低蚕豆枯萎病发病率的趋势;发病盛期和发病末期,间作使蚕豆枯萎病的病情指数比单作显著降低15.8%和22.8%,明显提高了蚕豆根际微生物活性(AWCD值),根际微生物的Shannon多样性指数显著提高4.4%和5.3%,丰富度指数显著提高19.4%和37.1%.主成分分析表明,发病盛期和发病末期,间作明显改变了蚕豆根际微生物的群落结构,蚕豆根际镰刀菌数量分别降低53.8%和33.1%;并显著降低了蚕豆根际土壤中对羟基苯甲酸、香草酸、丁香酸、阿魏酸、苯甲酸和肉桂酸的含量.发病盛期和发病末期,间作蚕豆根系的过氧化物酶(POD)和过氧化氢酶(CAT)活性分别显著提高了20.0%、31.3%和38.5%、66.7%,丙二醛(MDA)含量显著降低36.3%和46.3%;发病初期间作对蚕豆根系的POD、CAT酶活性和MDA含量无显著影响.小麦与蚕豆间作显著提高了蚕豆根际微生物的活性、多样性和根系抗氧化酶活性,降低了蚕豆根际土壤中酚酸含量和膜质过氧化程度,减少了土壤镰刀菌的数量,从而提高了蚕豆对枯萎病的抗性,降低了枯萎病的危害程度.     

一株西瓜枯萎病生防菌的鉴定与田间防效

[背景]西瓜枯萎病是由尖孢镰孢菌西瓜专化型(Fusarium oxysproum f.sp.niveum)引起的土传病害,是西瓜最为严重的病害之一.利用拮抗微生物抑制病原菌繁殖,降低其危害程度,已成为西瓜枯萎病防控领域的研究热点.[目的]筛选对西瓜枯萎病病原菌具有拮抗作用的菌株,并探究其抑菌作用,为有效防控西瓜枯萎病提...     

小麦与蚕豆间作体系根系形态与磷吸收的定量解析

豆科与禾本科作物间作能够改变作物根系生长,但不同施磷水平下间作-根系形态-磷吸收之间的关系尚未明确.本研究通过田间定位试验和根箱模拟试验,研究不同种植模式(小麦单作、蚕豆单作和小麦-蚕豆间作)和不同磷水平下小麦和蚕豆的产量、生物量、磷吸收及根系形态特征,分析探讨不同施磷条件下小麦-蚕豆间作对根系形态和磷吸收的影响.结果...     

Mixed cropping with maize combined with moderate UV-B radiations lead to enhanced flavonoid production and root growth in faba bean

Abstract

Flavonoids have recently been proposed to function as developmental regulators and/or signaling molecules under biotic or abiotic stress. The aim of this study was to determine the composition and concentration of fiavonoid aglycones (kaempferol, luteolin, and quercetin) in faba bean shoots and roots, as affected by interspecific root interactions with maize and moderate UV-B radiation. Independent of the UV-B treatment, interspecific root interactions with maize enhanced the concentration of both quercetin and luteolin in the faba bean shoots and roots by 50 and 97.8%, respectively, and improved the root length by 14.6%. In addition, moderate UV-B radiation facilitated a systematic increase of both aglycones in both shoots and roots without affecting plant growth. To our knowledge, this report is the first work documenting the response of faba bean flavonoids to interspecific root interactions with maize and moderate UV-B radiation, and it provides a new perspective for understanding interspecific interactions.     

Current status of wilt/root rot diseases in major chickpea growing areas of Ethiopia

Wilt/root rot diseases are a major chickpea production constraint in Ethiopia causing yield losses by reducing the number of plants. To determine the current status of disease incidence and distribution, surveys were conducted in the 2013/2014 and 2014/2015 cropping seasons in major chickpea growing zones of Ethiopia. Despite recent efforts in dissemination of improved varieties, low to high incidence of 0.0–83.4, 0.0–27.6, 1.3–19.8 and 0.0–16.3% and 1.0–81.9, 0.0–25.5, 3.0–13.9 and 1.0–21.5% in East Gojjam, Southwest Shewa, North Shewa and West Shewa in 2013/2014 and 2014/2015, respectively. Therefore, integrated pest management strategies should be developed and availed to farmers.     

不同磷水平下小麦-蚕豆间作根系形态的变化及其与内源激素的关系

采用水培方法,研究了不同磷水平下小麦-蚕豆间作体系根系形态变化及其与内源激素的相关关系。结果表明: 与单作小麦相比,在低磷(1/2P)水平下,小麦-蚕豆间作能显著增加小麦的根长,显著减少小麦根系的平均直径,显著增加根系的表面积;在常规磷(P)水平下,间作能显著降低小麦根系的平均直径,有增加小麦根长和根表面积的趋势;与单作蚕豆相比,间作能明显促进蚕豆根系的增长,同时增加蚕豆根表面积。在1/2P水平下,间作能显著提高小麦和蚕豆根系中的生长素(IAA)、脱落酸(ABA)、水杨酸(SA)和茉莉酸(JA)含量;在P水平下,间作能显著提高小麦根系中的IAA、ABA和JA含量,单、间作小麦根系中的SA含量没有显著差异,间作显著增加了蚕豆根系中ABA和SA含量,单、间作蚕豆根系中的IAA和JA含量无显著差异。单作条件下,小麦和蚕豆根系中的内源激素(IAA、ABA、SA和JA)含量与其根系形态(根长、根平均直径和根表面积)无显著相关性;间作条件下,小麦和蚕豆根系中的IAA含量与根长和根表面积之间存在明显的正相关关系。由此可见,小麦-蚕豆间作能够诱导小麦和蚕豆根系IAA的增加。这种变化可能是驱动间作系统根系形态变化的重要因子。     

Potential of soil-derived fungal biocontrol agents applied as a soil amendment and a seed coating to control Verticillium wilt of sugar beet

Verticillium dahliae (Vd) is an emerging threat to sugar beet production. Control measures such as fungicides are not available and the utilisation of resistant cultivars is very limited. Hence, we explored the potential of two soil-derived fungal biocontrol agents (BCAs), Fusarium oxysporum F2 (FoF2) and Verticillium tricorpus 1808 (Vt1808), against Verticillium wilt of sugar beet. Pathogenicity tests revealed that Vd caused over 90% disease incidence and severity and led to a significant yield reduction, whereas BCAs neither inhibited nor promoted plant growth. Germination rate was higher in BCA-treated seeds compared to untreated ones. Viability of both BCAs was significantly reduced after six months of storage in liquid methylcellulose formulation (MC), while BCA concentrations remained stable on stored seeds treated with MC. In contrast, Vt1808 produced in sand-rye flour formulation remained 100% viable after storage. Similarly, post-storage analysis of the FoF2 talcum powder formulation revealed improved colony forming units, but increments were not significant. In vitro, both BCAs caused no growth inhibition zones and only insignificant Vd growth reductions were observed. In the greenhouse, soil amendment with a higher dose of FoF2:Vt1808 mixture resulted in substantial reductions of disease severity on the crown (33.3%), disease incidence (55.6%) and disease severity (68.8%) on the beet as well as an improved yield (32.9%). In contrast, seed coating did not reduce symptoms on the crown and on the beet. In the field, both BCAs did not provide significant disease reductions. Nevertheless, a promising result was achieved with the application of FoF2. Despite the need for improvement of the biocontrol activity, the results of this study demonstrate the suitability of the optimised BCA formulations for utilisation in commercial sugar beet production.     

Root rot disease incidence and severity on some legume species grown in Samsun and the fungi isolated from roots and soils

Abstract

Root rot disease is very common in the bean, soybean, faba bean and pea plants growing areas in Samsun province. Disease incidence and severity were detected the highest at 93.8% and 55.4% in the bean growing area, and the lowest at 64.0% and 24.3% in the faba bean growing area respectively. In this study, a total of 2714 fungal isolates were obtained from some legume plants and soil samples. The most common fungi isolated from root and soil samples were Fusarium spp., multinucleate Rhizoctonia (MNR), binucleate Rhizoctonia (BNR) and Pythium spp. respectively. Fusarium spp. were isolated at high rates from all the examined areas. MN Rhizoctonia and BN Rhizoctonia were isolated both from inner and coastal areas of the province, whereas Pythium spp. were isolated in costal areas, except for the Vezirköprü district which is situated in the inner area. When looking at the interactions among pathogens causing root rot, it was found the great majority of the samples (30.4%) isolated both Fusarium spp. and MNR-BNR group fungi, whereas Fusarium spp. and Pythium spp. were isolated together from 10.9% of the samples and MNR-BNR and Pythium spp. from only 1.5% of the samples.     

Outbreak of basal stem rot and wilt disease of pepper in Katsina,Nigeria

Abstract

A survey was conducted in February 2004 on the outbreak of stem rot and wilt disease of pepper at the Kitabawa/Danzakara and Ajiwa irrigation sites in Katsina State, Nigeria. Laboratory investigations revealed that it was elicited by Phytophthora capsici (Leon). The disease caused severe loss in yield and $1,700.00 to $3,200.00 loss in revenue/ha. The pathogen was probably further aggravated by the presence of Fusarium sp. as well as ecto- and endo-parasitic nematodes. Reasons for the outbreak were elucidated and solutions proffered.     

蓖麻根腐病抗性鉴定及其SSR标记的初步建立

蓖麻根腐病是茄腐镰孢菌(Fusarium solani)引起的根部病害,严重影响蓖麻产量。抗源缺乏制约了抗病品种的选育。为寻找抗病种质、建立抗性分子标记,该研究对252份蓖麻材料的抗性进行了表型和分子标记鉴定。结果表明:(1)浓度为1×10⁶个·mL^-1的孢子悬浮液灌根是一种有效的接种方法; 以接种后枯萎天数为基础的5级评价法,可作为鉴定标准。(2)鉴定出130份抗病材料,其中高抗为105份。(3)野生材料中抗病材料比率(66%)远高于栽培材料(35%),建议将野生材料,尤其是中国华南野生材料的研究利用作为今后抗病育种的重要方向。(4)初步建立了8个与抗性关联的SSR标记。该研究结果提供了有效的根腐病抗性鉴定方法和评价标准,筛选出了一批育种迫切需要的抗病基因资源,初步建立了可用于辅助选择的SSR标记,为蓖麻抗根腐病育种奠定了重要基础。     

Suppression of root rot of mung bean (Vigna radiata L.) by Streptomyces sp. is associated with induction of peroxidase and polyphenol oxidase

Five strains of Streptomyces sp. were evaluated in vitro for their ability of inhibiting the mycelial growth of Macrophomina phaseolina, the causal agent of root rot of mung bean (Vigna radiata L.). Among the Streptomyces sp. strains tested, PDK showed the maximum in vitro inhibition of mycelial growth of M. phaseolina and recorded an inhibition zone of 21?mm. The strains CBE, MDU, SA and ANR recorded inhibition zones of 18, 16, 13 and 11?mm, respectively. These Streptomyces sp. strains were tested for their growth-promoting efficiency on mung bean seedlings. Among them, CBE and PDK recorded the maximum increase in shoot length, root length and seedling vigour compared with control, followed by MDU. Three Streptomyces sp. strains (CBE, MDU and PDK) that showed higher levels of inhibition of growth of M. phaseolina in dual culture assay and plant growth-promoting activity were tested for their biocontrol activity against root rot under greenhouse and field conditions. Seed treatment or soil application with powder formulation of Streptomyces sp. strains CBE, MDU and PDK was effective in controlling root rot disease; but, combined application through seed and soil increased the efficacy in both the greenhouse and field trials. Among the treatments, seed treatment plus soil application with powder formulation of Streptomyces sp. strain CBE proved to be most effective, which reduced the root rot incidence from 26.8% (with non-bacterised seeds) to 4.0% in Trial I and from 32.0 to 4.9% in Trial II. The above treatment recorded the highest yield in both the field trials, and the yield increase was 78 and 74% over control in Trial I and Trial II, respectively. Isozyme analysis of the Streptomyces sp.-treated plants indicates that seed treatment plus soil application strongly induce the activities of peroxidase (PO-1 and PO-2) and polyphenol oxidase (PPO-2 and PPO-3) in mung bean. Among the three strains tested, Streptomyces sp. strain MDU- treated plants showed higher levels of activities of PO and PPO. Based on the above findings, it can be concluded that both the direct inhibition of pathogen and induced resistance might be involved in the control of root rot of mung bean by Streptomyces sp.     

Efficacy of potent antagonistic yeast Wickerhamiella versatilis against soft rot disease of potato caused by Pectobacterium carotovorum subsp. carotovorum

Abstract

In this study, an antagonistic yeast isolate, Wickerhamiella versatilis was considered as a promising biocontrol agent against Pectobacterium carotovorum subsp. Carotovorum (Pcc) the causal agent of soft rot disease of potato. Antagonistic yeast inhibited the growth of Pcc in vitro, and reducing the soft rot severity of infected potato tubers (cv. Diamant) under greenhouse conditions. Consequently, cellulase and pectinase hydrolytic activities in infected potato tubers with yeast?+?Pcc were decreased compared with infected tubers with Pcc. The histological characterization of treated potato tubers with antagonistic yeast W. versatilis using scanning electron microscope showed the accumulation of extracellular substances that may induce plant resistant and protects potato tubers from hydrolysis and damages. This study may introduce the possibility of using the antagonistic yeast isolate, as a biocontrol agent against soft rot of potato tubers.     

Influence of bio-inoculants on the control of root rot and wilt disease of pyrethrum caused by Rhizoctonia solani

The effect of four bio-inoculants namely, Glomus aggregatum, Streptomyces sp., Bacillus subtilis and Trichoderma harzianum and a fungicide, Ridomil-mancozeb was evaluated on the biomass production and control of root rot and wilt disease under glasshouse conditions. Results showed that 21-day- prior inoculation with G. aggregatum was most effective where none of the treated plants produced disease symptoms and interestingly their growth was increased by 39.4%. The colonisation by G. aggregatum (>80%) also increased P concentration in shoot. While, similar treatment with Streptomyces sp., B. subtilis, T. harzianum and Ridomil-mancozeb individually failed to produce any significant effect over Rhizoctonia solani inoculated control, where all inoculated plant died, prematurely. The simultaneous and 3-day-post treatments of G. aggregatum were non-effective but simultaneous treatment with Streptomyces sp. produced 70% disease control, while B. subtilis and T. harzianum individually provided 50% control. Their effects were either better or at par when compared with the simultaneous treatment of Ridomil-mancozeb. In 3-day-post treatment, Streptomyces, B. subtilis and Ridomil-mancozeb individually provided 50% disease control, whereas T. harzianum was least effective as it could protect only 25% plants against infection. The results reveals that 15 days prior treatment of G. aggregatum can significantly controls the root rot and wilt disease of pyrethrum. Further, treatment of Streptomyces can also serve the next effective post infection control method.     

种间互作和施氮对蚕豆/玉米间作生态系统地上部和地下部生长的影响

为河西走廊绿洲灌区豆科/禾本科间作体系的养分管理提供科学依据,于2007年在武威绿洲农业试验站应用田间原位根系行分隔技术研究了蚕豆/玉米种间互作和施氮对玉米抽雄期的根系空间分布、根系形态和作物地上部生长的影响。研究结果表明:种间互作和施氮均增加了玉米和蚕豆在纵向和横向两个尺度上的根重密度、根长密度、根表面积、根系体积。根长密度和根表面积与两种作物产量和氮素吸收均呈正相关,而与蚕豆的根瘤重呈负相关;抽雄期的土壤含水量与玉米产量和养分吸收呈显著的负相关。玉米根系可以占据蚕豆地下部空间,但蚕豆的根却较少到间作玉米的地下部空间,也就是间作后增加了玉米根系水平尺度的生态位。蚕豆和玉米根系主要分布分别在0-40 cm浅土层和0-60 cm 土层,且间作玉米根系在60-120 cm比单作和分隔的多。因此,种间互作和施氮扩大了两作物根系纵向和横向的空间生态位,改变了作物根系形态,即扩展了两者水分和养分吸收的生态位,增加了作物吸收养分的有效空间,从而提高了间作生态系统的生产力。     

Thermal sensitivity of Phytophthora cinnamomi and long-term effectiveness of soil solarisation to control avocado root rot

Root rot caused by the fungus Phytophthora cinnamomi is a major disease of avocados worldwide. Heat sensitivity of a collection of P. cinnamomi isolates was determined by exposing agar discs containing mycelium or mycelium plus chlamydospores at various temperatures for different periods. Long‐term effectiveness of soil solarisation to control Phytophthora root rot was evaluated in two field trials. In the first, soil disinfestation by solarisation was applied in 1990 to a naturally infested plot before planting avocado (Persea americana) and viñatigo (Persea indica) seedlings. In the second trial, established avocado trees were solarised for four consecutive summers (1996–1999). Results for heat sensitivity showed that fungal mycelium was inactivated after 1–2 h at 38°C. However, 1–2 h at 40°C was needed to kill all propagules when chlamydospores were present. Fungal growth inhibition after thermal treatments was related to levels of time and temperature, and detrimental effects occurred as consequence of sublethal thermal doses. Soil solarisation presented long‐term positive effects when applied as a preplanting treatment. Five years after solarisation, disease severity (0–5 scale where 0 = healthy and 5 = dead plant) of avocado and viñatigo planted in solarised soil was 2.03 and 0.71, respectively, compared with 4.65 and 4.84 in controls. Eleven years after solarisation, the percentage of dead plants in solarised soil was 73% for avocado and 43% for viñatigo but 100% in controls. In contrast, an insufficient level of control was observed in established orchards, probably because of the lower temperature reached during solarisation under the shade of tree canopy. In this situation, maximum temperatures at 5‐cm depth were 10–13.7°C lower than under solar‐heated mulch, only exceeding 40°C in 1997.     

施用拮抗菌饼肥发酵液和土壤消毒剂对香蕉枯萎病病区土壤细菌群落的影响

【目的】探明施用拮抗菌饼肥发酵液与土壤消毒剂对香蕉枯萎病的防控效果及对土壤微生物的影响。【方法】在大田栽培条件下,采用Biolog和T-RFLP的方法研究了各处理在不同时期土壤微生物细菌的功能多样性及群落特征。【结果】结果表明,施用拮抗菌饼肥发酵液和土壤消毒剂均显著降低了香蕉枯萎病的病情指数,以两者配合施用防病效果最高,达60.82%。Biolog Eco微平板研究发现,施用拮抗菌饼肥发酵液可提高土壤微生物的AWCD及种群均匀度,施用土壤消毒剂显著降低了土壤微生物种群的丰富度和均匀度;主成分分析表明,土壤微生物利用碳源的种类在香蕉整个生长季呈增加的趋势,其前期主要利用碳源为氨基酸类、羧酸类、双亲化合物、糖类,后期主要增加了羧酸类和双亲化合物类碳源。T-RFLP分析土壤细菌多样性发现,施用拮抗菌饼肥发酵液处理的细菌TRFs片段最高,分析优势种群发现,增加的种类主要有黄秆菌属(Flavobacterium)、假单胞菌属(Pseudomonas)、乳酸秆菌(Lactobacillus)等。【结论】拮抗菌饼肥发酵液配合土壤消毒剂施用,可在降低土壤中病原菌的基础上,增加土壤拮抗微生物的种类,提高土壤微生物细菌的多样性,改善土壤微生物生态结构,最终达到提高香蕉枯萎病防病效果的目的。     

Evaluation of biological seed treatments in combination with management practices for the control of Fusarium dry rot of potato

Seed-borne diseases of potato represent a significant constraint to potato production in the US. The use of an effective fungicide in combination with good management practices during cutting and storage, prior to planting, is essential to reducing disease. The efficacy of two biocontrol agents (Bacillus subtilis and Trichoderma harzianum), and a commercially formulated mixture of the chemicals fludioxonil plus mancozeb, applied as seed treatments in combination with different management practices, were evaluated over two years for the control of seed piece decay and sprout rot caused by Fusarium sambucinum. Treatments were made 10 days prior to planting and at planting, and tubers were re-stored at either 18 °C and 95% RH with forced air ventilation at 5950 l min⁻¹ (optimal conditions), at 25 °C in the dark without ventilation (sub-optimal), or not stored at all prior to planting. Seed piece and sprout health were evaluated in vitro and agronomic impacts evaluated in field experiments. Results showed that the biological control agents B. subtilis and T. harzianum provided good control of sprout rot and seed piece decay caused by F. sambucinum, when seed was re-stored under optimal conditions or not re-stored at all. Under optimal conditions, treatment with B. subtilis reduced sprout rot and seed piece decay on average by 66% and 84%, respectively. Treatment with T. harzianum reduced sprout rot and seed piece decay on average by 70% and 81%, respectively. Treatment with fludioxonil + mancozeb reduced sprout rot and seed piece decay under both re-storage regimes. Under optimal conditions, disease incidence and severity was reduced on average by 81% and 97%, respectively. Neither biological control agent reduced seed piece decay incidence under either re-storage regime compared to the untreated controls.     

Enhancement of nitrogen fixation in lentil,faba bean,and soybean by dual inoculation with Rhizobia and mycorrhizae

The combined effect of Vesicular Arbuscular Mycorrhizae (VAM) and Rhizobium on the cold season legumes, lentil and faba bean, as well as on summer legume, soybean, were studied in soils with low indeginous VA mycorrhizal spores. Inoculation of the plant with VA mycorrhizal fungi increased the level of mycorrhizal root infection of lentil, faba bean and soybean. The inoculation with Rhizobium had no significant effect on VA mycorrhizal infection percent, but VA mycorrhizal inoculation increased nodulation of the three legumes. The inoculation with Rhizobium alone significantly increased plant dry weight and N content of lentil and faba bean as well as seed yield of soybean. VA mycorrhizal inoculation also significantly increased plant dry weight and phosphorus content of the plants as did fertilization with superphosphate. Rock phosphate fertilization, however, had no significant effect on plant growth or phosphorus uptake. The addition of rock phosphate in combination with VA mycorrhizal inoculation significantly increased plant dry weight and P uptake of the plants. The dual inoculation with both rhizobia and mycorrhizae induced more significant increases in plant dry weight, N and P content of lentil and faba bean as well as seed yield of soybean than inoculation with either VA mycorrhizae or Rhizobium alone.