Biocontrol efficiency of Fusarium wilt diseases by a root-colonizing fungus Penicillium sp.

Soil-inhabiting fungal pathogen Fusarium oxysporum often causes severe yield losses in many crops. We investigated the effect of a plant growth-promoting fungus, Penicillium sp. EU0013 on Fusarium wilt disease. In dual culture experiments, EU0013 inhibited the growth of Fusarium wilt pathogens by producing an inhibition zone. In experiments using sterile potting medium under controlled conditions, EU0013 significantly reduced the severity of Fusarium wilt on tomato (Solanum lycopersicum L.) and cabbage (Brassica oleracea L. var. capitata). In non-sterile soil, benomyl-resistant mutants of EU0013 were selected by exposing the conidial solution of EU0013 to ultraviolet light. The selected mutant EU0013_90S isolate did not show any distinct differences from EU0013 in colony characteristics, growth rate or antifungal activity against Fusarium wilt pathogens in dual culture. The effect of EU0013_90S on tomato wilt was studied under greenhouse conditions using non-sterile soil. Two-weeks old tomato seedlings were dipped in four different concentrations of EU0013_90S conidial suspension (1?×?10³, 1?×?10⁴, 1?×?10⁵, and 1?×?10⁶ conidia mL^–1). Seedlings were then planted in soil inoculated with either F. oxysporum f. sp. lycopersici race 1 CU1 or race 2 JCM 12575 (1?×?10⁶ bud-cells g^–1). We found the greatest disease suppression occurred when seedlings were dipped in the highest concentration of EU0013_90S conidia. This same inoculum concentration of EU0013_90S also resulted in the highest disease reduction in soil infested with JCM 12575. Higher root colonization with EU0013_90S showed a significant reduction in Fusarium wilt disease, suggesting that colonization by Penicillium sp. EU0013_90S is important for efficient biocontrol of these diseases.     

Physiological enhancement of early growth of rice seedlings (Oryza sativa L.) by production of phytohormone of N2-fixing methylotrophic isolates

Three plant-growth promoting, N₂-fixing methylotrophic strains isolated from rice cultivars (Oryza sativa L.), viz, Methylobacterium sp. CBMB20, Enterobacter sp. CBMB30, Burkholderia sp. CBMB40, were selected, and their activities in promoting the early growth of rice were studied. Seeds treated with the methylotrophic strains improved seed germination, seedling vigor index (SVI), and biomass of rice seedlings. The methylotrophic population in the treated seedlings increased in the vegetative stages when compared to seeding stages. Treated seedlings showed a higher accumulation of plant hormones viz trans-zeatin riboside, isopentenyladenosine, and indole-3-acetic acid than untreated seedlings. Plant hormones were detected immunologically using the phytodetek kit. Conformational evidence suggested that cytokinins were produced by the epiphytic bacteria colonizing the plants rather than by the plants themselves. In addition, the inoculated early stage rice seedlings also exhibited a wide range of acetylene reduction activity. The results suggest the potential use of these bacteria to stimulate germination, SVI, and biomass production, which is mediated by production of plant hormone accumulation and nitrogen fixation.     

Seed priming with sorghum water extract and benzyl amino purine along with surfactant improves germination metabolism and early seedling growth of wheat

The influence of seed priming with sorghum water extract (SWE) and benzyl amino purine (BAP) on germination metabolism and early seedling growth of wheat was evaluated in this study. For priming, wheat seeds were soaked in SWE (5%), BAP (5 mg L^?1) alone and mixed with nonionic surfactant Tween-80 (0.05%). All the seed priming treatments significantly (p ≤ 0.05) improved the germination metabolism and early seedling growth as compared with dry seeds. Seed priming with combination of SWE, BAP and Tween-80 was the most effective treatment in improving the final germination percentage (34%), number of tillers per pot (50%), fresh weight (32%), dry weight (63%), chlorophyll contents (7%) and total phenolic contents (36%) over dry seed control. Similarly, maximum total soluble proteins, total soluble sugars and α-amylase activity were observed from the combined priming with SWE, BAP and Tween-80. Total soluble proteins were maximum in growing seedlings followed by germinating seeds than primed seeds. The germination and growth improvement by priming with SWE was comparable to BAP which makes it a cost-effective natural growth regulator. Combined applications are more effective, which may be due to enzymatic regulation in a synergistic manner.     

Bio-inoculants enhance growth,nutrient uptake,and buddability of citrus plants under protected nursery conditions

ABSTRACT

Bio-inoculants have been used for enhancing plant growth in horticultural crops even in nutrient-limited soils. The present research evaluated the effect of inoculation of two growing media with six biofertilizer consortia on the growth and buddability of ‘Rough lemon’ rootstock subsequently budded with ‘Kinnow’ mandarin variety. Soil + FYM + Cocopeat (SFC) with Azospirillum (Azo) + AM fungi consortium improved seed germination, seedling growth, chlorophyll, P, K, root growth, root epidermis, and cortical region thickness; xylem and phloem diameter in rough lemon; budding success and growth in Kinnow mandarin saplings. It also increased OC, P, and K levels in growing media. AM spore count and AM root colonization showed a positive correlation with budding success, root P and soil P content. SFC fortified with Azo + AM fungi resulted in better growth and buddability of rough lemon seedlings along with better growth of Kinnow mandarin saplings.     

Zinc‐biofortified seeds improved seedling growth under zinc deficiency and drought stress in durum wheat

High zinc (Zn) concentration of seeds has beneficial effects both on seed vigor and human nutrition. This study investigated the effect of Zn biofortification on growth of young durum wheat (Triticum durum cv. Yelken) seedlings under varied Zn and water supply. The seeds differing in Zn concentrations were obtained by spraying ZnSO₄ to durum wheat plants at different rates under field conditions. Three groups of seeds were obtained with the following Zn concentrations: 9, 20, and 50 mg Zn kg^?1. The seeds differing in Zn were tested for germination rate, seedling height, shoot dry matter production, and shoot Zn concentration under limited and well irrigated conditions in a Zn‐deficient soil with and without Zn application. In an additional experiment carried out in solution culture, root and shoot growth and superoxide dismutase activity (SOD) of seedlings were studied under low and adequate Zn supply. Low seed Zn concentration resulted in significant decreases in seedling height both in Zn‐deficient and sufficient soil, but more clearly under water‐limited soil condition. Decrease in seed germination due to low seed Zn was also more evident under limited water supply. Increasing seed Zn concentration significantly restored impairments in seedling development. Drought‐induced decrease in seedling growth at a given seed Zn concentration was much higher when soil was Zn‐deficient. Increasing seed Zn concentration also significantly improved SOD activity in seedlings grown under low Zn supply, but not under adequate Zn supply. The results suggest that using Zn‐biofortified seeds assures better seed vigor and seedling growth, particularly when Zn and water are limited in the growth medium. The role of a higher antioxidative potential (i.e., higher SOD activity) is discussed as a possible major factor in better germination and development of seedlings resulting from Zn‐biofortified seeds.     

外源褪黑素对镉胁迫下豌豆种子萌发、幼苗抗性生理及镉含量的影响

为探究外源褪黑素(MT)对镉胁迫下豌豆种子萌发和幼苗生长影响的生理机制,以豌豆品种中豌6号为试验材料,采用培养皿滤纸法,研究不同浓度外源褪黑素(0、50、100、200、400 μmol·L^-1)对镉胁迫(0、10、100 μmol·L^-1)下豌豆种子萌发、幼苗生长及生理指标的影响。结果表明,镉胁迫显著抑制了豌豆种子萌发及幼苗生长;施用外源褪黑素能够显著提高镉胁迫下豌豆种子的发芽势和发芽率,促进豌豆幼芽和幼根的生长,提高豌豆幼芽的超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)活性,并降低丙二醛(MDA)和镉含量。当Cd²⁺浓度为10 μmol·L^-1时,施用100 μmol·L^-1 MT较未添加MT豌豆的发芽势、发芽率、芽长、根长、芽鲜重和根鲜重分别增加90.47%、82.94%、127.27%、129.47%、131.71%和83.33%,SOD、POD和CAT活性分别提高24.17%、40.50%和76.91%,MDA含量下降57.64%,镉含量下降57.62%。结果表明,适宜浓度的外源褪黑素能够通过提高抗氧化酶活性,降低活性氧的积累,抑制豌豆幼苗对镉的吸收,从而缓解镉胁迫对豌豆幼苗的毒害作用,促进种子萌发及幼苗生长。本研究结果为进一步探索外源褪黑素缓解豌豆镉胁迫的机理提供了一定的理论依据。     

A fungal substance of selective action on plant growth produced by Pyrenochaeta sp.

The effect of the pink substance extracted from mycelia of Pyrenochaela sp. on growth of 10 kinds of plants was examined by germination test in the light. The substance inhibited the growth of germinating seedlings of 5 monocotyledonous plants (upland rice, sorghum, wheat, barley, and oat) at a concentration higher than 10 ppm of the partially purified pink substance, while it rather stimulated that of 5 dicotyledonous plants (chinese cabbage, cucumber, radish, turnip, and burdock) at 10-100 ppm. When the substance was sprayed on shoots of upland rice and Chinese cabbage germinated in pot, it inhibited the growth of seedlings of the former and stimulated that of the latter.     

Ectomycorrhizal fungi and dark septate endophyte inoculation improve growth and tolerance of Pinus tabulaeformis under cadmium stress

Forest trees can establish symbiotic associations with dark septate endophytes (DSEs) and ectomycorrhizal fungi (ECMF) simultaneously. However, the combined effects of these two fungi on the growth and cadmium (Cd) tolerance of host plants remain largely unexplored. To address this knowledge gap, a pot experiment was conducted to examine the effects of the interaction between an ECMF strain (Suillus granulatus) and a DSE strain (Pseudopyrenochaeta sp.) on Pinus tabulaeformis under Cd stress, by assessing plant growth and physiological parameters, nutrient uptake, and soil properties. Notably, the colonization rates of both fungal strains were found to increase in response to Cd stress, with the extent of this increase being influenced by the specific fungal species and the Cd level in the soil. Compared to the non-inoculation treatment, single inoculation with fungal strain resulted in enhanced biomass, root development, and nutrient contents in P. tabulaeformis seedlings under Cd stress. Furthermore, a synergistic effect was observed when these seedlings were co-inoculated with S. granulatus and Pseudopyrenochaeta sp., as indicated by significantly greater measurements in various indicators compared to both the single and non-inoculation treatments. Fungal inoculation effectively regulated the antioxidant defense responses and photosynthesis of P. tabulaeformis seedlings subjected to Cd stress, particularly in the co-inoculation treatment. In addition, fungal inoculation facilitated the Cd accumulation in P. tabulaeformis, suggesting a promising potential for the implementation of bioremediation strategies in the areas contaminated with heavy metals. The findings from this study indicate that the utilization of root symbiotic fungi obtained from stress environments could potentially enhance the growth performance and tolerance of P. tabulaeformis towards heavy metals, and co-inoculation of both fungal groups may result in even more pronounced synergistic effects on the overall fitness of the plant.     

Variable effects of emergence-promoting rhizobacteria on conifer seedling growth under nursery conditions

Summary Inoculation of white spruce (Picea glauca Voss.) seed with Bacillus polymyxa strain L5 under nursery conditions significantly increased the number of seedlings that emerged after sowing. No significant effects on seedling emergence were detected when white spruce seed was inoculated with Bacillus polymyxa strain L6, or when Douglas-fir [Pseudotsuga menziesii (Mirb.) Franco] seed was inoculated with either strain L5 or L6. However, white spruce seedlings originating from L5-inoculated seed had significantly lower root dry weights when measured 13 weeks after sowing, and reduced shoot dry weights 26 weeks after sowing compared with uninoculated controls. Inoculation of white spruce seed with strain L6 also resulted in seedlings with decreased root dry weights compared with uninoculated controls 13 weeks after sowing, but the significant inhibition of root growth was not apparent 26 weeks after sowing. Douglasfir seedlings originating from L5-inoculated seed had significantly lower root and shoot dry weights compared with uninoculated controls 13 but not 26 weeks after sowing. Inoculation of Douglas-fir seed with strain L6 resulted in seedlings with decreased root collar diameters and shoot dry weights 13 weeks after sowing, and lower root dry weights 26 weeks after sowing compared with uninoculated controls. These results demonstrate that the effects of bacterial inoculation on seedling emergence and on plant growth are independent, and that emergence-stimulating bacteria may inhibit subsequent seedling growth.     

干旱胁迫对窄叶鲜卑花种子萌发及幼苗生长的影响

[目的]研究干旱胁迫对窄叶鲜卑花种子萌发及幼苗生长的影响,为野生种驯化和种群恢复提供参考。[方法]以窄叶鲜卑花种子为实验材料,采用不同浓度聚乙二醇(PEG-6000)模拟干旱胁迫环境,研究干旱协迫强度对窄叶鲜卑花种子的吸胀速率、发芽率、发芽势、发芽指数、活力指数和种子抗旱萌发指数及幼苗生长情况的影响。[结果]随着干旱胁迫程度的加剧,窄叶鲜卑花种子的吸水过程表现出急速吸水期、缓慢上升期和吸水平稳期3个阶段;其发芽率、发芽势、发芽指数、活力指数和种子抗旱萌发指数及苗高、根长,苗重与胁迫强度均呈负相关;当PEG浓度达30%时,种子萌发完全被抑制。另一方面,种子群体萌动、萌发和出苗达50%所需时间随胁迫强度的增加而越发延迟,且各阶段对环境临界水势要求不同,出苗阶段最为严格,表明种子出苗过程对环境水分胁迫较为敏感,耐旱能力较弱。[结论]干旱胁迫显著抑制了窄叶鲜卑花种子的萌发和幼苗生长,也说明水分是窄叶鲜卑花种子萌发和幼苗形成的主导因素之一,在较干旱地区种植需要考虑水分的供给。     

Zinc priming promotes seed germination and seedling vigor of rice

The present study evaluated effects of seed zinc (Zn) priming at concentrations from 0 to 25 mM ZnSO₄ on seedling vigor and viability in rice (Oryza sativa L.). Zinc priming substantially increased Zn concentration in the husk, but not in brown rice. The movement of primed Zn from the husk into the inner layers of rice seed during germination was suggested by Zn concentration declining in the husk coinciding with the increase in brown rice over time (r = –0.62; p < 1%), which did not happen in unprimed seed. Zinc priming significantly enhanced seedling growth and development up to 5 mM. Germination rate, root number, and dry weight were much higher than in unprimed seed, but higher Zn concentrations (10 and 25 mM) depressed seedling vigor. Priming rice seed with 2.5 mM Zn also improved the germination rate of rice in a Zn‐deficient soil, with or without soil Zn application. The results confirm that priming rice seed with Zn can improve germination and seedling vigor and for the first time show how Zn requirement of germinating rice seed and seedlings can be met by the prime Zn accumulated in the husk.     

Effects of mineral and biofertilizers on barley growth on compacted soil

Abstract

Biofertilizers are an alternative to mineral fertilizers for increasing soil productivity and plant growth in sustainable agriculture. The objective of this study was to evaluate possible effects of three mineral fertilizers and four plant growth promoting rhizobacteria (PGPR) strains as biofertilizer on soil properties and seedling growth of barley (Hordeum vulgare) at three different soil bulk densities, and in three harvest periods. The application treatments included the control (without bacteria inoculation and mineral fertilizers), mineral fertilizers (N, NP and P) and plant growth promoting rhizobacteria species (Bacillus licheniformis RC04, Paenibacillus polymyxa RC05, Pseudomonas putida RC06, and Bacillus OSU-142) in sterilized soil. The PGPR, fungi, seedling growth, soil pH, organic matter content, available P and mineral nitrogen were determined in soil compacted artificially to three bulk density levels (1.1, 1.25 and 1.40 Mg m^?3) at 15, 30, and 45 days of plant harvest. The results showed that all the inoculated bacteria contributed to the amount of mineral nitrogen. Seed inoculation significantly increased the count of bacteria and fungi. Data suggest that seed inoculation of barley with PGPR strains tested increased root weight by 9–12.2%, and shoot weight by 29.7–43.3% compared with control. The N, NP and P application, however, increased root weight up to 18.2, 25.0 and 7.4% and shoot weight by 31.6, 43.4 and 26.4%, respectively. Our data show that PGPR stimulate barley growth and could be used as an alternative to chemical fertilizer. Soil compaction hampers the beneficial plant growth promoting properties of PGPR and should be avoided.     

Can a diazotrophic endophyte originally isolated from lodgepole pine colonize an agricultural crop (corn) and promote its growth?

Several diazotrophic Paenibacillus strains were isolated from extracts of surface-sterilized lodgepole pine seedling and tree tissues. One strain, Paenibacillus polymyxa P2b-2R, was found to fix high amounts of nitrogen when reintroduced to the gymnosperms, lodgepole pine and western red cedar. We wanted to determine if P. polymyxa P2b-2R could colonize rhizosphere and internal tissues, fix N and promote growth of corn (Zea mays L), an important agricultural crop. We inoculated corn seeds with P. polymyxa strain P2b-2R and grew seedlings for 30 days. Corn seedlings were harvested 10, 20 and 30 days after inoculation for evaluation of endophytic and rhizospheric colonization as well as nitrogen fixation and growth promotion. P2b-2R successfully colonized the rhizosphere as well as internal root tissues of corn (i.e., endophytically) with population densities near 10⁶ cfu. Corn seedling growth was promoted significantly by inoculation with P2b-2R with an increase of up to 35% in length and up to 30% in biomass after 30 days of inoculation. Seedlings inoculated with P2b-2R derived up to 20% of foliar nitrogen from atmosphere after 30 days of inoculation, which is significant considering the fact that this was a short growth trial. These results suggest that P. polymyxa P2b-2R might have a broad range of plant hosts and is able to fix N and promote the growth of at least one important agricultural crop i.e. Corn.     

Evaluation of inoculation procedures for Calliandra calothyrsus Meisn. grown in tree nurseries

A series of inoculation experiments was conducted in glasshouses in Senegal and Kenya to evaluate inoculation procedures designed to optimise nodulation and N₂ fixation of Calliandra calothyrsus Meisn. seedlings. Nodulation and plant growth were used as indices of inoculation success. In an experiment carried out in sterile peat/vermiculite mixture, it was established that inoculation of C. calothyrsus with an effective rhizobial strain at the low rate of 1᎒² rhizobia per seedling was satisfactory for nodulation and growth, but further response occurred at rates of up to 1᎒⁹. A second experiment in (unsterilised) Sangalkam soil (Senegal) containing indigenous rhizobia demonstrated that the most successful form of inoculation was liquid inoculant applied around the root collar immediately after transplanting. This method was more successful than seed inoculation or application of alginate bead inoculant. A third experiment was conducted using filtermud inoculant in Leonard jars and unsterilised Muguga nursery soil from Kenya, containing a large population of indigenous rhizobia. Application of liquid inoculant to seedlings was better than seed inoculation. On the basis of our study, we recommend that C. calothyrsus seedlings raised in the nursery should be inoculated with a liquid inoculant immediately or soon after germination.     

磁粉包衣丸粒化蔬菜种子活力性能试验

为了满足磁吸式精密播种需要,提出了一种以滑石粉和细铁粉为填料的磁粉包衣剂。通过对白菜和甘蓝2种蔬菜种子的磁粉包衣丸粒化和磁化处理,试验研究了不同铁粉含量的磁粉剂在外磁场磁化作用下,对白菜、甘蓝种子发芽率、发芽势、活力指数的综合影响。试验结果表明：磁粉包衣丸粒化对种子早期萌发有抑制作用,但磁粉剂中铁粉质量分数控制在20%以内时,在磁场综合作用下,能明显提高种子后期的发芽率和活力指数,改善幼苗素质,促进幼苗根茎生长,根据试验得出的发芽率、发芽势、活力指数和幼苗素质,得到丸粒化用磁粉剂铁粉最佳质量分数：白菜种子为20%,甘蓝种子为10%,2种种子的磁化磁场强度为100 mT,研究结果为推动磁吸式精密播种技术的应用提供了试验依据。     

Phosphate Solubilization by Several Genera of Saprophytic Fungi and Its Influence on Corn and Cowpea Growth

The aim of this study was to test the ability of several strains of fungi, which were isolated from the Brazilian Amazon, to solubilize calcium phosphate in vitro and to promote corn and cowpea growth under axenic conditions. Each plant species received six treatments: inoculation with strains with high solubilization index (SI) (Haematonectria ipomoeae CML 3249 and Pochonia chlamydosporia var. catenulate CML 3250) and control treatments: inoculation with strain that does not solubilize phosphate on Pikovskaya agar (PVK) (Acremonium polychromum FSA115), and non-inoculated treatments with high concentration of insoluble phosphate (HPins), high concentration of soluble phosphate (HPs) or low concentration of soluble phosphate (LPs). The fungi strains had SI between 1.07 cm and 2.03 cm including species without previous report in the literature of their capacity to solubilize calcium phosphate. The two phosphate-solubilizing strains promoted greater corn and cowpea root growth than the controls FSA115, HPins and LPs, to a level similar to the HPs control.     

Physiological and Biochemical Responses of Acacia Seyal (Del.) Seedlings under Salt Stress Conditions

In this study, the first experiment analyzed the effects of 0, 85, 171, 256, and 342 mM sodium chloride (NaCl) on the germination of Acacia seyal seeds. In the second in vitro experiment, the effects of inoculation with two rhizobial strains on growth, physiological, and biochemical responses of A. seyal seedlings was evaluated at four levels (0, 85, 171, and 256 mM) of NaCl. Results showed that at 342 mM NaCl, germination rate of A. seyal seeds declined by 56% from the control value, while any germination was recorded for Acacia bivenosa and Acacia sclerosperma seeds at the same salt level. Salt stress gradually decreased the growth, the soluble protein and the leaf-chlorophyll contents of A. seyal seedlings. However, rhizobial inoculation limits these adverse effects of salt on physiological and metabolic processes responses. A. seyal exhibited a moderate halophytic behavior; nodulation was enhanced by moderate salt stress.     

Effectiveness of Single and Combined Ectomycorrhizal Inocula on Three Species of Pinus at Nursery

The objective of this study was to determine individual and combined inoculation effects with ectomycorrhizal fungi (EMF) (Amanita muscaria, AM; Suillus luteus, SL; and Amanita sp., AS) on seedling growth and P uptake of Pinus patula, P. oocarpa, and P. tecunumanii. Beneficial effects of ectomycorrhizal inoculation depended on the plant species × inoculum combinations. In the case of P. patula, the benefit was evident only in P uptake and this occurred only when the three fungi were concomitantly applied. In P. tecunumanii, the effects were associated not only with P uptake but also with plant growth and not only with the triple inoculation but also with the individual (AS) and dual (AM + AS) inoculations. In P. oocarpa, AS inoculation enhanced both plant growth and P uptake, while AM inoculation only improved plant growth; triple and dual inoculation (SL+AM and SL+AS) also increased plant growth but not P uptake.     

Provenance variation in seed germination and seedling growth of Acacia nilotica ssp. indica in India

Summary Acacia nilotica ssp. indica, a multipurpose tree species occurs throughout semi-arid India. The present study reports the variation in seed germination and seedling growth of 21 sites (provenances) collected between the latitude 11°N and 31°23N, and 19 m to 650 m altitude throughout India. There were significant differences (P<0.05) between the sites for seed germination that varied from 16 to 90% in the incubator, and 14 to 84% in the nursery. Significant variations were also observed in seedling growth up to 28 days in the incubator. There was no significant relationship between seed germination and seedling growth and the latitude or longitude of the original seed source. However, in general the South Indian provenances showed lower germination as compared to North Indian provenances. The observations are important for selection of vigorous provenances concerning seed germination and early seedling growth.     

60Coγ辐射对木槿种子发芽及幼苗生长的影响

以60Coγ为辐射源,采用不同剂量率（50～500 Gy/h）辐照木槿休眠种子,对辐照后种子进行播种观察。结果表明：辐照剂量低于200 Gy时促进种子发芽,低于100 Gy时能提高幼苗成活率;辐照剂量大于200 Gy时抑制发芽,并导致真叶和侧根难以形成,直至幼苗死亡。剂量率对辐照效果有一定的影响。得出以提高苗木成活率为目的进行辐照时的剂量以50～100 Gy为宜,以促进变异为目的进行辐照时剂量以100～200 Gy为宜。