Production ofbeauveria bassiana [Deuteromycotina. Hyphomycetes] sympoduloconidia in submerged culture

Submerged conidiation of the entomogenous HyphomyceteBeauveria bassiana is reported. Conidiogenous cells produce sympoduloconidia on conidiogenous cells in liquid shaker culture; hyphal bodies and mycelium fragments are also produced. The morphology of these fungal structures is discussed and illustrated. Several simple liquid media are tested for the production of conidia and hyphal bodies. Maximum yields of conidia (170×10⁶ conidia/ml) are produced in a medium consisting of sucrose (2%) — yeast extract (0.5%) and basal salts, and maximum yields of hyphal bodies (740×10⁶ hyphal bodies/ml) in a sucrose (2.5%) — yeast extract (2.5%) medium.      

Conidiation of Hirsutella thompsonii var. synnematosa in submerged culture

Fourteen monosporal isolates of Hirsutella thompsonii grew vegetatively in various liquid media producing typical phialidic-like conidiophores. Hirsutella thompsonii var. synnematosa from Ivory Coast (HtIC) was the only pathotype which produced true conidia in submerged culture. HtIC began producing conidia after 3 days incubation reaching a peak ranging from 6.8 × 10⁵ to 9.7 × 10⁷ conidia/ml between 6 and 11 days. A concentration of 10 g/liter of corn steep liquor and 0.2% Tween 80 were essential for maximum conidiation. Submerged conidia had a smooth but somewhat rugose conidial walls, whereas aerially formed conidia were distinctly verrucose. Germination of submerged conidia ranged from 5.2 to 12.9% and were virulent causing 32.5% infection to adult citrus rust mites when sprayed on citrus foliage at 1.2 × 10⁹ conidia/ml.     

Media and culturing protocol using a full 25 factorial design for the production of submerged aggregates by the potential bio-herbicide Plectosporium alismatis against weed species of Alismataceae

The potential bio-herbicide Plectosporium alismatis produces drying and UV tolerant micro-sclerotia-like structures named aggregates, effective against the weed Alisma plantago-aquatica. In this study, we evaluated (i) optimal liquid culture conditions that supported the high dry weight, conidia and aggregate yields and (ii) stress-tolerance and effectiveness of aggregates. Using a full factorial 2⁵ design, we studied the impact of agitation (A), glucose concentration (B), Tween 80 concentration (C), malt extract concentration (D), and inoculum density (E), on P. alismatis growth yields. The inoculum density (E), the agitation rate (A), and 3-factor interactions involving E and/or A had significant effects on aggregate yields (average 213 aggregates mL^?1; main effect of E: +112.87; main effect of A: ?74.81), but no significant effect on conidial yields and dry weight. The agitation was maintained at 100?rpm and increasing numbers of conidia were inoculated into the culture media. Maximal aggregate yields (3.6?×?10³ aggregates mL^?1) were obtained with an initial conidial density of 4?×?10⁶ conidia mL^?1. While freshly-harvested, dried and/or UV exposed aggregates germinated at high rates (respectively: 100%; 99%; 76%; 85%), sporogenesis significantly decreased after stress exposure. In bioassays using leaf discs of A. plantago-aquatica, chlorosis and/or necrosis was observed after 8 days incubation, regardless of whether aggregates had been exposed to desiccation and/or UV-radiations prior to application on leaf discs. These data provide a cultural protocol for the production of high numbers of UV and drying resistant aggregates effective against weed species of Alismatacae.     

Bioinsecticidal activity of conidia and dry mycelium preparations of two isolates of Beauveria bassiana against the sugarcane borer Diatraea saccharalis

Two isolates of Beauveria bassiana (Bb₁ and Bb₅ strains) were grown in solid-state and submerged cultures (SSC and SbC, respectively) in order to obtain conidia and dry mycelium preparations. The samples obtained at laboratory scale were tested as alternatives for their further use as mycoinsecticides to control the sugarcane borer Diatraea saccharalis. The spore yields obtained in SSC indicated that the Bb₅ strain was able to produce around three times more conidia per gram of initial dry matter (3.7×10¹⁰) than the Bb₁ strain (1.3×10¹⁰) in a solid medium composed of wheat bran and bran husk. Under this culture conditions, the former showed not only satisfactory spore yields, but also a higher bioinsecticidal activity than the latter. Laboratory bioassays carried out with conidia of both strains against D. saccharalis larvae indicated that the Bb₅ strain promotes an insect mortality of 82.5% whereas only 21.3% was observed with the Bb₁ strain preparations. Concerning the samples obtained in SbC, in which a culture medium based on glucose and yeast extract was employed, it is interesting to point out that although both strains showed similar behaviors with yields of approximately 1.50×10¹⁰ conidia per gram of dry mycelium, both preparations failed in their bioinsecticidal activities. Despite satisfactory yields, bioinsecticidal activity of the Bb₁ and Bb₅ strains dropped drastically showing a larvae mortality below 2%.     

Embryogenesis and plant regeneration of hot pepper (<Emphasis Type="Italic">Capsicum annuum</Emphasis> L.) through isolated microspore culture

We report high frequencies of embryo production and plant regeneration through isolated microspore culture of hot pepper (Capsicum annuum L.). Microspores cultured in modified NLN medium (NLNS) divided and developed to embryos. Globular and heart-shaped embryos were observed from 3 weeks after the beginning of culture, and many embryos reached the cotyledonary stage after 4 weeks of culture. These cotyledonary embryos developed to plantlets after transfer to solid B5 basal medium. We also optimized conditions for embryo production by varying the pretreatment media, the carbon sources, and culture densities. Heat shock treatment in sucrose-starvation medium was more effective than in B5 medium. Direct comparisons of sucrose and maltose as carbon sources clearly demonstrated the superiority of sucrose compared to maltose, with the highest frequency of embryo production being obtained in 9% (w/v) sucrose. Microspore plating density was critical for efficient embryonic induction and development, with an optimal plating density of 8 × 10⁴–10 × 10⁴/ml. Under our optimized culture conditions, we obtained over 54 embryos, and an average of 5.5 cotyledonary embryos when 10 × 10⁴ microspores were grown on an individual plate.     

Beauveria bassiana submerged conidia production in a defined medium containing chitin,two hexosamines or glucose

Summary Beauveria bassiana in liquid culture can produce blastospores and occasionally submerged conidia. For use as a bioinsecticide, conidia have definite advantages. Numerous studies have investigated conidia production in liquid cultures using synthetic and industrial grade media supplemented with glucose. We have studied growth, development and sporulation in microcultures using growth media containing chitin monomers. For the production of submerged conidia growth media containing N-acetyl-d-glucosamine (GlcNAc) proved to be better than yeast extract-peptone-glucose (YPG), glucose plus ammonium salts (Glc+NH₄Cl) or N-acetyl-d-galactosamine (GalNAc). Sixty-one percent of the spores in the GlcNAc medium were submerged conidia with the remainder being blastospores. The concentration of submerged conidia reached 8.0 × 10⁵/ ml after two days in GlcNAc medium as compared to 8.9 × 10⁵/ml in YPG medium. Therefore, in terms of percentage of submerged conidia produced, GlcNAc medium generated more submerged conidia in spite of its lower cell yields. Growth in a medium containing chitin, a polymer of GlcNAc, resulted in 86.3% of the spores as submerged conidia exceeding 10⁶/ml after 48 h. Growth under phosphate limitation resulted in an increased percentage of submerged conidia for all media tested. Electron microscopy and spore protein analysis by sodium dodecyl sulphate-polyacrylamide gel electrophoresis revealed that structural and compositional differences exist between the spore types.     

Efficacy of Exserohilum longirostratum on barnyard grass (Echinochloa crus-galli spp. crusgalli) under field conditions

An isolate of Exserohilum longirostratum obtained from Rottboelia cochinchinensis in Malaysia was highly pathogenic to barnyardgrass (Echinocloa crus-galli,) a serious weed in rice fields in Malaysia. In glasshouse trials, high levels of barnyardgrass control were achieved when E. longirostratum was applied as a conidial concentration at 10⁵ conidia/mL. This conidial concentration may not be sufficient for field use; therefore, a mini plot trial was carried out to assess the bioherbicidal potential of the fungus and the efficacy of different inoculum types under field conditions. Excellent barnyard grass disease as indicated by Area Under Disease Progress Curve (AUDPC) was achieved with mycelium (AUDPC = 583.8 unit²); mycelium + pretichlaclor (AUDPC = 610.4 unit²) and conidia alone (AUDPC = 468.3 unit²) compared to conidia + pretichlaclor (AUDPC = 395.8 unit²). Although conidia caused lower disease severity on barnyard grass compared to mycelium, this inoculum equally reduced the competition from barnyard grass as indicated by lower mean dry weight and fewer barnyard grass tiller numbers. Positive correlations between AUDPC of rice and its tiller number and AUDPC of rice and its dry weight were recorded while negative correlations were observed for the AUDPC of barnyard grass and its tiller number and AUDPC of barnyard grass and its dry weight. These findings confirmed that E. longirostratum applied either in the form of conidia or mycelium was effective against barnyard grass under field conditions.     

Formation and Germination of Septoria tritici Secondary Conidia as Affected by Environmental Factors

The effects of medium, isolate, temperature, light and pH on the formation and germination of Septoria tritici secondary conidia were tested. Of the six media tested, the malt–yeast extract agar was the best and generated 1.82 × 10⁹ conidia/plate. The ten isolates tested showed different ability of conidia production. Darkness significantly reduced conidial formation and enhanced the transition of intermediates. The conidial germination and germ tube growth was strongly inhibited at 30°C. The suitable pH for conidial budding in malt–yeast broth (MYB) was between 5 and 9. At pH 2, 10 and 11, almost no new conidia were formed. The number of conidia reached 1.27 × 10⁸ conidia/ml after 7 days in MYB, significantly more than that in potato dextrose broth, wheat leaf extract and H₂O.     

<Emphasis Type="Italic">Beauveria bassiana</Emphasis> pathogenicity to the cherry slugworm, <Emphasis Type="Italic">Caliroa cerasi</Emphasis> (Hymenoptera: Tenthredinidae) larvae

The cherry slugworm Caliroa cerasi is a significant destructive pest of sour cherries (Prunus cerasus) in Turkey. The potential of entomopathogenic fungi for controlling C. cerasi was evaluated. The effects of exposure methods and conidial concentrations (1 × 10⁶, 1.5 × 10⁶, 1 × 10⁷ and 1.5 × 10⁷ conidia/ml) on mature larvae of C. cerasi infected by Beauveria bassiana were investigated under laboratory conditions. Larvae sprayed directly with B. bassiana conidial suspensions and larvae exposed to B. bassiana-treated leaves resulted in 100% mortality within 2.90 and 2.77 days, respectively. The median lethal time (LT₅₀) and days to mortality were highest in the 1.0 × 10⁷ concentrations of conidia for both direct spray and leaf exposure. The present study suggests that B. bassiana has good potential for control of the cherry slugworm, C. cerasi.     

Culture medium improvement for Isaria fumosorosea submerged conidia production

Submerged conidia and blastospores of the entomopathogenic fungus Isaria fumosorosea are produced in several liquid culture media. However, yields and the ecological fitness of these propagules vary according to culture media composition. In most culture media, hyphae, blastospores and submerged conidia are white but we found that in some media they develop a brown pigmentation. A dark pigment was extracted from brown-pigmented propagules and analyzed by IR spectroscopy. Adsorption bands coincided to those characteristics of melanins.Hadamard's matrices were employed in order to increase submerged conidia yields and brown pigmentation of fungal propagules. Media containing 20–30 mg/l of FeSO₄·7H₂O and 6–12 mg/l of CuSO₄·5H₂O allowed reaching the highest pigmentation (9 in a hedonic scale). A maximal concentration of submerged conidia of 1.0 (±1.2) × 10¹² cell/l was achieved after 120 h of liquid culture in a improved culture medium, containing 25 ml/l of Polyethylene glycol (MW 200), substance which enhanced submerged conidia production, reducing free mycelia or mycelial pellets formation. In the improved medium, it was estimated that more than 60% of produced biomass corresponded to submerged conidia and blastospores, while in other media, mycelia were the main product (80–97%).     

The effects of culture media, solid substrates, and relative humidity on growth, sporulation and conidial discharge of Valdensinia heterodoxa

Valdensinia heterodoxa (Sclerotiniacae) is a potential fungal bioherbicide for control of salal (Gaultheria shallon). The effect of culture media, substrates and relative humidity (RH) on growth, sporulation and conidial discharge of V. heterodoxa was determined for two isolates PFC2761 and PFC3027 in vitro. Culture media significantly affected the growth, sporulation, and conidial discharge of V. heterodoxa. Of eight agar media used, colony radial growth was optimal on salal oatmeal agar and salal potato dextrose agar for isolates PFC2761 and PFC3027, respectively; whereas sporulation was at an optimum on salal oatmeal agar for both isolates. Of the eight liquid media tested, mycelial production was highest on wheat bran–salal–potato dextrose broth. Growth on solid substrates greatly stimulated sporulation and conidial discharge of V. heterodoxa. Of the 12 solid substrates used, the greatest numbers of discharged conidia were observed from wheat bran and wheat bran–salal within 14 d of sporulation. Sporulation on solid substrates continued for 42 d. RH significantly affected the sporulation and conidial discharge for both isolates across all solid substrates tested. No conidia were produced or discharged below 93 % RH on wheat bran–salal and millet. With an increase of the RH from 93 to 97 %, sporulation and the number of discharged conidia increased significantly for both isolates on wheat bran–salal, but not on millet.     

Conidiation of <Emphasis Type="Italic">Penicillium camemberti</Emphasis> in submerged liquid cultures is dependent on the nitrogen source

Objective

To study the ability of a commercial Penicillium camemberti strain, used for Camembert type cheese ripening, to produce conidia during growth in liquid culture (LC), in media containing different sources of nitrogen as, industrially, conidia are produced by growth at the surface of a solid state culture because conidiation in stirred submerged aerobic LC is not known.

Results

In complex media containing peptic digest of meat, hyphae ends did not differentiate into phialides and conidia. Contrarily, in a synthetic media containing KNO₃ as sole nitrogen source, hyphae ends differentiated into phialides producing 0.5 × 10⁷ conidia/ml. Conidia produced in LC were 25 % less hydrophobic than conidia produced in solid culture, and this correlates with a seven-times-lower expression of the gene rodA encoding hydrophobin RodA in the mycelium grown in LC.

Conclusion

Conidiation of P. camembertii is stimulated in iquid medium containing KNO₃ as sole source of nitrogen and therefore opens up opportunities for using liquid medium in commercial productions.

     

Microencapsulating aerial conidia of Trichoderma harzianum through spray drying at elevated temperatures

Conidia of Trichoderma harzianum produced from either solid or liquid fermentation must be dried to prevent spoilage by microbial contamination, and to induce dormancy for formulation development and prolonged self-life. Drying conidia of Trichoderma spp. in large scale production remains the major constraint because conidia lose viability during the drying process at elevated temperatures. Moreover, caking must be avoided during drying because heat generated by milling conidial chunks will kill conidia. It is ideal to dry conidia into a flow-able powder for further formulation development. A method was developed for microencapsulation of Trichoderma conidia with sugar through spray drying. Microencapsulation with sugars, such as sucrose, molasses or glycerol, significantly (P < 0.05) increased the survival percentages of conidia after drying. Microencapsulation of conidia with 2% sucrose solution resulted in the highest survival percentage when compared with other sucrose concentrations and had about 7.5 × 10¹⁰ cfu in each gram of dried conidia, and 3.4 mg of sucrose added to each gram of dried conidia. The optimal inlet/outlet temperature setting was 60/31 °C for spray drying and microencapsulation. The particle size of microencapsulated conidia balls ranged from 10 to 25 μm. The spray dried biomass of T. harzianum was a flow-able powder with over 99% conidia, which could be used in a variety of formulation developments from seed coatings to sprayable formulations.     

Physiological effects of nanosilver on vegetative mycelium,conidia and the development of the entomopathogenic fungus,Isaria fumosorosea

An assessment of the influence of water nanosilver suspension was made at a concentration of 10 mg·L^?1 on biological material (i.e., vegetative mycelium and conidia of Isaria fumosorosea entomopathogen) on a background of the silver nitrate ionic form used. Conidia of I. fumosorosea treated with silver nitrate for more than 168 h were completely deactivated. The application of nanosilver on Isaria hyphae resulted in a quantitative limitation of mycelium growth and its weaker sporulation after culturing compared to the control. The pathogenicity of a conidial suspension obtained from such culturing towards test insects did not diverge from that observed in the standard culture. No obvious toxic effects of nanosilver were observed on I. fumosorosea conidia. Isaria conidia, after exposure to nanosilver over a period between 1 and 800 h, initially demonstrated weaker vegetative mycelium formation in culture on solid medium and, as a consequence, this mycelium often sporulated in a poorer manner. In one case, there was a significant stimulation of the sporulation process for nanosilver treatment before culture for 168 h. Concurrently, conidial suspensions obtained from the culture after exposure of over 168 h to nanosilver exhibited enhanced pathogenicity towards test insects, which may be considered a beneficial phenomenon in terms of the function played by Isaria in the whole environment. The reaction of conidia with nanosilver indicates the deactivation of conidia cells in suspensions and a possibility of selection in increased pathogenicity.     

Factors influencing pathogenicity of Fusarium tumidum on gorse (Ulex europaeus)

Factors promoting pathogenicity of Fusarium tumidum on gorse (Ulex europaeus) were determined to develop a novel strategy for delivering this potential mycoherbicide using insects as vectors of inoculum. Fusarium tumidum sprayed as a suspension of 1×10⁶ conidia mL^?1 on at least 50% of a gorse plant reduced shoot dry weight by 45% (P<0.05). A minimum of 910 viable conidia were required to cause a lesion on leaves. The leaves and flowers were more susceptible to infection than stems, spines and pods. Generally, wounding of gorse leaves and stem increased F. tumidum infection, most likely through releasing nutrients that enhanced conidial germination and hyphal growth. We showed in a separate experiment that conidial germination (93%) and germ tube length (407 µm) were greater when incubated in 0.2% gorse extract solution for 24 h than in water (62% germination, germ tube length 42 µm). Inoculation of gorse with a F. tumidum conidial suspension supplemented with 0.2% gorse extract resulted in a shoot dry weight reduction (P=0.012) equivalent to that of plants that were wounded and inoculated. It is concluded that wounding of older tissues (which mimics insect damage) is required to facilitate F. tumidum infection of mature gorse plants.     

重组大肠杆菌产γ-环糊精葡萄糖基转移酶的摇瓶发酵优化

为了实现来源于碱性芽孢杆菌Alkalophilic Bacillus clarkii 7364的γ-环糊精葡萄糖基转移酶的高效胞外表达,对OmpA信号肽介导的E.coli BL21(DE3)/pET20b(+)-γcgt基因工程菌进行发酵培养基及发酵条件的优化,并进行正交试验,获得最优培养基:甘油5g/L、蛋白胨6g/L、酵母膏24g/L、钙离子6mmol/L、镁离子2mmol/L、甘氨酸0.75%、PO₄^3- 0.1mol/L;在此基础上最适发酵条件:pH6.5、25℃培养、装液量30ml/250ml、转速220r/min、0.02%SDS、在发酵10h时利用5g/L乳糖进行诱导,使得酶活从初始的5189.2U/ml提高到20268.8U/ml。研究结果得到高效表达的培养条件,为实现该酶的工业化应用打下了基础。     

Do Pathogenic Fungi Have the Potential to Inhibit Biocontrol Fungi?

Metabolites produced by the soilborne plant pathogen Rhizoctonia solani (R-23) and Pythium ultimum (PuZ3) grown on cellophane disks placed on potato-dextrose agar (PDA), molasses brewer's yeast agar (MYA) and wheat bran extract agar (BEA) did not significantly affect the rate of growth of isolates of the antagonists Trichoderma viride (TS-I-R3. Tv-101), T. harzianum (Th-57, Th-87), T. hamatum (Tm-23, TRI-4), or Gliocladiun virens (GI-3, GI-21) when these antagonists were grown on the three agars containing pathogen metabolites. However. in some instances. density of antagonist mycelium growing on the agar media as well as the observable production of antagonist conidia on the agar media were reduced. Using four antagonists in liquid cultures of potato-dextrose broth (PDB) containing metabolites of the pathogens grown on bran extract broth, metabolites from R-23 significantly reduced mycelial dry weight of Th-87 and GI-21 but not that of TRI-4 and GI-3. On the contrary. metabolites of PuZ3 increased the mycelial dry weight of all four antagonists, Metabolites of R-23 reduced production of conidia of only TRI-4; metabolites of PuZ3 significantly reduced production of conidia of all four antagonists. Pathogen metabolites did not affect germination of conidia in the system used.     

Culture age impacts Plectosporium alismatis propagule yields and subsequent desiccation and UV-radiation tolerance

The effect of culture age on yields, desiccation tolerance and resistance to ultraviolet radiation of Plectosporium alismatis, a potential mycoherbistat of aquatic weeds in Australian rice fields, was studied. P. alismatis was grown in a liquid basal medium supplemented with malt extract and sodium nitrate and harvested after 7, 14 or 21 days incubation. Although chlamydospore yields harvested from 14-day-old liquid cultures were significantly higher (29.2×10⁵ chlamydospores mL^?1) than chlamydospore yields harvested from 7-day-old liquid cultures (1.07×10⁵ chlamydospores mL^?1) or from 21-day-old liquid cultures, the germination of freshly-harvested chlamydospores from 7-day-old cultures (72.7%) was significantly reduced when propagules were grown for 14 days (55.3%). When exposed to UV-radiation, conidia and chlamydospores harvested from 14-day-old cultures germinated at a lower rate (<20%) than conidia and chlamydospores harvested from 7-day-old cultures (>40%). When conidia and chlamydospores were dried and subsequently exposed to UV, less than 30% of propagules harvested from 7-day-old cultures germinated, whereas less than 10% of propagules harvested from 14-day-old cultures germinated. A three-way analysis of variance including culture age, UV exposure and type of propagules confirmed that the culture age had more impact on the germination of fresh or dry propagules (P=0.00001 and P=0.0004, respectively) than the type of propagules considered (P=0.5). These results demonstrate that the culture age impacts significantly propagule yields and germination of P. alismatis conidia and chlamydospores, particularly after stress caused by dehydration and/or exposure to UV-B radiation.     

Beauveria bassiana yeast phase on agar medium and its pathogenicity against Diatraea saccharalis (Lepidoptera: Crambidae) and Tetranychus urticae (Acari: Tetranychidae)

Beauveria bassiana colonizes insect hosts initially through a yeast phase, which is common in some artificial liquid cultures, but not reported on artificial solid media. We describe a yeast-like phase for B. bassiana isolate 447 (ATCC 20872) on MacConkey agar and its virulence toward Diatraea saccharalis and Tetranychus urticae. The yeast-like cells of B. bassiana developed by budding from germinating conidia after 24-h incubation. Cells were typically 5-10 microm and fungal colonies were initially circular and mucoid, but later were covered with mycelia and conidia. Ability to produce yeast-like cells on MacConkey medium was relatively common among different B. bassiana isolates, but growth rate and timing of yeast-like cell production also varied. Metarhizium anisopliae and Paecilomyces spp. isolates did not grow as yeast-like cells on MacConkey medium. Yeast-like cells of B. bassiana 447 were more virulent against D. saccharalis than conidia when 10(7)cells/ml were used. At 10(8)cells/ml, the estimated mean survival time was 5.4 days for the yeast suspension and 7.7 days for the conidial suspension, perhaps due to faster germination. The LC(50) was also lower for yeast than conidial suspensions. Yeast-like cells and conidia had similar virulence against T. urticae; the average mortalities with yeast-like cells and conidia were, respectively, 42.8 and 45.0%, with 10(7)cells/ml, and 77.8 and 74.4%, with 10(8)cells/ml. The estimated mean survival times were 3.6 and 3.9 for yeast and conidial suspensions, respectively. The bioassay results demonstrate the yeast-like structures produced on MacConkey agar are effective as inoculum for B. bassiana applications against arthropod pests, and possibly superior to conidia against some species. Obtaining well-defined yeast phase cultures of entomopathogenic hyphomycetes may be an important step in studies of the biology and nutrition, pathogenesis, and the genetic manipulation of these fungi.     

Effect of Auxin and Gibberellin on Conidial Germination in Neurospora crassa II. "Conidial Density Effect" and Auxin

Conidial germination in liquid shake culture of Neurospora crassawas affected by the number of conidia in the medium (conidialdensity effect) with the optimum density being around 2?10⁶conidia/ml. The conidial density effect at 2?10⁴ and 2?10⁵ conidia/mlwas eliminated by the addition of auxin, IAA or 2,4-D with theoptimum concentrations of IAA and 2,4-D being around 10^–6M. IAA and 2,4-D had no effect on the effect at 2?10⁷ conidia/ml.An active substance(s) for conidial germination which was relatedto the conidial density effect was detected in the cell-freefiltrate of the germination medium, and was found to be non-dialyzableand thermolabile. At the early stage of germination, the concentrationof active substance(s) in the medium increased in proportionto the conidial density and reached a supraoptimum amount forgermination at 2?10⁷ conidia/ml. IAA (10^–6M) enhancedthe concentration. Endogenous auxin concentrations in filtratesof the germination media containing 2?10⁵, 2?10⁶ and 2?10⁷ conidia/mlwere 5.8?10^–12, 4.6?10^–11 and 1.7?10^–10M IAAequivalent, respectively. The conclusion reached was that auxinmay control conidial germination with mediation by the activesubstance(s). (Received June 8, 1982; Accepted September 27, 1982)