Efficacy assessment of Candida oleophila (strain O) and Pichia anomala (strain K) against major postharvest diseases of citrus fruits in Morocco

Two yeasts, Candida oleophila (strain O) and Pichia anomala (strain K), were previously selected for their antagonistic activity against postharvest diseases on apples and pears. The objective of the study was to determine the efficacy of both antagonistic yeast's against wound postharvest pathogens of citrus fruits. The efficacy of both strains (applied at 10(5), 10(6) and 10(8) CFU/ml) was assessed against Penicillium digitatum and P. italicum inoculated after one hour (at a concentration of 10(5), 10(6) and 10(7) spores/ml) on citrus varieties 'clementine' and 'valencia-late'. Fruits were incubated for one week at 24 degrees C before measurement of lesion diameter. The protective levels were positively correlated with high concentration of antagonist and low concentration of pathogen. Highest protective levels (from 73 to 100%) were detected with the application of strain O or strain K at 10(8) CFU/ml whatever the pathogen (applied at 10(5) spores/ml) and the citrus variety. The antagonistic activity of both strains was also dependent on the incubation period before pathogen Inoculation. The protective level increased with time between application of the antagonist and inoculation of fungal spores. Whatever the yeast strain (10(8) CFU/ml). the protective level exceed 70% when wounded oranges were inoculated with P. digitatum or P. italicum (both at 10(6) spores/ml) 12 hours after yeast treatment. These protective levels reached 100% when the incubation period separating the antagonist application and the pathogenic inoculation was 24 hours. On the other hand, high protective levels (< 80%) were also observed against the sour rot decay on citrus variety 'clementine' caused by Geotrichum candidum inoculated at concentration of 10(6) spores/ml when strain O or strain K were applied at 10(8) CFU/ml 24 hours before pathogen. All these results support the potential practical application of both strains against major postharvest pathogens on citrus.     

In situ development and application of cDNA-AFLP to isolate genes of Candida oleophila (strain O) potentially involved in antagonistic properties against Botrytis cinerea

The yeast Candida oleophila (strain O) presents a high level of protective activity against Botrytis cinerea (gray mold) on postharvest apples. The cDNA-AFLP technique allows the comparison of mRNA populations extracted from cells grown in different conditions. In order to isolate yeast genes potentially involved in biological control properties, that technique was applied on strain O cells growing on apple wounds. The biological control properties of 8 C. oleophila strains and strain O were assessed in order to compare the gene expression of a non antagonistic strain against gene expression of strain O. In the absence of a non-antagonistic strain, an other comparison model was designed. It was based on the growth of strain O in different in situ conditions: strain O applied on apple wounds (O), strain O applied on apple wounds in presence of B. cinerea (B) and B. cinerea alone on apple wounds (F). A recovering technique, based on the washing of cells in the wound and a RNA extraction method followed by a DNase treatment were optimised before cDNA-AFLP application. Thirteen primer pairs were used. Their application resulted in an average of 54 and 55 bands for O and B respectively whereas no bands were observed for F. Among these bands, 8 were expressed more intensely in presence of the pathogen (1.1% of the fragments).     

Selection of antagonists of postharvest apple parasites: Penicillium expansum and Botrytis cinerea

The objectives of this study were to constitute a collection of pathogenic agents of economic importance which cause losses of apple fruits after harvest namely Botrytis cinerea and Penicillium expansum and to select in vivo efficient antagonistic strains able to protect fruits against both pathogens at 5 degrees C (P. expansum) and 25 degrees C (P. expansum & B. cinerea). Twenty strains of P. expansum and ten strains of B. cinerea have been isolated from infected apple fruits. Potential antagonistic micro-organisms (thirty three isolates) belonging to yeast, bacteria and fungi have been isolated from apple surface. Six of them (strains Ach1-1, Ach2-1, Ach2-2 belonging to Aureobasidium pullulans (De Bary) Arnaud, and strains 1112-3, 1113-10 and 1113-5 belonging to Aureobasidium pullulans (de Bary) Am. v. pullulans) showed a high level of protection (more than 80%) at 25 degrees C. once inoculated with P. expansum or B. cinerea for 5 days. The highest level of protection against P. expansum (96%) was observed with the application of Ach 2-1. Six days after inoculation of B. cinerea, strains Ach 2-2 and Ach 2-1 insured 100% and 96% of protection, respectively. At lower temperature (5 degrees C), first symptoms of P. expansum appeared 13 days after its inoculation. Percentages of protection observed after apple treatment with one of the six antagonistic strains were ranged from 78% to 94% 20 days after P. expansum inoculation. Strains labelled Ach showed a protective level higher than 90% against this pathogen, followed by strain 1113-10 (90%), strain 1113-5 (89%) and strain 1112-3 (82%). At 26 days post-inoculation, levels of protection decreased but remained higher than 60% (more than 80% with strain Ach2-2 and strain 1113-5, 75% with strain Ach2-1 and 1113-10, 72% with ach1-1, 61% for the other strains). Strain Ach2-2 and 1113-10 were retained as the best antagonists for the subsequent studies.     

Effects of Various Elicitors on the Transcription of a β-1,3-endoglucanase Gene in Citrus Fruit

Very little is yet known regarding the molecular mechanisms involved in pathogen defense responses in citrus fruit. Recently, a basic β-1,3-endoglucanase (EC 3.2.2.39) belonging to the pathogenesis-related (PR) group of proteins, has been purified from Citrus sinensis (L) Osbeck cv. `Valencia' orange callus. Specific antibodies raised against the purified protein were used to screen `Valencia' callus and flavedo cDNA expression libraries, and to isolate its corresponding cDNA, designated gns1. The gns1 gene encodes a predicted polypeptide of 336 amino acids with a molecular mass of 37.3 kDa and a basic pI of 9.19, and shares 55–65% identity with several other plant β-1,3-endoglucanase proteins. Hereby, we show that the expression of the gns1 gene is markedly induced by wounding and inoculation with Penicillium digitatum (Pers. Fr.) Sacc., and following treatments with various elicitors that induce fruit resistance against P. digitatum . These treatments include UV irradiation, application of jasmonic acid (JA), β-aminobutyric acid (BABA), Candida oleophila antagonist yeast cells and hot water rinsing and brushing. Overall, based on various RNA gel blot hybridizations, we assume that gns1 is most likely to be part of the molecular mechanisms involved in pathogen defense responses in citrus fruit. *     

Biological Control of Pseudomonas syringae pv. glycinea by Epiphytic Bacteria under Field Conditions

The efficacy of a bacterial strain as a biocontrol agent in the field may be related to the ecological similarity between the biocontrol agent and the target pathogen. Therefore, a number of different Pseudomonas syringae strains were evaluated for their antagonistic activities in vitro (agar-diffusion assay) and in planta (greenhouse assay) against the target pathogen, Pseudomonas syringae pv. glycinea. Six strains of five different pathovars were found to be antagonistic in vitro as well as in planta. The epiphytic fitness of the antagonistic Pseudomonas syringae strain 22d/93 and its two antibiotic-resistant mutants were examined on soybean plants in the fields. After adaptation the parental strain and its mutants had the ability to establish and maintain large epiphytic populations (about 10⁶ cfu/g FW) over the whole growing season after a single spray inoculation. The epiphytic behaviors of the mutants and the parent were not significantly different. The introduced bacteria did not influence the total bacterial population size. When the antagonist was coinoculated with the pathogen, the development of the pathogen was significantly reduced during the whole growing season. When the antagonistic strain was inoculated 4 weeks in advance of the pathogen, this antagonistic effect could be markedly enhanced. The final population size of the pathogen reached just 10⁴ cfu/g FW and was significantly reduced to 0.12% compared to the pathogen alone. This study demonstrates that biological control of foliar pathogens through colonization of the host plants with near isogenic or ecologically similar antagonistical strains seems to be a realistic goal.     

Postharvest biological control of Penicillium digitatum decay on citrus fruit by Bacillus pumilus

A new antagonist/pathogen combination is reported, with Bacillus pumilus showing strong antagonistic activity against Penicillium digitatum. B. pumilus (1.6 × 10¹⁰ to 1.6 × 10¹²*cfu ml^-1) gave significant control of P. digitatum infection in Valencia orange, which was as effective as imazalil (500 μg ml^-1) and was significantly better than benomyl treatment (500 μg ml^-1). When lower concentrations of B. pumilus (1.9 × 10⁷ to 1.9 × 10⁹ cfu ml^-1) were tested on Washington Navel orange and Lisbon lemon fruit, the antagonist caused significant control of P. digitatum infection at two inoculum levels (6.5 × 10⁴ and 6.5 × 10⁵ spores ml^-5). Concentrations of both the pathogen and the antagonist affected the biocontrol effect.     

Improving Biocontrol Activity of Pichia guillermondii Against Post-harvest Decay of Oranges in Commercial Packing-houses by Reduced Concentrations of Fungicides

Three commercial tests were conducted in 2000-2001 in two commercial packing-houses (Muravera and Villacidro) located in Sardinia, Italy, to evaluate the efficacy of biological, chemical and integrated treatments against Penicillium digitatum and P. italicum on naturally inoculated orange fruit. Damage caused by the packing-house processing line was also assessed. Treating orange fruits with the yeast Pichia guilliermondii (strain 5A) in the processing line generally led to a significant reduction of post-harvest decay compared to the processed control, while the commercial product Aspire®, based on Candida oleophila , was ineffective in inhibiting the pathogen when applied alone. The integrated application of thiabendazole or imazalil with the biocontrol agents significantly improved the control of fruit decay. Using thiabendazole at concentrations of 0.1 and 1.2 g L -1 , led to similar inhibition of fruit decay in two trials. Both yeasts were equally able to colonize the fruit actively during storage. Passing fruits through the packing line caused a significant increase in fruit decay.     

银杏内生细菌的分离鉴定及抑菌活性初探

【目的】从银杏(Ginkgo biloba)茎叶中分离鉴定内生细菌, 测定其体外抑菌活性及对辣椒果疫病的防治效果。【方法】采用平板对峙法筛选出对辣椒疫霉菌(Phytophthora capsici)有拮抗作用的内生细菌, 并用平板对扣法测定其中一株防治效果较好的内生细菌产生的挥发性物质对辣椒疫霉菌生长的影响。通过生防菌液和病原菌孢子悬浮液喷雾接种辣椒果测定该菌株对辣椒果疫病的防治效果。基于形态特征、生理生化特性、16S rDNA和gyrA基因序列同源性分析鉴定该生防菌株。【结果】从银杏的茎和叶中分离获得9株内生细菌。平板对峙生长试验结果表明, 菌株W5对供试的辣椒疫霉菌、稻瘟病菌(Pyricularia grisea)、水稻纹枯菌(Rhizoctonia solani)、黄瓜枯萎病菌(Fusarium oxysporum)、荔枝霜疫霉菌(Peronophythora litchi)、荔枝酸腐菌(Geotrichum candidum)均有抑制作用, 其中对辣椒疫霉菌、稻瘟病菌和荔枝霜疫霉菌的抑菌效果显著, 抑菌率分别为88.9%、86.3%和90.2%。其产生的挥发性物质能明显抑制辣椒疫霉菌菌丝的生长。对辣椒采后果疫病的防治效果表明, 先喷雾接种W5菌悬液24 h后再接种辣椒疫霉病菌孢子悬浮液的防治效果最好, 可将辣椒果的保鲜期延长2?3 d。该菌株被鉴定为解淀粉芽胞杆菌(Bacillus amyloliquefaciens)。【结论】获得了一株对植物病原菌物有良好防治效果的银杏内生解淀粉芽胞杆菌W5, 对辣椒采后果疫病及其他病原真菌的防治具有潜在应用价值。     

一株祼脚菇属菌株产抗菌活性物的基础液体培养碳、氮源等优化及其对柑橘青绿霉菌的作用

江西是柑橘类水果的主要产区之一,青绿霉菌是导致柑橘采后腐烂的主要病害,化学杀菌剂可产生病原抗药性和残留,一株具有拮抗此病菌的祼脚菇属菌株0612-9被发现。为了探索其产活性物质的代谢培养和活性作用,采用菌丝生长速率法和显微观察法测定了其抗菌活性,单因素试验、Plackett-Burman、最陡爬坡试验和Box-Behnken试验响应面设计等优化出液体培养基组成和培养条件。结果显示:液体培养基组成和培养条件为:马铃薯279.94g/L,葡萄糖30g/L,麸皮8.87g/L,MgSO₄·7H₂O 0.47g/L,KH₂PO₄ 2g/L,发酵周期10d,接种量5 ml/100 ml,转速180 r/min,摇床温度26℃,装液量100ml/250ml,发酵液抗病菌活性从42.26%提高到55.77%。对意大利青霉和指状青霉的EC₅₀分别为69.25g/L和56.70g/L,最小杀菌浓度250μg/ml低于阳性对照物抑霉唑的500μg/ml,并且对病原菌菌丝体有一定的毒害作用。该祼脚属菌株有潜在开发成柑橘采后保鲜剂的价值。     

Trichoderma harzianum antagonistic activity and competition for seed colonization against seedborne pathogenic fungi of sunflower

This study investigated the antagonistic effects of Trichoderma harzianum isolate (TRIC8) on mycelial growth, hyphal alteration, conidial germination, germ tube length and seed colonization by the seedborne fungal pathogens Alternaria alternata, Bipolaris cynodontis, Fusarium culmorum and F. oxysporum, the causes of seedling rot in over 30% of sunflowers. The antagonistic effect of TRIC8 on mycelial growth of pathogens was evaluated on dual culture that included two inoculation assays: inoculation of antagonist at 48 h before pathogen (deferred inoculation) and inoculation at the same time with pathogen (simultaneous inoculation). TRIC8 inhibited mycelial growth of the fungal pathogens between 70·67 and 76·87% with the strongest inhibition seen with deferred inoculation. Alterations in hyphae were observed in all pathogens. Conidial germination of F. culmorum was inhibited by most of the fungal pathogens (38·28%) by TRIC8. Inhibition of germ tube length by the antagonist varied from 31·83 to 37·67%. In seed colonization experiments, TRIC8 was applied in combination with each pathogen to seeds of a sunflower genotype that is highly tolerant to downy mildew. Seed death was inhibited by TRIC8 and the antagonist did not allow growth of A. alternata, B. cynodontis and F. culmorum on seeds and inhibited the growth of F. oxysporum at the rate of 58·32%.     

Effect of package and storage conditions on viability and efficacy of the freeze-dried biocontrol agent Pantoea agglomerans strain CPA-2

AIMS: To reduce concentrations of protective and rehydrating media and to evaluate the effect of storage temperature, packaging and atmosphere conditions on the stability of freeze-dried Pantoea agglomerans cells. Efficacy against Penicillium digitatum of freeze-dried cells in orange fruits was also evaluated. METHODS AND RESULTS: Several concentrations of protective and rehydration media were tested to reduce processing costs. Freeze-dried cells were packed in glass vials or plastic bags under vacuum or nitrogen conditions at 4 and 25 degrees C. After 1 and 3 months, efficacy of freeze-dried P. agglomerans against P. digitatum was tested. CONCLUSIONS: The results indicate that it is possible to reduce the concentration of non-fat skimmed milk as a rehydration medium from 10% to 1%, maintaining viabilities of 100%. Moreover, freeze-dried cells could be stored in glass vials or in high barrier plastic bags at 4 degrees C for 3 months while maintaining high viabilities and efficacy against P. digitatum. SIGNIFICANCE AND IMPACT OF THE STUDY: The major obstacle in the commercialization of biocontrol products is the development of a shelf-stable formulated product that retains biocontrol activity at a level similar to that of fresh cells. This study suggests that it is possible to maintain viability and efficacy of freeze-dried P. agglomerans cells for at least 3 months.     

Pilot testing ofKloeckera apiculata for the biological control of postharvest diseases of citrus

The efficacy of the yeastKloeckera apiculata, strain 34-9, in controlling postharvest decay of citrus fruit was evaluated in small-scale and pilot tests in commercial packinghouse. Kloeckera apiculata grew efficiently on different media and maintained its antagonistic activity against spore germination ofPenicillium italicum. In small-scale experiments with citrus fruits dipped in the yeast cell suspension, the development of decay in citrus was effectively inhibited. The yeast was compatible with a mixture of low concentration of a commonly chemical fungicide. In packinghouse tests, combining the yeast with 40 mg/kg Carbendazim (MBC) resulted a reduction in the incidence of decay to a level equal to that of the commercial treatment of 200 mg/kg MBC. The efficacy of the strain 34-9 could also be maintained under packinghouse conditions at a cell concentration of the yeast antagonist as low as 10⁶ cells/ml. No significant difference in the efficacy ofK. apiculata was found in either the drench or the spray application systems tested in citrus packinghouse. Scanning electron microscopy revealed attachment of the yeast cells to the pathogen hyphae. The high antagonistic activity of strain 34-9 against citrus blue mould may be related to its capability to compete withPenicillium italicum, for space and nutrients and /or involvement of directly antagonist of the yeast on the fungus.     

Evaluation of the strains of Acinetobacter and Enterobacter as potential biocontrol agents against Ralstonia wilt of tomato

Bacterial wilt (Ralstonia solanacearum) of tomato, Lycopersicon esculentum, causes a considerable amount of damage to tomato in Southern China. Biological control is one of the more promising approaches to reduce the disease incidence and yield losses caused by this disease. Based on antagonistic activity against R. solanacearum and three soil-borne fungal pathogens as well as biocontrol efficacy in the greenhouse, two bacterial strains Xa6 (Acinetobacter sp.) and Xy3 (Enterobacter sp.) were selected out of fourteen candidates as potential biocontrol agents. In order to find a suitable antagonist inoculation method, we compared the methods of root-dipping with soil-drenching in the aspects including rhizocompetence, biocontrol efficacy, and effect of promoting plant growth under greenhouse conditions. The drenching treatment resulted in a higher biocontrol efficacy and plant-yield increase, and this method was also easier to operate in the field on a large scale. Field trials were conducted for further evaluation of these two antagonistic strains. In both greenhouse and field experiments, the strain Xy3 had a better control effect against bacterial wilt than Xa6 did, while Xa6 caused higher biomass or yield increases. As recorded on the 75th day after treatment in two field experiments, biocontrol efficacy of Xy3 was about 65% in both field trials, and the yield increases caused by Xa6 were 32.4 and 40.7%, respectively, in the two trials. This is the first report of an Acinetobacter sp. strain used as a BCA against Ralstonia wilt of tomato.     

Development of real-time PCR using Minor Groove Binding probe to monitor the biological control agent Candida oleophila (strain O)

A real-time PCR assay using a 3'-Minor Groove Binding (MGB) probe was developed for specific detection and monitoring of Candida oleophila (strain O), a biocontrol agent against Botrytis cinerea and Penicillium expansum, on harvested apples. The application of the RAPD technique on C. oleophila strains followed by reproducible sequence characterized amplified region (SCAR) amplifications allowed the identification of a semi-specific fragment of 244 bp, observed in the profiles of strain O and three other C. oleophila strains. After sequencing, polymorphisms (3%) were observed between the strain O sequence and the three other sequences. A 3'-Minor Groove Binding probe was designed to specifically match a region of the strain O sequence and was able to discriminate a single base mutation or a two-base difference in the corresponding sequences of the non-target strains. This specific detection method was applied to monitor strain O population, recovered by a washing buffer, from harvested apples. Population densities were calculated using an external standard curve consisting in a serial dilution of strain O cells in the washing buffer from untreated apples. Linearity in the standard curve was kept between 1.64 x 10(2) and 1.64 x 10(5) cfu cm(-2) of apple surface. During a first practical experiment, the calculated population densities were similar to those obtained by plating on semi-selective media. This new real-time PCR method is a promising tool to monitor quickly and specifically strain O population on apple surface in middle- or large-scale experiments.     

Potato Cultivar, Pathogen Isolate and Antagonist Cultivation Medium Influence the Efficacy and Ranking of Bacterial Antagonists of Fusarium Dry Rot

The process of selecting biological control agents for further development frequently does not involve conducting bioassays of strain effectiveness on a range of pathogen isolates or host cultivars. Additionally, though previous studies have demonstrated that the medium used to produce biomass of an antagonist can alter its efficacy, this factor is also rarely considered when selecting for the most effective antagonist. Host cultivar, pathogen isolate, and the cultivation medium used to produce the antagonists' biomass were examined as factors of potential importance for assessing the relative effectiveness of bacterial biocontrol strains accurately. Five bacterial antagonists that control Fusarium dry rot on stored potato tubers were assayed for effectiveness against 10 isolates of Gibberella pulicaris . All antagonists reduced disease severity (35-81%) regardless of the specific assays conducted. However, when the antagonists' biomass were produced on two media that differed both in nutrient composition and phase, the efficacy ranking of antagonist Enterobacter sp. S11:P:08 varied from first to fourth most effective. For the antagonists studied, the phase of a nutritionally identical medium had little impact on the efficacy ranking of the five antagonists. Four of the five antagonists had efficacy rankings that ranged from first to last depending on the isolate of the pathogen used to conduct the bioassay. The cultivar of the host also caused variations in the efficacy ranking of the antagonists. These results indicate that bioassays should be conducted using a range of liquid culture production media, pathogen isolates, and host cultivars in order to choose an antagonist that has the highest likelihood for commercial development as an effective biological control product.     

A Multiple-Pathogen System for Bioherbicidal Control of Several Weeds

A novel system using four host-specific fungal plant pathogens applied in a single, postemergent spray to control pigweed, sicklepod, and showy crotalaria was tested under greenhouse conditions. The four pathogens were Phomopsis amaranthicola (a pathogen of pigweed species), Alternaria cassiae (a pathogen of sicklepod and showy crotalaria), Colletotrichum dematium f. sp. crotalariae and Fusarium udum f. sp. crotalariae (pathogens of showy crotalaria). Spore suspensions of each pathogen alone (10⁶ spores mL^-1) or a mixture of the four pathogens (1:1:1:1, v/v, 2.5×10⁵ spores mL^-1 of each pathogen, total 10⁶ spores mL^-1) were tested on four- to six-leaf stage seedlings of the three weed species grown together in pots. One week after inoculation (WAI), all sicklepod and showy crotalaria seedlings were killed, and all pigweed seedlings were killed by 6 WAI when inoculated with their respective pathogen(s) alone or a mixture of the pathogens. None of the weeds inoculated with the root-infecting pathogen F. udum developed wilt disease by the time the experiment was completed (6WAI). The results demonstrate the feasibility to control three weeds simultaneously with different fungi without loss of efficacy or alterations in host-specificity of each fungus in the given mixture. Scanning electron microscopy showed visual differences in the appearance or germination and further development of conidia of each pathogen on its respective host leaf surface compared to nonhost leaf surfaces, whether the pathogen was applied alone or in a mixture with the other pathogens studied. Application of several host-specific fungal pathogens in a bioherbicide mixture as a multi-component bioherbicide system may be advantageous for further development of simultaneous, broad-spectrum weed control.     

Interaction between Paranosema locustae and Metarhizium anisopliae var. acridum, two pathogens of the desert locust, Schistocerca gregaria under laboratory conditions

The interaction between two pathogens, the microsporidian Paranosema locustae Canning and the fungus Metarhizium anisopliae var. acridum Driver and Milner was studied under laboratory conditions in an attempt to develop an improved method of microbial control for the desert locust, Schistocerca gregaria Forsk?l. Fifth-instar locust nymphs, reared in the laboratory, were treated with various concentrations of one of the two pathogens or with both pathogens. The numbers of locusts killed were recorded each day and the production of pathogen spores within the dead locusts was assessed at the end (day 21) of each experiment. Locust nymphs treated with both P. locustae and M. anisopliae died sooner than nymphs infected with only one of the pathogens. At the lower concentrations of pathogen tested, the effects of the two pathogens were additive. At the higher concentrations the combined effects were synergistic. In terms of locust mortality, there was no evidence of any antagonistic effects between the two pathogens. However, the production of spores by P. locustae was reduced considerably when the host insects were infected also with M. anisopliae. For example, nymphs treated initially with P. locustae and then treated 3 and 10 days later with M. anisopliae produced 3-20 times and 2.5-8 times fewer spores, respectively, than nymphs treated only with P. locustae. Hence, in areas where M. anisopliae is applied, the natural persistence of P. locustae in the local grasshopper and locust populations may be diminished.     

Production of the biocontrol agent Pantoea agglomerans strain CPA-2 using commercial products and by-products

The aim of this paper was to find the nitrogen and carbon sources that provide maximum biomass production of strain CPA-2 of the biocontrol agent Pantoea agglomerans and minimum cost of media, whilst maintaining biocontrol efficacy. To reduce the cost of media, commercial products and by-products were tested. P. agglomerans can be produced using a combination of nitrogen sources such as yeast extract (5 g l(-1)) and dry beer yeast (10 g l(-1)) with inexpensive carbohydrates such as sucrose (10 g l(-1)) and molasses (20 g l(-1)), respectively, maintaining the efficacy of the biocontrol agent against Penicillium digitatum and P. italicum on oranges. The results obtained in this study could be used to provide a reliable basis for a scale-up of this fermentation process to an industrial level.     

Effect of dual inoculation with nematodes and fungal pathogens on the survival of Phyllophaga polyphylla larvae (Coleoptera: Scarabaeidae)

Phyllophaga polyphylla (Coleoptera: Scarabaeidae) is an important pest of maize and other crops in Mexico. Previous reports showed that this pest was highly resistant to fungal and nematode infection when each pathogen was inoculated separately; in this study, we evaluated whether dual inoculation of fungi and nematodes, in all possible pair-wise combinations and orders of inoculation and including an evaluation of a time separation of 73 hours between each pathogen's inoculation, would increase mortality in P. polyphylla larvae. The pathogens were two isolates of Heterorhabditis bacteriophora applied at a concentration of 50 infective juveniles (IJ) mL^–1, an isolate of Beauveria pseudobassiana and of Metarhizium pingshaense both applied at a concentration of 1 × 10⁸ conidia mL^–1. In the first experiment, the combined mortality when pathogens were dual-inoculated (13%), although significantly higher than single-inoculated treatments (8%), demonstrated that antagonistic interactions were ongoing between the pathogens, as confirmed by the χ²-test. In a separate experiment, using only the B. pseudobassiana isolate (1 × 10⁸ conidia mL^–1) and one isolate of H. bacteriophora (100 IJ mL^–1), we studied the effect of different order of inoculations but included a two-week separation between inoculation of each pathogen. Mortalities obtained were similar to the previous experiment; all interactions resulted in antagonistic effects, except when the fungal pathogen was inoculated first, which resulted in an additive interaction. Understanding the mechanisms for the interaction requires further study but, for practical biological control, we suggest that more virulent fungal and nematode isolates are necessary to achieve control of P. polyphylla.     

Synergic interactions between 2-deoxy-D-glucose and Candida saitoana enhances citrus green mould control

The activity of 2-deoxy-D-gLucose (2-DG) alone or in combination with a biocontrol yeast (Candida saitoana, strain 8C) was evaluated in vitro and in vivo against citrus green mould (Penicillium digitatum Sacc.). The in vitro assays were performed on amended potato dextrose agar (PDA) containing 0, 1.5, 3.0, 6.0, 15.0, 30.0 or 60.0 mM of 2-DG. P. digitatum conidia were sown on the amended media and growth inhibition occurred starting from 6.0 mM. A nearly total inhibition of the growth and spore germination occurred with 60.0 mM of 2-DG. The antagonist was not affected by any of the 2-DG concentrations employed and the amended plates resulted well colonized within 2 d post-treatment. In vivo assays were carried out with 'Hamlin' oranges, inoculated with P. digitatum 24 h before treating with: the antagonist; the above reported concentrations of 2-DG, or by combining the two treatments. Seven days post-treatment the inhibition activity exerted by 3.0, 6.0, 15.0, 30.0 and 60.0 mM of 2-DG combined with the yeast was 15, 37, 42, 63 and 84%, respectively. While that exerted by the antagonist was 22% and that by the different concentrations of 2-DG were 7, 11, 27, 42 and 57%, respectively. Compared to single treatments, the co-application significantly and in a synergic mode improved the control of decay. Alterations to the hyphae were observed by SEM when the pathogen was cultured on amended media and into the wounds of inoculated oranges.