Integrated control of fruit rot and powdery mildew of chilli using the biocontrol agent Pseudomonas fluorescens and a chemical fungicide

A combined strategy of chilli fruit rot and powdery mildew control consisting of reduced fungicide dose and biological control with antagonistic Pseudomonas fluorescens (Pf1) was evaluated. The sensitivity of P. fluorescens to fungicide azoxystrobin at different concentrations (100, 150, 200, 250 and 300 ppm) was tested by turbidometric method. The grown bacterium (Pf1) was tolerant to all concentrations of azoxystrobin. In two field trials, Pf1 tested in combination with reduced concentration of azoxystrobin was highly efficient in management of both diseases of chilli. Biological control of Colletotrichum capsici and Leveillula taurica with P. fluorescens (Pf1) was effective but less so than fungicide alone at the standard dose. However, combination of the biological control agent with a 50% reduction of fungicide dose was as effective as the standard fungicide alone. Application of P. fluorescens along with azoxystrobin significantly increased the survival of Pf1 in the phylloplane of chilli. Further, there were ‘twofold’ increases in activities of peroxidase, polyphenol oxidase, phenylalanine ammonia-lyase, β-1,3-glucanase, chitinase and phenolics in plants treated with Pf1 plus azoxystrobin.     

Management of white mold in processing tomatoes by Trichoderma spp. and chemical fungicides applied by drip irrigation

Field trials were carried out to evaluate six treatments combining biological agents and chemical fungicides applied via chemigation against white mold (Sclerotinia sclerotiorum) on processing tomatoes. The experiment was performed in Goiânia, Brazil, with tomato hybrid Heinz 7155 in 2009 and 2010 in a field previously infested with S. sclerotiorum sclerotia. Treatments were arranged in a randomized complete block design in a 2 × 3 factorial structure (with and without Trichoderma spp. 1.0 × 10⁹ viable conidia mL⁻¹ ha⁻¹) × fluazinam (1.0 L ha⁻¹), procimidone (1.5 L ha⁻¹) and control, applied by drip irrigation. Treatments were applied three times 10 days apart, starting one month after transplanting. Each treatment consisted of plots with three 72-meter rows with four plants m⁻¹ and 1.5 m spacing between rows, with three replications. Based on disease incidence evaluated weekly, the area under the disease progress curve (AUDPC) was obtained. Yield and its components were evaluated in addition to fruit pH and °Brix. Results were subjected to ANOVA, Scott-Knott (5%), and regression analysis. Biocontrol using Trichoderma spp. via chemigation singly or in combination with synthetic fungicides fluazinam and procimidone reduced AUDPC and increased fruit yield up to 25 t ha⁻¹. The best treatment for controlling white mold also increased pulp yield around 1.0 and 7.0 t ha⁻¹ in 2009 and 2010, respectively. The present work demonstrated the advantages of white mold biological control in processing tomato crops, where drip irrigation favored Trichoderma spp. delivery close to the plants and to the inoculum source.     

Effective control of black Sigatoka disease using a microbial fungicide based on Bacillus subtilis EA-CB0015 culture

Black Sigatoka disease caused by the fungus Mycosphaerella fijiensis Morelet is the most devastating disease of bananas worldwide. Its management is reliant on protectant and systemic fungicides despite their environmental concerns. This study evaluated the effect of a microbial fungicide (MF) based on Bacillus subtilis EA-CB0015 and its metabolites for the control of black Sigatoka disease on banana plants in greenhouse and field conditions. The MF applied at 1.5 L/ha and 3.0 L/ha provided control of the disease comparable to the protectant fungicide chlorothalonil in greenhouse. In the field, the MF applied in solution with water at 0.15 L/ha and 1.5 L/ha every 11 days during 10 weeks reduced black Sigatoka disease severity in 20.2% and 28.1% respectively; reductions comparable to those obtained with the protectant fungicides chlorothalonil (1.5 L/ha) and mancozeb (3.8 L/ha). The MF incorporated into different programs with systemic fungicides reduced disease level up to 42.9% with no significant differences with the conventional program. To determine which component of the MF is responsible for the activity against M. fijiensis, greenhouse and in vitro tests were set up to evaluate individually the spores, vegetative cells and secondary metabolites of B. subtilis EA-CB0015. All components reduced the severity of the disease and the germination of ascospores. For both trials the activity of the metabolites was higher and comparable to the activity obtained with the MF, indicating that the efficacy of the MF depends mainly on the metabolites and in lesser extent to B. subtilis EA-CB0015 cells.     

Concentration and cultivar effects on efficacy of CLO-1 biofungicide in controlling Fusarium head blight of wheat

Fusarium head blight (FHB) is a destructive disease of wheat in Canada and Clonostachys rosea strain ACM941 has been identified as a promising biological control agent for managing FHB. In the present research the concentration and cultivar effects on the efficacy of CLO-1, a formulated product of C. rosea strain ACM941, in controlling FHB and deoxynivalenol (DON) contamination in wheat was studied. Of the eight concentrations ranging from 10⁴ to 10⁸ cfu mL⁻¹ evaluated, significant effects were generally observed for concentrations at or above 10⁶ cfu mL⁻¹ in the greenhouse and field trials in 2009 and 2010. In the greenhouse, CLO-1 reduced the area under the disease progress curve (AUDPC) by 65–83%, Fusarium damaged kernels (FDK) by 68–92%, and DON by 51–95%. Under field conditions, CLO-1 reduced FHB index by 30–46%, FDK by 31–39%, and DON by 22–33%. These effects were numerically lower but not significantly different from those of the registered fungicide Folicur® (tebuconazole) used in these trials. When applied onto wheat cultivars differing in resistance to FHB in field trials in 2009 and 2010, CLO-1 was most effective on the moderately resistant cultivar AC Nass (representing the highest level of resistance commercially available) and least effective on the highly susceptible cultivar AC Foremost. Results of this study suggest that CLO-1 is a promising biocontrol product that may be used in combination with cultivar resistance for managing FHB in wheat.     

Cytotoxic,antimicrobial activities,AChE and BChE inhibitory effects of compounds from Tanacetum chiliophyllum (Fisch. & Mey.) Schultz Bip. var. oligocephalum (D.C.) Sosn. and T. chiliophyllum (Fisch. & Mey.) Schultz Bip. var. monocephalum Grierson

Tanacetum L. species traditionally used for insecticidal purposes as well as in folk medicine for their antitumor, antimicrobial, antifungal activities. In our previous study a novel sesquiterpene lactone and triterpene lactone together with 12 known flavonoids, coumarin and a triterpene were isolated from T. chiliophyllum var. oligocephalum and T. chiliophyllum var. monocephalum extracts which have insecticidal and antimicrobial activity. In this study, cytotoxic, antimicrobial activities and acetylcholinesterase (AChE), butyrylcholinesterase (BChE) inhibitory effects of pure compounds isolated from these plants were investigated. The tested compounds showed AChE and BChE inhibition which ranged between 7.20–80.37% and 9.19%–76.99% respectively. The highest AChE and BChE inhibition was observed for ulubelenolide which afforded 80.37% and 76.99% inhibition respectively. The cytotoxic effect of the compounds ranged between 22.34–49.77 μg/mL IC₅₀ values. Highest cytotoxic activity was observed against MCF-7 and HEK 293 cell line by 5–hydroxy-3′,4′,7-trimethoxy flavone and 5-hydroxy-3′,4′,6,7-tetramethoxyflavone that produced 25.80 ± 0.17 and 22.34 ± 0.70 IC₅₀ values respectively. Compounds eupatilin, cirsilineol, 5–hydroxy-3′,4′,7-trimethoxy flavone and ulubelenolide showed significant antimicrobial effect on C. albicans with 7.8 μg/mL MIC. The new compound ulubelenolide afforded high AChE and BChE inhibition as well as high antifungal activity. In our opinion activity of this substance should be evaluated further against other fungal species.     

Achievement of therapeutic targets in Mexican patients with diabetes mellitus

Background and aimComplications of diabetes comprise the leading cause of death in Mexico. We aimed to describe the characteristics of management and achievement of therapeutic targets in Mexican patients with diabetes mellitus.MethodsWe analyzed data from 2642 Mexican patients with type 1 (T1D, n = 203, 7.7%) and type 2 diabetes (T2D, n = 2439, 92.3%) included in the third wave of the International Diabetes Management Practices Study.ResultsOf T2D patients, 63% were on oral glucose-lowering drugs (OGLD) exclusively (mostly metformin), 11% on insulin, 22% on OGLD plus insulin, and 4% on diet and exercise exclusively. T2D patients on insulin were more likely to be trained on diabetes, but they were older, had worse control, longer disease duration and more chronic complications than patients on OGLD only. Glycated hemoglobin (HbA1c) < 7% was achieved by 21% and 37% of T1D and T2D patients, respectively. Only 5% of T1D and 3% of T2D attained the composite target of HbA1c < 7%, blood pressure < 130/80 mmHg and low-density lipoprotein cholesterol < 100 mg/dl. T1D patients had less macrovascular but more microvascular complications, compared with T2D patients. Late complications increased with disease duration, so that about 80% of patients after 20 years of diagnosis have at least one late complication. Reaching the target HbA1c < 7% was associated with a reduced number of microvascular but not with less macrovascular complications.ConclusionA great proportion of these Mexican patients with diabetes did not reach therapeutic targets. Insulin was used mostly in complicated cases with advanced disease.     

Effect of preharvest spraying Cryptococcus laurentii on postharvest decay and quality of strawberry

Application of a suspension (log 8.0/ml) of Cryptococcus laurentii prior to harvest led to a reduction in Botrytis cinerea decay of strawberries stored at 4 or 20 °C, for 12 or 4 days, respectively. The frequency of spraying antagonist significantly influenced disease incidence in strawberry fruit. The best inhibition of disease was achieved when fruit sprayed C. laurentii with three applications that began 6 days prior to harvest, and the incidence of gray mold and natural decay treated with this method was 21% and 11%, compared with 88% and 62% in the control after storage at 20 °C for 4 days. A similar result occurred in the treated fruit after storage at 4 °C for 12 days. Dilation plate counts on Rose Bengal agar and scanning electron microscopy results showed that three applications with C. laurentii at 6, 3 and 0 days before harvest improved its ability to colonize the epidermis of strawberry fruit in the greenhouse and during storage compared to single application. In addition, antagonistic yeast spraying before harvest could reduce the weight loss, delay the decrease of the firmness and ascorbic acid, but had no significant effect on the contents of soluble solids, titratable acidity and fruit surface color. These results suggested that preharvest spraying with C. laurentii might be a promising alternative to fungicide application for decay control of strawberry.     

Effect of entomopathogens on Africanized Apis mellifera L. (Hymenoptera: Apidae)

This study aimed to evaluate the effect of commercially used entomopathogens on Africanized Apis mellifera L. (Hymenoptera: Apidae). Four bioassays were performed: 1) pulverized entomopathogens on A. mellifera; 2) entomopathogens sprayed on a smooth surface; 3) entomopathogens sprayed on soy leaves; and 4) entomopathogens mixed with candy paste (sugar syrup). Five treatments were prepared: sterile distilled water (control), distilled water sterilized with Tween^® 80 (0.01%), and the commercial entomopathogens Metarhizium anisopliae E9 (1.0 × 10⁹ conidia mL^?1), Beauveria bassiana PL63 (1.0 × 10⁸ conidia mL^?1) and Bacillus thuringiensis var. kurstaki HD-1 (3.0 × 10⁸ spores mL^?1). Each treatment consisted of five repetitions, with 20 workers per repetition, which were stored in a plastic box and, later, in a biological oxygen demand (B.O.D.) incubator (27 ± 2 °C, RH of 60% ± 10%, 12-h photophase). The mortality of the workers was evaluated from 1 h to 240 h, and the data were analyzed using Bayesian inference. The workers killed by the ingestion of candy paste contaminated with the pathogens (products) were randomly separated and selected for the removal of the midgut. Each midgut was fixed in Bouin's solution and prepared for histology. B. bassiana was verified to reduce the survival of A. mellifera workers in all bioassays. Moreover, M. anisopliae reduced the survival of A. mellifera workers directly sprayed, on a smooth surface and mixed with candy. B. thuringiensis reduced A. mellifera survival on a smooth surface and mixed with candy paste. However, its effects were lower than that observed by B. bassiana. The treatments with the biological products did not induce morphometric alterations in the midgut of A. mellifera.     

Design,synthesis and antifungal activity of novel fenfuram-diarylamine hybrids

Ten novel fenfuram-diarylamine hybrids were designed and synthesized. And their antifungal activities against four phytopathogenic fungi have been evaluated in vitro and most of the compounds demonstrated a significant antifungal activities against Rhizoctonia solani and Sclerotinia sclerotiorum. Compound 5e exhibited the most potent antifungal activity against R. solani with an EC₅₀ value of 0.037 mg/L, far superior to the commercially available fungicide boscalid (EC₅₀ = 1.71 mg/L) and lead fungicide fenfuram (EC₅₀ = 6.18 mg/L). Furthermore, scanning electron microscopy images showed that the mycelia on treated media grew abnormally with tenuous, wizened and overlapping colonies compared to the negative control. Molecular docking studies revealed that compound 5e featured a higher affinity for succinate dehydrogenase (SDH) than fenfuram. Furthermore, it was shown that the 3-chlorophenyl group in compound 5e formed a CH-π interaction with B/Trp-206 and a Cl-π interaction with D/Tyr-128, rendering compound 5e more active than fenfuram against SDH.     

Biotransformation of isoimperatorin and imperatorin by Glomerella cingulata and β-secretase inhibitory activity

Biotransformation studies conducted on the furanocoumarins isoimperatorin (1) and imperatorin (3) have revealed that 1 was metabolized by Glomerella cingulata to give the corresponding reduced acid, 6,7-furano-5-prenyloxy hydrocoumaric acid (2), and 3 was transformed by G. cingulata to give the dealkylated metabolite, xanthotoxol (4) in high yields (83% and 81%), respectively. The structures of the new compound 2 have been established on the basis of spectral data. The metabolites 2 and 4 were tested for the β-secretase (BACE1) inhibitory activity in vitro, and metabolite 2 slightly inhibited the β-secretase activity with an IC₅₀ value of 185.6 ± 6.8 μM. The metabolite 4 was less potent activity than compounds 1–3. In addition, methyl ester (2Me), methyl ether (2a) and methyl ester and ether (2aMe) of 2 were synthesized, and investigated for the ability to inhibit β-secretase. Compound 2aMe exhibited the best β-secretase inhibitory activity at the IC₅₀ value 16.2 ± 1.2 μM and found to be the 2aMe showed competitive mode of inhibition against β-secretase with K_i value 11.3 ± 2.8 μM.     

Genetic structure of Pseudo-nitzschia pungens (Bacillariophyceae) populations: Implications of a global diversification of the diatom

Pseudo-nitzschia pungens is a planktonic marine diatom known to be widespread in tropical and temperate coastal waters. We examined the population genetic structure of tropical Southeast Asian populations of P. pungens and compared it with those of northern and southern temperate populations. The secondary structures of the nuclear encoded internal transcribed spacer (ITS) region of 164 strains of P. pungens were modeled and analyzed. The tree revealed three ITS entities: clade I (comprised of P. pungens var. pungens) was distributed mainly in northern temperate waters; clade II (comprised of both P. pungens var. pungens and var. cingulata) was mainly from the NE Pacific; and clade III (comprised of both P. pungens var. pungens and var. aveirensis) was restricted to tropical and warm-temperate waters. Hybrids of both P. pungens var. pungens and var. cingulata co-occurred in clades I and II. Sixty haplotypes were revealed from the sequences of 164 strains. Haplotype diversity inferred from the median-joining network was in accordance with phylogenetic analysis, further supporting the grouping of the P. pungens haplogroups. Our results revealed limited gene flow between P. pungens from tropical and temperate waters, and significant population structure, as estimated by an analysis of molecular variance (AMOVA), with 75% of the total ITS variation found among populations (Ф_ST = 0.75). This study suggests that distinct environmental clines, such as ocean thermohaline circulation, have a potential for fragmenting and dispersing global populations of P. pungens. Formation of the Isthmus of Panama, in particular, is speculated to play a role in this allopatric differentiation in P. pungens populations worldwide.     

A new semi-selective medium for Fusarium graminearum,F. proliferatum,F. subglutinans and F. verticillioides in maize seed

Zea mays L., known also as corn and maize, is the most important crop according to the amount of tonnes produced each year. Fungi cause significant destruction of maize in the field as well as during storage rendering the grain unsuitable for human consumption by decreasing its nutritional value and by producing mycotoxins that are detrimental to both human and animal health. Fusarium species are widely distributed and are amongst the most frequently isolated fungal species by plant pathologists. Due to the fact that the Fusarium species involved in maize ear rot vary in fungicide sensitivity, pathogenicity as well as in their capability to produce mycotoxins, accurate quantification and identification is of paramount significance. Currently no method has been developed to test for Fusarium species in maize seed that has been validated and published by the International Seed Testing Association (ISTA). Malachite green agar 2.5 ppm (MGA 2.5) is a potent selective medium for isolation and enumeration of Fusarium spp. In this study, eight different media compositions, potato dextrose agar (PDA), PDA + malachite green oxalate, corn meal agar, 1/2 PDA + malachite green oxalate, 1% malt agar, carnation leaf agar supplemented with potassium chloride (KCLA), malachite green agar (MGA 2.5) and MGA 2.5 + sterile carnation leaf pieces were compared using four Fusarium species (F. graminearum, F. proliferatum, F. subglutinans and F. verticillioides) and five commonly encountered saprophytic fungi (Aspergillus niger, Penicillium crustosum, P. digitatum, Trichoderma harzianum and Rhizopus stolonifer). The maize kernels were surface disinfected using three concentrations of sodium hypochlorite (0.5%, 1% and 1.5% NaOCl) and for different time intervals (1 min, 3 min, 5 min and 10 min). The effect of black-blue light (365 nm) on sporulation of the fungi was also investigated. Surface disinfection of maize seeds with 1% NaOCl for 5 min provided consistent results. PDA, 1/2 PDA, 1% malt agar and KCLA allowed profuse growth of the Fusarium species as well as saprophytes. Media that contained malachite green oxalate was most inhibitory to the radial colony growth of the saprophytes and the Fusarium species. The Fusarium species growing on these media formed underdeveloped morphological structures, thereby obscuring accurate identification. MGA 2.5 showed better hindering of the saprophytes in some instances. MGA 2.5 amended with sterile carnation leaf pieces was the most satisfactory medium in hindering the growth of the saprophytes while allowing adequate sporulation by the four Fusarium species to permit accurate identification. The media also resulted in higher F. verticillioides and lower saprophytic fungal isolation frequency when compared to the other media tested.     

Multi-organ toxicological impact of fungicide propiconazole on biochemical and histological profile of freshwater fish Channa punctata Bloch

Fungicides are a pesticide that particularly kills or destroy fungi responsible for several diseases associated to humans and other living organisms. Assessment of toxic effects and mechanisms of fungicide action is important because humans and domesticated animals get exposed to these pesticides through a wide variety of applications. Several fungicides are being used at the large scale for the crop protection from the fungal invasion. Propiconazole (PCZ), a trazole-containing fungicide, is widely used in China and various Asian countries for food crop protection which made it easily to exposed to the aquatic system. Long term usage of PCZ may contaminate the water bodies, but its toxicity to aquatic organisms is not well studied. In this study, freshwater fish, Channa punctata Bloch was exposed to different sub-lethal concentrations of the fungicide, PCZ (0.5 and 5 ppm) for a period of 96 h. Various biochemical assays and histological alterations were measured to determine the organ toxicity caused by PCZ exposure particularly in liver, kidney and gills of the fishes. Compared to the control group, fish exposed to PCZ (96 h) showed marked dose dependent toxicity. The levels of lipid peroxidation (LPO) and protein carbonyls (PC), oxidative stress biomarker of liver, kidney and gills in the experimental group were significantly higher (P < 0.05 and P < 0.001) compared to the control group. Levels of reduced glutathione (GSH) and non-protein thiols (NP-SH) decreased significantly (P <0.05–0.001) in all analyzed intoxicated organs of the PCZ exposed fishes. Activity of glutathione-S-transferase (GST), glutathione peroxidase (GPx) and catalase (CAT) in fungicide treated groups was significantly lowered (P < 0.05–0.001). In addition, histopathological examination in the organs showed significant changes like atrophy of primary and secondary gill lamellae, infiltrations, inflammation, hepatocyte degeneration, vacuolization and necrotic kidney. Thus, PCZ exposure altered the oxidative stress homeostasis and brought about histopathological changes which may serve as potential biomarkers of the PCZ toxicity in the laboratory set-up for potential risk assessment.     

Impact of nutrients and herbivory by Eccritotarsus catarinensis on the biological control of water hyacinth,Eichhornia crassipes

Many water hyacinth infestations in South Africa are the symptom of eutrophication, and as a result, biological control of this weed is variable. This study examined the effects of herbivory by the mirid, Eccritotarsus catarinensis, on water hyacinth grown at high, medium and low nitrogen (N) and phosphorus (P) nutrient concentrations. Water nutrient concentration appears to be the overriding factor affecting plant growth parameters of water hyacinth plants—at high nutrient concentrations, leaf and daughter plant production were more than double than at low nutrient concentrations, while stem length was twice as great at high nutrient concentrations compared to low concentrations. Chlorophyll content was also twice as high at high nutrient concentrations than low concentrations. Conversely, flower production at high nutrient concentrations was less than half that at low concentrations. Herbivory by E. catarinensis did not have as great an effect on water hyacinth vigour as nutrient concentration did, although it significantly reduced the production of daughter plants by 23 ± 9%, the length of the second petiole by 13 ± 5%, and chlorophyll content of water hyacinth leaves by 15 ± 6%. In terms of insect numbers, mirids performed better on plants grown under medium nutrient conditions (99 ± 28 S.E.), compared to high nutrient concentrations (52 ± 27 S.E.), and low nutrient concentrations (25 ± 30 S.E.). Thus, these results suggest that the fastest and most significant reduction in water hyacinth proliferation would be reached by lowering the water nutrient concentrations, and herbivory by E. catarinensis alone is not sufficient to reduce all aspects of water hyacinth vigour, especially at very high nutrient concentrations.     

Antibiofilm activity and post antifungal effect of lemongrass oil on clinical Candida dubliniensis isolate

Candidal infections are often difficult to eradicate due to the resistance of biofilms to antifungal agents. This study aimed at determining the effects of lemongrass (Cymbopogon citratus DC) oil against Candida dubliniensis in both planktonic and biofilms form. The results from broth microdilution method revealed that the minimum inhibitory and minimum fungicidal concentration of lemongrass oil on C. dubliniensis were 0.43 and 0.86 mg/ml, respectively. Employing a formazan salt (XTT tetrazolium) reduction assay for biofilm study, the results showed that the average percentage (mean ± SD) inhibition of lemongrass oil (0.43 mg/ml) on biofilm formation was 91.57 ± 1.31%, while it exhibited more than 80% killing activity against C. dubliniensis in biofilm at concentrations of 1.7 mg/ml. In addition, a significant reduction (P = 0.03) of candidal adhesion to acrylic occurred after a 15 min exposure to 1.7 mg/ml of lemongrass oil. Moreover, limited exposure of yeasts to lemongrass oil at subcidal concentration can suppress growth for more than 24 h. Altogether, the results obtained indicate that lemongrass oil possessed antifungal and antibiofilm activities and could modulate candidal colonization. Therefore, the efficacy of lemongrass oil merits further development of this agent for the therapy of oral candidiasis.     

The importance of an exponential prostate-specific antigen decline after external beam radiotherapy for intermediate risk prostate cancer

Background: To study the influence of an exponential prostate-specific antigen (PSA) decline on biochemical failure after external-beam radiotherapy (EBRT). Methods: We analyzed 114 patients with intermediate risk prostate cancer (Gleason ≤ 6 and PSA 10–20 or Gleason 7 and PSA <10). Patients were randomized between EBRT doses of either 70.2 Gy or 79.2 Gy (1.8 Gy per day). All patients had a follow up of at least six PSA measurements post-EBRT. Exponential decline and PSA half life were included in a Cox regression analysis for factors associated with biochemical failure. Results: A total of 80/114 (70.2%) patterns were classified as having an exponential PSA decline. Both exponential decline (HR 0.115, 95%CI 0.03–0.44, p = 0.0016) and PSA half life ratio were statistically significant predictors (HR 1.03 (95% CI 1.01–1.06)) of biochemical failure. In the model predicting for exponential decline, none of the factors were significant. Conclusion: Patients with an exponential PSA decline show a better biochemical outcome in the long term.     

Antibiotic resistance profiling and phenotyping of Aeromonas species isolated from aquatic sources

This study aimed to investigate antibiotics resistance pattern and phenotyping of Aeromonas species isolated from different aquatic sources in Melaka, Malaysia. A total of 53 Aeromonas species were isolated from the following sources: sediment (n = 13), bivalve (n = 10), sea cucumber (n = 16) and sea water (n = 14) and resistance to 12 antibiotics – Tetracycline (30 μg), Kanamycin (30 μg), Oxytetracycline (30 μg), Ampicillin (10 μg), Streptomycin (10 μg), Gentamicin (10 μg), Sulphamethoxazole (25 μg), Nalixidic acid (30 μg), Trimethoprim (1.25 μg), Novobiocin (5 μg), Penicilin (10 μg) and Chloramphenicol (10 μg) was tested. The results obtained from this study reveal multi drug resistance pattern among the isolates. All the isolates were completely resistant to Ampicillin, Novobiocin, Sulphamethoxazole and Trimethoprim, respectively but susceptible to Tetracycline (100%), Kanamycin (5.7%), Gentamicin (5.7%) and Oxytetracycline (24.5%). Antibiotics phenotyping of the bacteria revealed 21 different phenotypes among the isolates.     

Winter foraging habitat selection of brown-eared pheasant (Crossoptilon mantchuricum) and the common pheasant (Phasianus colchicus) in Huanglong Mountains, Shaanxi Province

The foraging habitat selections of brown-eared pheasant (Crossoptilon mantchuricum) and the common pheasant (Phasianus colchicus) were studied in Huanglongshan Nature Reserve Shaanxi, China. Foraging habitat characteristics were measured on the basis of expected differences between species at 183 sites from November to December 2006 and January 2007. The results showed that both species selected foraging habitats with altitude (<1200 m), conifer forest, half sunny and half shady slope, sunny slope, density of trees (<5 individuals/100 m²), cover of shrub (>50%), visibility class (<10%) and distance to water source (<300 m). However, the brown-eared pheasant selected habitats with cover of trees (30–50%), middle or lower slope location, distance to edge of woods (<300 m) and human disturbance (<500 m), and the selection on density of shrub was not observed, compared to the selections on cover of trees (<30%), lower slope location, distance to edge of woods (<500 m) and human disturbance (<300 m), and density of shrub (>500 individuals/100 m²) for common pheasant. We also found that the common pheasant avoid predators by concealment whereas brown-eared pheasant evade predations by running away strategy.     

Evaluation of Pseudomonas syringae strain ESC-11 for biocontrol of crown rot and anthracnose of banana

Pseudomonas syringae strain ESC-11 and 250 μg/ml each of thiabendazole (TBZ) and imazalil reduced crown rot of banana caused by Fusarium aff. sacchari by 30–36% and 83–86%, respectively, in laboratory experiments. Four field trials performed in Costa Rica varied in treatment combinations. In field trials 1 and 2, 125 and 250 μg/ml each of TBZ and imazalil + 0.5% or 1% alum (aluminum ammonium sulfate) and ESC-11, and 250 μg/ml each of TBZ and imazalil + 1% alum reduced rot and mold. ESC-11 alone or with 0.5% alum significantly reduced rot and mold in field trial 2. In trial 3, 50 and 100 μg/ml of TBZ alone and with ESC-11 reduced mold. In trial 4, 125 μg/ml each of TBZ and imazalil and ESC-11, and 300 μg/ml each of TBZ and imazalil reduced rot, and 50 and 125 μg/ml each of TBZ and imazalil and ESC-11, and 300 μg/ml each of TBZ and imazalil reduced mold. In three field trials, there was no significant difference among treatments for latex staining. In field trial 2 only, combinations of TBZ, imazalil, and alum with or without ESC-11, reduced anthracnose, caused by Colletotrichum musae. The complex of crown rot fungi, order of treatment application, effect of alum and fungicides on ESC-11, concentration of ESC-11, and level of disease may contribute to the variation in crown rot and anthracnose control by ESC-11. Though ESC-11 alone was not effective in reducing disease, further testing in combination with low rates of fungicide should be done.     

Formulation of Pseudomonas chlororaphis strains for improved shelf life

Formulations of Pseudomonas strains with long-term shelf life are needed for commercial use in biological disease control and growth promotion in crops. In the present work Pseudomonas chlororaphis (Pc) 63-28 formulated with coconut fiber [moisture content (MC) of 80%], talc (MC 8%) or peat (MC 40%), with or without the addition of carboxymethylcellulose or xanthan gum, and formulations of Pc 63-28 and P. chlororaphis TX-1 in coconut fiber with water contents (v:v) of 75%, 45%, and 25%, were evaluated in terms of shelf life and cell viability. The shelf life of Pc 63-28 was longer when formulated in coconut fibre with a MC was 80% than in the other formulations and longer at 3 ± 1 °C compared to 22 ± 1 °C. Densities of viable Pc 63-28 cells in coconut fiber stored at 3 ± 1 °C did not decline significantly during 224 days when the MC was 80% and within 120 days at 75% MC. Densities of Pc TX-1 in coconut fiber of 75% MC did not decline within 60 days at 3 ± 1 °C. P. chlororaphis 63-28 survived longer in deionized water and buffer than in canola oil. Cells of Pc 63-28 cells formulated in coconut fibre of 80% MC after storage for 140 days at 3 ± 1 °C in coconut fiber improved hydroponic growth of hydroponic lettuce and better than cells freshly recovered from culture. We conclude that coconut fiber is a carrier of superior performance in maintaining shelf life of Pseudomonas strains. The observed shelf life would be sufficient for practical use of Pseudomonas strains as tools for disease control and growth promotion in crops.