19,363 results on '"biocontrol"'
Search Results
2. Biocontrol in built environments to reduce pathogen exposure and infection risk.
- Author
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Gottel, Neil, Hill, Megan, Neal, Maxwell, Zengler, Karsten, Gilbert, Jack, and Allard, Sarah
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AMR ,antibiotic resistance ,bacillus ,biocontrol ,built environment ,indoor microbiome ,metabolic modelling ,probiotic cleaning ,Humans ,Microbiota ,Bacteria ,Bacillus ,Anti-Bacterial Agents ,Built Environment - Abstract
The microbiome of the built environment comprises bacterial, archaeal, fungal, and viral communities associated with human-made structures. Even though most of these microbes are benign, antibiotic-resistant pathogens can colonize and emerge indoors, creating infection risk through surface transmission or inhalation. Several studies have catalogued the microbial composition and ecology in different built environment types. These have informed in vitro studies that seek to replicate the physicochemical features that promote pathogenic survival and transmission, ultimately facilitating the development and validation of intervention techniques used to reduce pathogen accumulation. Such interventions include using Bacillus-based cleaning products on surfaces or integrating bacilli into printable materials. Though this work is in its infancy, early research suggests the potential to use microbial biocontrol to reduce hospital- and home-acquired multidrug-resistant infections. Although these techniques hold promise, there is an urgent need to better understand the microbial ecology of built environments and to determine how these biocontrol solutions alter species interactions. This review covers our current understanding of microbial ecology of the built environment and proposes strategies to translate that knowledge into effective biocontrol of antibiotic-resistant pathogens.
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- 2024
3. Targeting sex determination to suppress mosquito populations
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Li, Ming, Kandul, Nikolay P, Sun, Ruichen, Yang, Ting, Benetta, Elena D, Brogan, Daniel J, Antoshechkin, Igor, C, Héctor M Sánchez, Zhan, Yinpeng, DeBeaubien, Nicolas A, Loh, YuMin M, Su, Matthew P, Montell, Craig, Marshall, John M, and Akbari, Omar S
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Biological Sciences ,Infectious Diseases ,Emerging Infectious Diseases ,Rare Diseases ,Biodefense ,Prevention ,Vector-Borne Diseases ,3.2 Interventions to alter physical and biological environmental risks ,Infection ,Good Health and Well Being ,Humans ,Male ,Animals ,Mosquito Vectors ,Aedes ,Disease Vectors ,Infertility ,Male ,Species Specificity ,Zika Virus ,Zika Virus Infection ,pgSIT ,SIT ,genetics ,biocontrol ,None ,genomics ,none ,Biochemistry and Cell Biology ,Biological sciences ,Biomedical and clinical sciences ,Health sciences - Abstract
Each year, hundreds of millions of people are infected with arboviruses such as dengue, yellow fever, chikungunya, and Zika, which are all primarily spread by the notorious mosquito Aedes aegypti. Traditional control measures have proven insufficient, necessitating innovations. In response, here we generate a next-generation CRISPR-based precision-guided sterile insect technique (pgSIT) for Ae. aegypti that disrupts genes essential for sex determination and fertility, producing predominantly sterile males that can be deployed at any life stage. Using mathematical models and empirical testing, we demonstrate that released pgSIT males can effectively compete with, suppress, and eliminate caged mosquito populations. This versatile species-specific platform has the potential for field deployment to effectively control wild populations of disease vectors.
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- 2024
4. Native Parasitoids Recruitment as Potential Controllers of Dryocosmus kuriphilus (Hymenoptera; Cynipidae) in Recently Colonised Areas.
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Vinagrero‐Conde, Juan Carlos, Muñoz‐Adalia, E. Jordán, Pujade‐Villar, Juli, and Fernández‐Fernández, M. Mercedes
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GALL wasps , *CHALCID wasps , *CHESTNUT , *FOOD chains , *HYMENOPTERA - Abstract
ABSTRACT In this work, we investigate the native parasitoid community colonising galls by an invasive pest: the oriental chestnut gall wasp (OCGW), Dryocosmus kuriphilus (Hymenoptera; Cynipidae). We tried to understand how native parasitoids react after the arrival of the pest (two‐year sampling period) in the province of Zamora (Castilla & León region, N‐W Spain). For this purpose, we collected both, chestnut galls from six stands and oak galls from surrounding oak groves. Our results highlight the response to D. kuriphilus provided by the oak gall wasps that naturally inhabit Quercus pyrenaica. The parasitoid community showed a core assemblage composed of Eurytoma brunniventris, Torymus flavipes and T. sinensis in OCGW galls, and Baryscapus diaphantus, Bootanomyia dorsalis, Eupelmus urozonus, E. brunniventris, Mesopolobus lichtensteini, T. affinis, and T. flavipes in oak galls. We identified the torymid T. flavipes as one of the most common parasitoids of OCGW, in addition to the exotic parasitoid T. sinensis, never officially released in the region but present in the study area. In addition, we intend to know its possible incidence on non‐target cynipids. We have found an intense connection in the food web with some chalcids that establish interactions with the gall wasp, both in adult instar (emerging from reared galls) and larval (presence of larvae in OCGW gall chambers, identified by dissection). We also describe the flight phenology of D. kuriphilus in our study area (as far as we know, the first one focused in Castilla & León region) and evaluate the overlap between OCGW and native and exotic parasitoids showing a promising role of native guild as biocontrollers. [ABSTRACT FROM AUTHOR]
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- 2024
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5. Comprehensive genomic analysis of Brevibacillus brevis BF19 reveals its biocontrol potential against bitter gourd wilt.
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Song, Luyang, Shen, Yue, Zhang, Huihao, Zhang, Han, Zhang, Yuanyuan, Wang, Mengjiao, Zhang, Mingyue, Wang, Fei, Zhou, Lin, Wen, Caiyi, and Zhao, Ying
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WHOLE genome sequencing , *MOMORDICA charantia , *GENOMICS , *POLYKETIDE synthases , *FUSARIUM oxysporum , *LIQUID chromatography-mass spectrometry - Abstract
Bitter gourd wilt, a severe vascular disease triggered by the soilborne pathogen Fusarium oxysporum f. sp. momordicae (FOM), markedly constrains bitter gourd yield. In this study, a novel strain BF19 of Brevibacillus brevis was isolated and identified, exhibiting strong antimicrobial activity against FOM through in vivo and in vitro experiments. To comprehensively assess the biocontrol potential of strain BF19, we conducted phenotypic, phylogenetic, and comparative genomics analyses. Phenotypic analysis revealed that BF19 exhibited 53.33% biocontrol efficacy and significantly increased the average plant height, root fresh weight, and dry weight. Whole-genome sequencing and comparative genomic analysis revealed numerous potential genes associated with biocontrol mechanisms in BF19. Importantly, the integration of metabolic cluster prediction with liquid chromatography‒tandem mass spectrometry (LC‒MS/MS) revealed the presence of a macrobrevin antibiotic, a product of polyketide synthases (PKSs), predominantly in BF19 fermentation products. The effectiveness of the Br. brevis strain BF19 and its crude extract against bitter gourd wilt has also been confirmed. This study provides a genetic framework for future investigations on PKSs and establishes a scientific basis for optimizing field applications of microbial biopesticides derived from Br. brevis BF19. [ABSTRACT FROM AUTHOR]
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- 2024
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6. Effect of individual quick freezing treatment and cold storage on the host egg (Lepidoptera: Saturniidae) quality for the production of the parasitoid Anastatus japonicus Ashmead (Hymenoptera: Eupelmidae).
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Wu, Yi-Hui, Lee, Shih-Yang, Chuang, Yi-Yuan, Tzeng, Hsy-Yu, Lai, Jui-Sheng, and Chou, Ming-Yi
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STINKBUGS , *MASS production , *COLD storage , *BROOD parasitism , *INSECT eggs ,HOSTS of parasitoids - Abstract
Background: The augmentative release of the parasitoid species Anastatus japonicus Ashmead (Hymenoptera: Eupelmidae) is essential for managing the recent invasion of litchi stink bugs (Tessaratoma papillosa (Drury)) (Hemiptera: Tessaratomidae) in Taiwan. The mass release program in the spring targets this univoltine pest's reproduction cycle. Low-temperature storage for the host eggs and parasitoids is required to maximize the production for the annual release program. This study aimed to enhance the shelf life of Samia cynthia (Lepidoptera: Saturniidae) eggs using the combination of refrigeration and individual quick freezing (IQF) as a storage treatment. Storage of A. japonicus in the IQF-treated S. cynthia eggs was evaluated to determine the optimal production process during the short preparation window before the release. Results: The influences of cold storage and IQF treatment on the host eggs were evaluated for different storage durations. The host quality was determined according to the emergence rate and female ratio of A. japonicus. The study's results demonstrated that the host quality of S. cynthia eggs did not change significantly compared to the control group after 28 d of refrigeration at 7 °C. IQF treatment extended S. cyathia's shelf life to 5 months without significantly affecting the host quality. Applying IQF at different developmental stages of the host eggs affected the parasitism rates of A. japonicus. Significantly higher emergence rates of A. japonicus were recorded in the eggs treated during the initial development (D0 to D2). However, storing parasitoids in the IQF-treated eggs under the current storage condition for one month at 12 °C significantly impacted the parasitoid's emergence rate. Conclusions: The results of this study highlight the potential benefits of the individual quick freezing technique. This technique didn't alter the egg quality of S. cynthia, a crucial factor for the mass production of A. japonicus. The IQF treatment extends the shelf life of the host eggs to 5 months when stored at − 20 °C, a significant improvement compared to the 4-week shelf life without IQF treatment. This technology offers a promising and efficient approach for the mass production of A. japonicus and supports field releases. The treatment allowed for the stockpiling of host eggs during the off-season, which can help expedite the mass production of A. japonicus to fit an eight-week production window. [ABSTRACT FROM AUTHOR]
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- 2024
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7. Isolation, characterization, and application of a novel Pseudomonas fluorescens phage vB_PF_Y1-MI in contaminated milk.
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Xuan, Guanhua, Liu, Xianjun, Wang, Yinfeng, Lin, Hong, Jiang, Xiuping, and Wang, Jingxue
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BIOLOGICAL pest control agents , *BACTERIOPHAGE typing , *PSEUDOPOTENTIAL method , *BACTERIOPHAGES , *LYSOGENY , *PSEUDOMONAS fluorescens - Abstract
The food industry has incurred substantial losses from contamination by Pseudomonas fluorescens, emphasizing the critical importance of implementing effective control strategies. Phages are potential sterilizers due to their specific killing abilities and the difficulty bacteria face in developing resistance. However, a significant barrier to their development is the lack of diversity among phage types. In this study, we characterized a novel lytic P. fluorescens phage, named vB_PF_Y1-MI. Phage vB_PF_Y1-MI displayed a latent period of nearly 10 min and a high burst size of 1493 PFU/cell. This phage showed good activity over a wide range of temperature (up to 70 °C) and pH (3–12). The genome of phage vB_PF_Y1-MI spans 93,233 bp with a GC content of 45%. It encompasses 174 open-reading frames and 19 tRNA genes, while no lysogeny or virulence-associated genes were detected. Phylogenetic analysis positions it as a novel unassigned evolutionary lineage within the Caudoviricetes class among related dsDNA phages. Our study provides foundational insights into vB_PF_Y1-MI and emphasizes its potential as an effective biological control agent against P. fluorescens. This research offers crucial theoretical groundwork and technical support for subsequent efforts in preventing and controlling P. fluorescens contamination. [ABSTRACT FROM AUTHOR]
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- 2024
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8. Evaluation of functional plant growth-promoting activities of culturable rhizobacteria associated to tunicate maize (Zea mays var. tunicata A. St. Hil), a Mexican exotic landrace grown in traditional agroecosystems.
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Rivera-Hernández, Geovanny, Daniel Tijerina-Castro, Guillermo, Cortés-Pérez, Sandra, Ferrera-Cerrato, Ronald, and Alarcón, Alejandro
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PLANT germplasm ,SUSTAINABLE agriculture ,BIOTECHNOLOGY ,LYSINS ,AGRICULTURE ,RHIZOBACTERIA ,CORN - Abstract
Tunicate maize (Zea mays var. tunicata A. St. Hil) is a landrace that constitutes a fundamental aspect of the socio-cultural identity of Ixtenco, Tlaxcala (Mexico) and represents an exotic phenotype whose kernels are enclosed in leaflike glumes. Despite multiple studies conducted worldwide on plant growth-promotingrhizobacteria (PGPR) in commercial maize varieties grown under monoculture systems, very little is known about bacteria inhabiting native maize landraces in agroecosystems, but for tunicate maize such knowledge is non-existent. This research described and profiled functional groups of culturable rhizobacteria from tunicate maize at two phenological stages (tasseling and maturity/senescence) in a polyculture system, highlighting potential PGPR for biotechnological purposes. Ninety-five rhizobacteria were isolated and molecularly identified, and their physiological activities such as plant growth promotion, production of exogenous lytic enzymes, and antagonism against fungal pathogens were determined. The culturable rhizobacterial community associated to tunicate maize comprised 42 genera, dominated by Bacillaceae, Comamonadaceae, Microbacteriaceae, Micrococcaceae, Oxalobacteraceae, Pseudomonadaceae, and Rhizobaceae families. At tasseling stage, the identified bacteria corresponded to Arthrobacter, Priestia, Herbaspirillum, Pseudomonas, and Rhizobium, and exhibited redundant capabilities for stimulating plant growth and nutrition, and inhibiting fungal phytopathogens. At maturity/senescence stage, the main genera Arthrobacter and Microbacterium displayed lytic capabilities to support mineralization process. We recorded potential novel rhizosphere functional bacteria such as Rhizobium, Sphingobium, and Arthrobacter which are not previously described associated to maize landraces, as well as their bioprospection as PGPR detected at plant phenological stages poorly explored (like maturity/senescence). This taxonomic and functional diversity was attributed to the application of agricultural practices as well as the rhizosphere effect during specific phenological stages. Results described the diversity and functionality of culturable rhizosphere bacteria from tunicate maize in polyculture systems that allowed us the detection of potential rhizobacteria for further developing of biofertilizers and biocontrollers directed as biotechnology for sustainable agriculture, and for generating strategies for conservation of native plants and their microbial genetic resources. [ABSTRACT FROM AUTHOR]
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- 2024
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9. Antifungal activities of vineyard-habitat wild yeast for grape gray-mold disease and its effects on spontaneous winemaking.
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Hu, Dagula, Maeno, Naoko, Minami, Noriko, Takahashi, Soichiro, Yoshida, Kuniko, Ohtani, Katsuki, Funatsu, Yasuhiro, Kondo, Ryosuke, and Yamaguchi, Akihiro
- Abstract
Microorganisms, including native yeasts, are abundant in vineyard fields. Herein, we studied the possibility of using vineyard-derived wild yeast as a microbial pesticide against Botrytis cinerea, a pathogen that causes grape gray mold disease, to boost the initial alcohol production of spontaneously fermented wine. We identified the Saccharomyces cerevisiae strain KONDO170908, which showed the most effective antifungal activity in an ex vivo yeast dripping experiment on grape berries. This strain was utilized in an in vivo spray test on grape bunches in vineyard fields and was proven to significantly suppress gray mold disease on the grape berries in test plot #16 when the yeast was sprayed during both the flowering and ripening periods (morbidity 11.2% against 15.3% of the control plot, χ
2 test, p < 0.0001). However, in test plot #17, spraying the yeast during only the ripening period had no effect (morbidity 16.3%). The grapes from each test plot were also submitted for spontaneous wine fermentation. Alcoholic fermentation of the grapes from test plot #16 provided the most active bubbling of CO2 gas and the highest ethanol production and colony counts over seven days of fermentation. Unique changes in the different strains of S. cerevisiae among the plots were observed throughout the early fermentation stage. Thus, yeast spraying during the flowering period might trigger modification of the entire microbiota and could ultimately contribute to promoting alcohol production in the spontaneously fermented wine, although it decreased the grape yield by 20%. [ABSTRACT FROM AUTHOR]- Published
- 2024
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10. Advancements in Bacteriophages for the Fire Blight Pathogen Erwinia amylovora.
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Ke, Dufang, Luo, Jinyan, Liu, Pengfei, Shou, Linfei, Ijaz, Munazza, Ahmed, Temoor, Shahid, Muhammad Shafiq, An, Qianli, Mustać, Ivan, Ondrasek, Gabrijel, Wang, Yanli, Li, Bin, and Lou, Binggan
- Abstract
Erwinia amylovora, the causative agent of fire blight, causes significant economic losses for farmers worldwide by inflicting severe damage to the production and quality of plants in the Rosaceae family. Historically, fire blight control has primarily relied on the application of copper compounds and antibiotics, such as streptomycin. However, the emergence of antibiotic-resistant strains and growing environmental concerns have highlighted the need for alternative control methods. Recently, there has been a growing interest in adopting bacteriophages (phages) as a biological control strategy. Phages have demonstrated efficacy against the bacterial plant pathogen E. amylovora, including strains that have developed antibiotic resistance. The advantages of phage therapy includes its minimal impact on microbial community equilibrium, the lack of a detrimental impact on plants and beneficial microorganisms, and its capacity to eradicate drug-resistant bacteria. This review addresses recent advances in the isolation and characterization of E. amylovora phages, including their morphology, host range, lysis exertion, genomic characterization, and lysis mechanisms. Furthermore, this review evaluates the environmental tolerance of E. amylovora phages. Despite their potential, E. amylovora phages face certain challenges in practical applications, including stability issues and the risk of lysogenic conversion. This comprehensive review examines the latest developments in the application of phages for controlling fire blight and highlights the potential of E. amylovora phages in plant protection strategies. [ABSTRACT FROM AUTHOR]
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- 2024
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11. Field testing of a newly formulated product based on Meyerozyma guilliermondii LMA-Cp01 to manage anthracnose in mango fruit.
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López-Cruz, Rafael, Ragazzo-Sánchez, Juan Arturo, and Calderón-Santoyo, Montserrat
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COLLETOTRICHUM gloeosporioides , *INFECTION control , *FRUIT , *FLOWERS , *YEAST - Abstract
The microencapsulated yeast Meyerozyma guilliermondii LMA-Cp01 has previously shown high efficacy under laboratory tests against mango anthracnose caused by Colletotrichum gloeosporioides. Infection by C. gloeosporioides occurs in the field; therefore, it could be advantageous to apply the formulation at preharvest, which would reduce initial infection and control the pathogens. This work aimed to evaluate the effectiveness of free and two doses of microencapsulated M. guilliermondii applied in preharvest (four applications between early flowering and harvest) and one in postharvest to control mango anthracnose in two grown seasons. Besides, the effect of the treatments on quality parameters of mango fruit was also analyzed, as well as the quantification of the antagonist populations after its application on flowers and fruit. Preharvest applications of free and encapsulated M. guilliermondii significantly reduced anthracnose incidence and severity on fruit. M. guilliermondii microcapsules at 107 CFU mL−1 was as effective as fresh cells at 108 CFU mL−1. In orchard two, both doses of microcapsules were more effective than free cells and Captan, and no statistical differences between microcapsules and Benomyl were observed. The postharvest application was less effective in controlling mango anthracnose than preharvest. Under field conditions, LMA-Cp01 populations were higher on flowers and fruit treated with microencapsulated yeast than the free cells. Efficacy of M. guilliermondii was not improved by postharvest applications. Treatments did not adversely affect the quality parameters of mango. Microencapsulated M. guilliermondii LMA-Cp01 is a promising formulation to manage mango anthracnose through preharvest treatments. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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12. Evaluation and identification of viruses for biocontrol of the ash dieback disease.
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Lutz, Tobias, Ridley, Maia, Hadeler, Birgit, Schulz, Barbara, Enderle, Rasmus, Steinert, Michael, and Heinze, Cornelia
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FUNGAL virulence , *EUROPEAN ash , *FOREST management , *VIRUS diseases , *VIRUS identification - Abstract
The invasive ascomycete Hymenoscyphus fraxineus is the causative agent for ash dieback on the European species Fraxinus excelsior and Fraxinus angustifolia, and there is concern that it is going to replace the native, closely related and nonpathogenic Hymenoscyphus albidus. Fungal management in forests is limited, and alternative approaches for control are needed. Within the scope of the project "FraxForFuture", several strategies are being investigated. One idea comprises the use of a viral hyperparasite, which can induce a reduced virulence in the fungal host H. fraxineus in an antagonist-like system. This phenomenon, the reduction of fungal virulence by a viral infection, is known as hypovirulence, and a similar method has already been established to control the Chestnut Blight in Europe. We examined 34 isolates of H. fraxineus for both their virulence and presence of a viral infection. Although a predominant number of isolates were found to be infected with Hymenoscyphus mitovirus 1 (HfMV1), no additional viruses were detected, and our data did not indicate a link to reduced virulence. The search for a viral infection was extended to one isolate of H. albidus in which we found and characterized a novel mycovirus. Based on phylogenetic analysis and sequence properties, it was assigned to the genus Victorivirus in the family of Totiviridae and was tentatively denominated as Hymenoscyphus albidus victorivirus 1. This novel and native mycovirus might be suitable for inducing hypovirulence in H. fraxineus as a biocide. [ABSTRACT FROM AUTHOR]
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- 2024
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13. Wolbachia infection in natural mosquito populations from Argentina.
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Chuchuy, Ailen, Rodriguero, Marcela S., Alonso, Ana C., Stein, Marina, and Micieli, María V.
- Abstract
The increasing spread of mosquito vectors has made mosquito-borne arboviral diseases a global threat to public health, leading to the urgent need for effective population control methods. Strategies based in the intracellular bacterium Wolbachia Hertig, 1936 are considered environmentally friendly, safe for humans, and potentially cost-effective for controlling arboviral diseases. To minimize undesirable side effects, it is relevant to assess whether Wolbachia is present in the area and understand the diversity associated with native infections before implementing these strategies. With this purpose, we investigated Wolbachia infection status, diversity, and prevalence in populations of Aedes albifasciatus (Macquart, 1838), Aedes fluviatilis (Lutz, 1904), and hybrids of the Culex pipiens (Linnaeus, 1758) complex from Argentina. Aedes albifasciatus and C. pipiens complex samples were collected in the province of Buenos Aires, and A. fluviatilis in the province of Misiones. Aedes albifasciatus was found to be uninfected, while infections with strains wFlu and wPip were detected in A. fluviatilis and hybrids of the C. pipiens complex, respectively. All strains were fixed or close to fixation and clustered within supergroup B. These finding provides valuable information on Wolbachia strains found in natural mosquito populations in Argentina that might be used in heterologous infections in the future or be considered when designing control strategies based on Wolbachia infection. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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14. Efficacy of volatile organic compounds by Aureobasidium pullulans immobilized on hydrogel spheres against strawberry fungal pathogens.
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Tulukoglu‐Kunt, Keziban Sinem, Moret, Erica, Khomutovska, Nataliia, Stenberg, Johan, and Di Francesco, Alessandra
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AUREOBASIDIUM pullulans , *COLLETOTRICHUM acutatum , *BOTRYTIS cinerea , *CHEMICAL industry , *DISEASE incidence - Abstract
BACKGROUND: The present study explores the use of two different growth supports for the biocontrol yeasts Aureobasidium pullulans M13, C10, R34 and P17, by use of nutrient yeast glucose (NYDA) agar and hydrogel spheres as the support matrix, then evaluates their impact on the production of volatile compounds (VOCs) and the subsequent in vitro and in vivo antagonistic activity against Botrytis cinerea and Colletotrichum acutatum. RESULTS: For the in vitro assay, VOCs secreted by the isolates C10 and M13 encased in the hydrogel spheres showed greater inhibitory activity on the mycelial growth of B. cinerea (70.30%) and C. acutatum (52.35%), respectively, with respect to NYDA. For solid‐phase microextraction‐gas chromatography‐mass spectrometry, VOCs produced by the selected yeasts immobilized in the hydrogel spheres or cultured in the agar were identified. VOCs were grouped as alcohols, ketones, alkane and aldehyde, with phenylethyl alcohol and 1‐propanol‐2‐methyl being the most prominently produced. The analysis revealed variations in both quantity and composition of VOCs among the growth supports, indicating the hydrogel spheres as enhancer distinct metabolic pathways and substrate utilization of the isolates, particularly in the M13 isolate. CONCLUSION: The antifungal activity of the VOCs produced in the hydrogel spheres by the isolates C10 and M13 was assessed on strawberries, demonstrating a significant reduction in disease incidences. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]
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- 2024
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15. Applications of Pythium- and Phytophthora-produced volatiles in plant disease control.
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Sheikh, Taha Majid Mahmood, Chen, Jinhao, Wang, Lunji, Zhou, Dongmei, Deng, Sheng, Velasco de Castro Oliveira, Juliana, Raza, Waseem, Wei, Lihui, and Daly, Paul
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BIOLOGICAL pest control agents , *PHYTOPATHOGENIC microorganisms , *PLANT diseases , *PHYTOPHTHORA diseases , *VOLATILE organic compounds , *PHYTOPHTHORA , *OOMYCETES - Abstract
Volatile organic compounds (VOCs) mediate biological interactions and are produced by Pythium and Phytophthora species. These VOCs are biotechnologically relevant because the genera include important plant pathogens, whereby VOCs can aid in disease detection, and biological control agents, whereby VOCs contribute to disease control. Studies on VOC production, identification, and characterization of individual VOCs produced by Pythium and Phytophthora species are reviewed. VOCs detected in plants infected with Phytophthora species are also reviewed as potentially oomycete-derived VOCs. The Pythium- and Phytophthora-produced VOCs are compared with other microorganisms, and the main effects of these VOCs on microbial inhibition and plant-mediated effects are reviewed. These effects are summarized from direct demonstration studies and inferences based on the known functions of the identified Pythium- and Phytophthora-produced VOCs. There are two main applications of VOCs to plant disease control: the use of VOCs to detect pathogenic Pythium and Phytophthora species, e.g., e-nose detecting systems, and the use of VOC-producing biological control agents, e.g., Pythium oligandrum. Future research could understand how the VOCs are produced to engineer VOC levels in strains, analyze more oomycete species and strains, accurately quantify the VOCs produced, and exploit recent developments in analytical chemistry technology. Key points: • Compiled inventory of volatiles produced by Phytophthora and Pythium species • Volatilomes contain microbe-inhibiting and plant growth-promoting compounds • Volatile potential in disease detection and control supports analyzing more species [ABSTRACT FROM AUTHOR]
- Published
- 2024
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16. Bacterial seed endophytes promote barley growth and inhibits Fusarium graminearum in vitro.
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Ajayi, Oyeyemi, Grover, Suvir, Yimer, Belayneh, Vinje, Marcus, and Mahalingam, Ramamurthy
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BACTERIAL communities , *PLANT growth , *ENDOPHYTES , *ENDOPHYTIC bacteria , *FUSARIUM , *MALTING - Abstract
Objectives: Seeds host microbes that function in plant growth and phytopathogen resistance. The aim of the work was to investigate total bacterial community in malting barley seeds and whether their bacterial seed endophytes have dual functional roles in plant growth-promotion and inhibition of Fusarium graminearum, the causative agent of Fusarium head blight (FHB) in barley. We used culture dependent and culture independent methods. Results: Phylogenetic classification of seed endophytic bacteria based on sequencing data identified B. subtilis, B. licheniformis and B. pumilis as predominant subgroups. Location driven divergence in bacterial endophytic communities was evident based on a clear separation of the samples from Crookston and other location samples. The bio-primed seeds using one hundred and seventy bacterial isolates showed that 3.5% (6/170) of the bacterial isolates conferred greater than 10% increase in both root length (RL) and shoot length (SL), while 19.4% (33/170) and 26.5% (45/170) showed RL and SL specific growth effects, respectively, relative to controls. Among the six bacterial isolates that increased RL and SL, five (#29, #63, #109, #124 and #126) also significantly inhibit the growth of F. graminearum based on in vitro assays. This study identified novel seed bacterial endophytes that could be further exploited for promoting growth during seedling establishment and as biocontrol for combating the devastating scab disease. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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- View/download PDF
17. Long-term post-release evaluation shows Hypogeococcus sp. is an effective biological control agent for queen of the night cactus in South Africa.
- Author
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Muskett, Phillippa, Sutton, G. F., and Paterson, I. D.
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BIOLOGICAL pest control agents , *MEALYBUGS , *PLANT populations , *PLANT spacing , *INVASIVE plants - Abstract
We conducted long-term monitoring of Hypogeococcus sp. (Pseudococcidae) as a biocontrol agent for queen of the night cactus (Cereus jamacaru De Candolle). The biocontrol agent was released at three sites representing the regions where the plant is problematic in South Africa, and both agent and plant populations were monitored over time. The proportion of plants producing fruits or flowers decreased by 36% each year, with all plants no longer flowering between two and seven years after release. Plant density reduced by 42% each year after release. Hypogeococcus sp. is an effective agent against C. jamacaru in South Africa. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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18. An Antitermitic Compound-Producing Endophytic Bacterium from Chamaecyparis lawsoniana.
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Ruan, Q. C., Sun, L. Q., Liu, J., Hua, J. S., and Zhao, K.
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ENDOPHYTIC bacteria , *TERMITE control , *MICROBIAL metabolites , *ENVIRONMENTAL standards , *PAENIBACILLUS - Abstract
Termites present a significant hazard to wooden structures, agriculture and urban environments. Termiticides are now required to meet more stringent environmental standards. Microbial metabolites with antitermitic properties are considered practical alternatives for termite control. Here, we report an antitermitic compound-producing endophytic bacterium HDZK-BYB36 isolated from the termite-resistant tree, Port-Orford-cedar (Chamaecyparis lawsoniana). The morphological, physio-biochemical, and 16S rDNA characteristics of the bacterium were investigated, as well as its antimicrobial and antitermitic activities. The antitermitic compounds from the strain HDZK-BYB36 were analyzed by GC-MS. Phylogenetic analyses revealed that HDZK-BYB36 was a subspecies of Paenibacillus aliginolyticus, sharing 98.72% identity with P. alginolyticus DSM 5050T. The HDZK-BYB36 demonstrated robust antimicrobial and termiticidal activities. It produced at least 4 antitermitic compounds, namely nootkatone, τ-muurolol, torreyol and α-cadinol, as determined by GC-MS analysis. The isolation of HDZK-BYB36 presents an effective and innovative resource for generating antitermitic compounds, providing a sustainable approach towards the prevention and control of termites. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
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19. Antifungal metabolites produced by Pseudomonas hunanensis SPT26 effective in biocontrol of fusarium wilt of Lycopersicum esculentum under saline conditions.
- Author
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Verma, Priyanka, Bhattacharya, Ankita, Bharti, Chanda, and Arora, Naveen Kumar
- Subjects
- *
HALOPHYTES , *FOURIER transform infrared spectroscopy , *AGRICULTURE , *PLANT diseases , *PLANT growth , *TOMATOES - Abstract
In past few years, salinity has become one of the important abiotic stresses in the agricultural fields due to anthropogenic activities. Salinity is leading towards yield losses due to soil infertility and increasing vulnerability of crops to diseases. Fluorescent pseudomonads are a diverse group of soil microorganisms known for promoting plant growth by involving various traits including protecting crops from infection by the phytopathogens. In this investigation, salt tolerant plant growth promoting bacterium Pseudomonas hunanensis SPT26 was selected as an antagonist against Fusarium oxysporum, causal organism of fusarium wilt in tomato. P. hunanensis SPT26 was found capable to produce various antifungal metabolites. Characterization of purified metabolites using Fourier transform infrared spectroscopy (FT-IR) and liquid chromatography-electron spray ionization-mass spectrometry (LC-ESI/MS) showed the production of various antifungal compounds viz., pyrolnitrin, pyochelin and hyroxyphenazine by P. hunanensis SPT26. In the preliminary examination, biocontrol activity of purified antifungal metabolites was checked by dual culture method and results showed 68%, 52% and 65% growth inhibition by pyrolnitrin, 1- hydroxyphenazine and the bacterium (P. hunanensis SPT26) respectively. Images from scanning electron microscopy (SEM) revealed the damage to the mycelia of fungal phytopathogen due to production of antifungal compounds secreted by P. hunanensis SPT26. Application of bioinoculant of P. hunanensis SPT26 and purified metabolites significantly decreased the disease incidence in tomato and increased the plant growth parameters (root and shoot length, antioxidant activity, number of fruits per plant, etc.) under saline conditions. The study reports a novel bioinoculant formulation with the ability to promote plant growth parameters in tomato in presence of phytopathogens even under saline conditions. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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20. Fungal endophytes can modulate plant invasion.
- Author
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Bard, Nicholas W., Cronk, Quentin C. B., and Davies, T. Jonathan
- Subjects
- *
ENDOPHYTIC fungi , *PLANT life cycles , *LIFE cycles (Biology) , *PLANT invasions , *INTRODUCED plants - Abstract
Symbiotic organisms may contribute to a host plant's success or failure to grow, its ability to maintain viable populations, and potentially, its probability of establishment and spread outside its native range. Intercellular and intracellular microbial symbionts that are asymptomatic in their plant host during some or all of their life cycle – endophytes – can form mutualistic, commensal, or pathogenic relationships, and sometimes novel associations with alien plants. Fungal endophytes are likely the most common endosymbiont infecting plants, with life‐history, morphological, physiological, and plant‐symbiotic traits that are distinct from other endophytic guilds. Here, we review the community dynamics of fungal endophytes during the process of plant invasion, and how their functional role may shift during the different stages of invasion: transport, introduction (colonisation), establishment, and spread. Each invasion stage presents distinct ecological filters that an alien plant must overcome to advance to the subsequent stage of invasion. Endophytes can alternately aid the host in overcoming stage‐specific filters, or contribute to the barriers imposed by filters (e.g. biotic resistance), thereby affecting invasion pathways. A few fungi can be transported as seed endophytes from their native range and be vertically transmitted to future generations in the non‐native range, especially in graminoids. In other plant groups, alien plants mostly acquire endophytes via horizontal transmission from the invaded plant community, and the host endophyte community is shaped by host filtering and biogeographic factors (e.g. dispersal limitation, environmental filtering). Endophytes infecting alien plants (both those transported with their host and those accumulated in the non‐native range) may influence invasion success by affecting plant growth, reproduction, environmental tolerance, and pathogen and herbivory defences; however, the direction and magnitude of these effects can be contingent upon the host identity, life stage, ecological conditions, and invasion stage. This context dependence may cause endophytic fungi to shift to a non‐endophytic (e.g. pathogenic) functional life stage in the same or different hosts, which can modify alien–native plant community dynamics. We conclude by identifying paths in which alien hosts can exploit the context dependency of endophyte function in novel abiotic and biotic conditions and at the different stages of invasion. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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21. Bacterial biocontrol of vibriosis in shrimp: A review.
- Author
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Harpeni, Esti, Isnansetyo, Alim, Istiqomah, Indah, and Murwantoko
- Subjects
- *
SHRIMP diseases , *SHRIMP industry , *DRUG resistance in bacteria , *DISEASE management , *SHRIMPS , *VIBRIO harveyi - Abstract
Vibriosis is a disease that frequently infects shrimp and financially devastates the shrimp industry worldwide. Because of the detrimental effects of antibiotic use in shrimp disease management, such as the emergence of various antibiotic-resistant bacteria, decreased antibiotic efficacy due to long-term use, and residues remaining in sediments, water, and shrimp body tissues, researchers are developing alternatives to vibriosis disease control through biocontrol technologies that are more effective, economical, and environmentally friendly. Biological agents such as microalgae, viruses, fungi, and bacteria are used in several biocontrol technologies. Despite its widespread use, several aspects of bacteria-based Vibrio biocontrol remain poorly known, including the most effective pathogen suppression mechanism and how it interacts with shrimp as a host. In this review, the development of biocontrol technologies for vibriosis in shrimp, especially those that use bacteria as agents, such as green water technology, biofloc, probiotics, and synbiotics, as well as the biocontrol mechanism of action and its interactions with the host and opportunities for further studies, are discussed to enrich our understanding of controlling Vibrio in shrimp in the future. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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22. Isolation and Characterization of Two Novel Lytic Bacteriophages against Salmonella typhimurium and Their Biocontrol Potential in Food Products.
- Author
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Song, Yaxiong, Gu, Wentao, Hu, Yaozhong, Zhang, Bowei, Wang, Jin, Sun, Yi, Fu, Wenhui, Li, Xinyang, Xing, Xiaolong, and Wang, Shuo
- Subjects
CHICKEN as food ,SALMONELLA typhimurium ,FOODBORNE diseases ,MILK contamination ,FOOD pathogens ,SALMONELLA ,BACTERIOPHAGES - Abstract
Foodborne pathogens, such as Salmonella, are major factors that pose significant threats to global food safety and public health. Salmonella typhimurium is a prominent serotype contributing to non-typhoidal salmonellosis, which is a prevalent foodborne illness affecting humans and animals. Bacteriophages are considered one of the most environmentally friendly biocontrol agents, particularly in the food industry, owing to their high specificity and high safety. However, the emergency of phage-resistant mutants limits the biocontrol effect of phage treatment, leading to the requirement for a high diversity of lytic phages. Therefore, the study isolated and characterized two novel lytic Salmonella bacteriophages (SPYS_1 and SPYS_2) targeting S. typhimurium ATCC14028 and evaluated their effectiveness in reducing the contamination rates for milk and chicken tenders. Morphological and genomic analyses indicated that Salmonella phages SPYS_1 and SPYS_2 are novel species classified under the genus Skatevirus and the genus Berlinvirus, respectively. Both phages exhibited high stability across a broad range of thermal and pH conditions. The one-step growth curve result suggested that both phages had a short adsorption time and a large burst size in a single lytic cycle. The phage SPYS_1 demonstrated a noteworthy inhibition effect on the growth of S. typhimurium ATCC14028 in milk, resulting in a ~2-log reduction within the 2 to 4 h range. Overall, both phages have shown significant potential for application in food safety in the future. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
23. Liquid Bioformulation: A Trending Approach Towards Achieving Sustainable Agriculture.
- Author
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Rai, Samaksh, Mago, Yashika, Aggarwal, Geetika, Yadav, Anjali, and Tewari, Sakshi
- Abstract
The human population is expanding at an exponential rate, and has created a great surge in the demand for food production. To intensify the rate of crop production, there is a tremendous usage of chemical pesticides and fertilizers. The practice of using these chemicals to enhance crop productivity has resulted in the degradation of soil fertility, leading to the depletion of native soil microflora. The constant application of these hazardous chemicals in the soil possesses major threat to humans and animals thereby impacting the agroecosystem severely. Hence, it is very important to hunt for certain new alternatives for enhancing crop productivity in an eco-friendly manner by using the microbial bioformulations. Microbial bioformulations can be mainly divided into two types: solid and liquid. There is a lot of information available on the subject of solid bioformulation, but the concept of liquid bioformulation is largely ignored. This article focuses on the diverse spectrum of liquid bioformulation pertaining to the market capture, its different types, potency of the product, mode of usage, and the limitations encountered. Also the authors have tried to include all the strategies required for sensitizing and making liquid bioformulation approach cost effective and as a greener strategy to succeed in developing countries. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
24. Life history studies of stink bugs: much-needed research to support their conservation biological control.
- Author
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Panizzi, Antônio Ricardo and Lucini, Tiago
- Abstract
In this article, we present and discuss the importance of life history information of four species of stink bugs (Heteroptera: Pentatomidae) of the neotropics, pests of major commodities, as basic information necessary for development of improved programs of conservation biological control. This information is from cultivated areas in two ranges in southern latitudes: 10–23° S of the sub-tropical warm area, for Euschistus heros (F.) and Diceraeus melacanthus (Dallas), and 23–36° S of the sub-temperate area, for Piezodorus guildinii (Westwood) and Nezara viridula (L.). We present the life histories of the stink bugs, showing their relative abundances on crops and wild vegetation and the number of generations completed per year. We describe the main groups of natural enemies and suggest how their roles might be enhanced to reduce the abundance of the pests. We discuss a variety of plants affecting stink bugs and their natural enemies, including primary host plants and associated plants. We proposed a theoretical "ideal" landscape with improved spatial and temporal distributions of host and non-host plants in cultivated and non-cultivated parts of agricultural systems. We suggest some future steps that need to be taken to make this "ideal" landscape a reality, mitigating the harmful effects of stink bugs as pests, enhancing their natural enemies, and promoting conservation biological control. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
25. Competition for nutrient niches within the apple blossom microbiota antagonizes the initiation of fire blight infection.
- Author
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Lee, Seung Yeup, Roh, Eunjung, Kim, Sang Guen, and Kong, Hyun Gi
- Subjects
- *
GENE expression , *ERWINIA amylovora , *ARABINOGALACTAN , *CHEMICAL composition of plants , *ARABINOSE - Abstract
Summary: Changes in the plant microbiota composition are intimately associated with the health of the plant, but factors controlling the microbial community in flowers are poorly understood. In this study, we used apple flowers and fire blight as a model system to investigate the effects of floral microbiota and microbial competition on disease development and suppression.To compare changes in microbial flora with the RNA expression patterns of plants, the flower samples were collected in three different flowering stages (Bud, Popcorn, and Full‐bloom). Using advanced sequencing technology, we analyzed the data and conducted both in vitro and in vivo experiments to validate our findings.Our results show that the Erwinia amylovora use arabinogalactan, which is secreted on the flowers, for early colonization of apple flowers. Pantoea agglomerans was more competitive for arabinogalactan than E. amylovora. Additionally, P. agglomerans suppressed the expression of virulence factors of E. amylovora by using arabinose, which is a major component of arabinogalactan, which induces virulence gene expression.The present data provide new insights into developing control strategies for diverse plant diseases, including fire blight, by highlighting the importance of nutrients in disease development or suppression. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
26. Streptomyces avermitilis MICNEMA2022: a new biorational strain for producing abamectin as an integrated nematode management agent.
- Author
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Radwan, Wafaa H., Abdelhafez, Ahmed A. M., Mahgoub, Ahmed E., and Zayed, Mona S.
- Subjects
- *
ABAMECTIN , *SOUTHERN root-knot nematode , *RF values (Chromatography) , *ROOT-knot , *STREPTOMYCES - Abstract
Background: Abamectin (ABA) is considered a powerful insecticidal and anthelmintic agent. It is an intracellular product of Streptomyces avermitilis; is synthesized through complicated pathways and can then be extracted from mycelial by methanol extraction. ABA serves as a biological control substance against the root-knot nematode Meloidogyne incognita. This investigation is intended to reach a new strain of S. avermitilis capable of producing ABA effectively. Results: Among the sixty actinobacterial isolates, Streptomyces St.53 isolate was chosen for its superior nematicidal effectiveness. The mycelial-methanol extract of isolate St.53 exhibited a maximum in vitro mortality of 100% in one day. In the greenhouse experiment, the mycelial-methanol extract demonstrated, for the second-stage juveniles (J2s), 75.69% nematode reduction and 0.84 reproduction rate (Rr) while for the second-stage juveniles (J2s), the culture suspension demonstrated 75.38% nematode reduction and 0.80 reproduction rate (Rr). Molecular identification for St.53 was performed using 16 S rRNA gene analysis and recorded in NCBI Genbank as S. avermitilis MICNEMA2022 with accession number (OP108264.1). LC-MS was utilized to detect and identify abamectin in extracts while HPLC analysis was carried out for quantitative determination. Both abamectin B1a and abamectin B1b were produced and detected at retention times of 4.572 and 3.890 min respectively. Conclusion: Streptomyces avermitilis MICNEMA2022 proved to be an effective source for producing abamectin as a biorational agent for integrated nematode management. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
27. Chemical and genetic characterization of lipopeptides from Bacillus velezensis and Paenibacillus ottowii with activity against Fusarium verticillioides.
- Author
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de Fátima Dias Diniz, Gisele, Fontes Figueiredo, José Edson, Canuto, Kirley Marques, Cota, Luciano Viana, de Queiroz Souza, Ana Sheila, Simeone, Maria Lúcia Ferreira, de Sousa Tinoco, Sylvia Morais, Vasconcelos Ribeiro, Paulo Riceli, Silva Ferreira, Lourenço Vitor, Marins, Mikaely Sousa, de Oliveira-Paiva, Christiane Abreu, and dos Santos, Vera Lúcia
- Subjects
GIBBERELLA fujikuroi ,BACILLUS (Bacteria) ,TROPICAL crops ,SCANNING electron microscopy ,PAENIBACILLUS ,BIOLOGICAL pest control agents - Abstract
Introduction: The fungus Fusarium verticillioides significantly threatens maize crops in tropical soils. In light of this, biological control has emerged as a promising strategy to reduce fungicide costs and environmental risks. In this study, we aimed to test the antifungal activity of cell-free supernatant (CFS) from three Bacillus velezensis (CT02, IM14, and LIS05) and one Paenibacillus ottowii (LIS04) against F. verticillioides, thereby contributing to the development of effective biocontrol measures. Methods: The research employed a comprehensive approach. The antifungal activity of the bacterial strains was tested using cell-free supernatant (CFS) from three Bacillus velezensis (CT02, IM14, and LIS05) and one Paenibacillus ottowii (LIS04). The UPLC-MS evaluated the CFS to identify the main bioactive molecules involved in the inhibitory effect on F. verticillioides. Scanning electron microscopy (SEM) was used to assess the impact of CFS on spores and hyphae, and genome sequencing was conducted to identify the genes involved in biological control. These robustmethodologies ensure the reliability and validate our findings. Results: The CFS of the four strains demonstrated significant inhibition of fungal growth. The UPLC-MS analysis revealed the presence of lipopeptides with antifungal activity, including surfactin and fengycins A and B expressed by the three strains of Bacillus velezensis and iturin A expressed by strains LIS05 and IM14. For Paenibacillus ottowii, fusaricidins, ABCDE, and five previously unreported lipopeptides were detected. Scanning electron microscopy (SEM) showed that treatments with CFS led to significant distortion and breakage of the F. verticillioides hyphae, in addition to the formation of cavities in the membrane. Genome mining confirmed the presence of genes coding for the lipopeptides identified by UPLC-MS, including the gene for iturin in CTO2. Genomic sequencing revealed that CT02, IM14, and LIS05 belong to different strains of Bacillus velezensis, and LIS04 belongs to Paenibacillus ottowii, a species recently described. Discussion: The four bacterial strains, including three novel strains identified as Bacillus velezensis and one as the recently described species Paenibacillus ottowii, demonstrate significant potential as biocontrol agents for managing fungal disease. This finding underscores the novelty and potential impact of our research. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
28. Synergistic antibacterial activity of Lactococcus lactis and Xylella phage MATE 2 for an effective biocontrol strategy against black rot disease in broccoli.
- Author
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Sabri, Miloud, El Handi, Kaoutar, El Tousy, Abderrahim, De Stradis, Angelo, and Elbeaino, Toufic
- Subjects
BRASSICACEAE ,LACTOCOCCUS lactis ,ENVIRONMENTAL health ,TREATMENT effectiveness ,BIOLOGICAL pest control agents ,XANTHOMONAS campestris ,BROCCOLI - Abstract
Black rot, caused by Xanthomonas campestris pv. campestris (Xcc), is considered the most destructive disease affecting cruciferous vegetables, resulting in significant losses worldwide. The need for biocontrol agents against Xcc that can reduce reliance on chemical pesticides, enhance sustainability, and ensure crops and environmental health is crucial. Combining phages with other antibacterial agents (i.e., antibiotics and bacteriocins) to treat bacterial infections is gaining increased attention due to the frequently observed synergistic effects. This study introduces for the first time the combination of a lytic phage, i.e., Xylella phage MATE 2 (MATE 2) with nisin-producing Lactococcus lactis subsp. lactis (L. lactis) bacterium as an eco-friendly, cost-effective, and practical strategy for controlling Xcc in cruciferous vegetables. The antibacterial efficacy of MATE 2 and L. lactis, individually and in combination, against Xcc was investigated through a series of in vitro assays and in planta experiments conducted on broccoli plants. The time-killing curves results showed that under conditions of reduced Xcc population concentration (10³ CFU/mL), MATE 2 at 10
8 PFU/mL exerted a persistent inhibitory effect on Xcc growth for 7 days. The Spot assays and v-qPCR analysis showed that both L. lactis and its bacteriocin nisin have significant antibacterial potential to contrast Xcc. Furthermore, combined application of MATE 2 and L. lactis in broccoli plants by foliar spraying generated significant synergistic efficacy in preventing Xcc infections, achieving a 71% reduction in symptoms, compared with 64 and 38% for single applications, respectively. In this study, the positive synergistic effect of the combined application of phage and beneficial bacteria in preventing black rot disease underscores this ecofriendly and cost-effective approach as a promising control measure against plant bacterial diseases. [ABSTRACT FROM AUTHOR]- Published
- 2024
- Full Text
- View/download PDF
29. Phytopathogenic Fungi and Their Active Metabolites With Bioherbicidal Potential Against the Invasive Alligator Weed, Alternanthera philoxeroides.
- Author
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Basak, Payel, Dutta, Wri, Basu, Jashaswi, Ghosh, Mayukh, Chakraborty, Anwesha, and Ray, Puja
- Abstract
Alligator weed (Alternanthera philoxeroides), originally from South America, is a notorious semi‐aquatic invasive species in many countries, including India. Due to its amphibious nature, it not only damages the aquatic environment but is also detrimental to the terrestrial ecosystem. To seek an environmentally sound control option for alligator weed, this study focused on selecting an appropriate mycoherbicidal agent. A series of steps from field survey‐based collection, isolation and selection of promising fungal strains, followed by host range determination to biocontrol potential studies against the weed were undertaken. Twenty‐three phytopathogenic fungi were isolated, and among these, the fungi with the highest herbicidal activity (> 90% disease severity) were subjected to morphological and molecular characterisation and identified as Alternaria alternantherae (= Nimbya alternanthera). The fungus and its crude metabolites were tested against 76 plant species, showing a relatively narrow host range. This fungal species is being reported from West Bengal, India, for the first time. Although the fungus has been considered as a potential biocontrol tool against alligator weed in countries such as Australia, Brazil and China, long‐term, detailed research for A. alternantherae and its active metabolites to be developed as bioherbicides against alligator weed remains indispensable. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
30. Assessing the Compatibility of Streptomyces saraceticus With Pesticides and the Efficacy in Controlling Root‐Knot Nematode.
- Author
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Chen, Ying‐Yu, Tsay, Tung‐Tsuan, and Chen, Peichen
- Abstract
Streptomyces saraceticus strain 31 (SS31) exhibits antagonistic activities against a variety of phytopathogenic bacteria, fungi and nematodes. In our effort to integrate SS31 into an effective pest management programme for controlling plant pathogens, we assessed the toxicities of 74 pesticides commonly employed in agricultural production on SS31 using paper disc assays. Most of the test insecticides, acaricides, nematicides and plant growth regulators showed no antagonistic effects towards SS31. However, all six tested herbicides, glyphosate, paraquat, glufosinate‐ammonium, quizalofop‐ethyl, pendimthalin and butralin exerted strong inhibitory effects on SS31. Among the 42 tested fungicides, half of them, including acid amides, strobilurins, carbamates, antibiotics and morphine displayed no detrimental effects on SS31. Notably, copper‐based fungicides demonstrated high toxicity to SS31. Although chlorothalonil and thiophanate methyl + streptomycin displayed inhibitory effects on SS31, applying these pesticides with SS31 in pot tests resulted in a lower Meloidogyne incognita galling index compared with the mock control under greenhouse conditions. Additionally, applying SS31 with carbofuran or ethoprop effectively controlled M. incognita. These findings can provide strategies to refine application timing and enhance the beneficial effects of SS31. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
31. From Waste to Utilization: Assessing the Feasibility of Using Post-Mushroom Substrate and Other Agro-Wastes for the Mass Production of Entomopathogenic Fungi.
- Author
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Ranadev, P., Nagaraju, K., and Kumari, R. Vasanth
- Subjects
- *
SOLID-state fermentation , *WASTE recycling , *MASS production , *ENTOMOPATHOGENIC fungi , *BEAUVERIA bassiana , *SORGHUM , *SUGARCANE - Abstract
Production of high-quality inoculum in sufficient quantities is crucial for biocontrol programs. Entomopathogenic Fungi (EPF) are highly suitable biocontrol agents due to their adaptability, mode of action, persistence, and wide host range. This study aimed to evaluate the suitability of agro-wastes, including sugarcane bagasse, paddy husk, Post Mushroom Substrate (PMS), and sorghum grains with and without 10% molasses fortification, for mass production of four EPF isolates (Cordyceps fumosorosea: MT997932, Beauveria bassiana: MT997933, Akanthomyces lecanii: MT997935, and Hirsutella thompsonii: MT997936) isolated from two agro-climatic zones in Karnataka, India. The study employed solid-state fermentation. Results showed that sorghum grains fortified with 10% molasses had the highest mycelial growth and spore production of all isolates, followed by PMS with 10% molasses (T 7 ). Fortification with molasses positively influenced the growth and spore production of EPF. The results indicated that while sorghum grains were the best choice for mass production, PMS fortified with molasses also had great potential as an alternative substrate. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
32. Biological Control of Pichia bruneiensis AL3 against Green Mould Disease on Oranges.
- Author
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Phankaeo, N., Nuchthien, K., Pitthayajirakul, N., and Rungjindamai, N.
- Subjects
- *
MANDARIN orange , *CITRUS greening disease , *PHYTOPATHOGENIC microorganisms , *BIOLOGICAL pest control agents , *PENICILLIUM digitatum - Abstract
Agriculture plays an essential role in Thailand economy. However, to control plant pathogens and maximize crop yield, pesticides are overused and misused. This results in toxic pollutants that are harmful to humans and the environment. Biological control offers an alternative to the use of synthetic chemicals. Mandarin orange (Citrus reticulata) is widely grown and consumed in Thailand, but it is threatened by green mould disease caused by Penicillium digitatum, which usually occurs at post-harvest storage. A total of 40 isolates of epiphytic yeasts were isolated from symptomless orange peels. They were screened for antagonistic activity against P. digitatum originally isolated from a diseased orange using a dual culture method. Five isolates exhibited at least 70% inhibition; therefore, they were further screened for their activity on orange using fruit inoculation. An isolate, AL3, reduced the disease incidence (79%) and lesion size (34.75±2.57 mm) caused by P. digitatum compared to the control treatments (disease incidence, 100% and lesion size, 50.00±1.03 mm, respectively). The yeast was analyzed using molecular data based on Internal Transcribed Spacers (ITS region) and it was identified as Pichia bruneiensis AL3. Its mode of action on anti-sporulation was studied. When tested on agar plates, living cells and culture broth of P. bruneiensis AL3 were able to inhibit spore germination of P. digitatum resulting in 33.2 and 38.2% germination, respectively, compared to the control treatment (76.8% germination). These results showed that P. bruneiensis AL3 has the potential to develop as a biological control agent (BCA). [ABSTRACT FROM AUTHOR]
- Published
- 2024
33. Plant growth‐promoting rhizobacteria and Trichoderma shift common vetch (Vicia sativa) physiology and phyllosphere bacteria toward antagonism against anthracnose caused by Colletotrichum spinaciae.
- Author
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Zhu, Rui, Yan, Wei, Wang, Yajie, Li, Yingde, Zheng, Rongchun, Dong, Wanqing, Yao, Tuo, and Duan, Tingyu
- Subjects
- *
BACTERIAL physiology , *PLANT enzymes , *BACTERIAL diversity , *BACILLUS licheniformis , *SALICYLIC acid - Abstract
Background: Plant phyllosphere microbes are important for the host plant's protection. Plant growth‐promoting rhizobacteria (PGPR) and Trichoderma are common biocontrol agents (BCAs) for disease management. Pathogens and BCAs can change the rhizosphere microbial composition; however, the effect of PGPR or Trichoderma on plant phyllosphere microbes, particularly for mesocosms involving the interaction between pathogens and BCAs, is not well known. Methods: High‐throughput sequencing was used to identify the phyllosphere bacterial community of common vetch interacting with Colletotrichum spinaciae, two PGPRs (Bacillus subtilis and Bacillus licheniformis), and Trichoderma longibrachiatum. We evaluated anthracnose severity, phyllosphere bacteria diversity and composition, and the relationship between the activities of plant defense enzymes and hormonal molecules in plants treated with individual and combined inoculations of PGPRs, Trichoderma, and C. spinaciae. Results: PGPR or Trichoderma alone reduced disease severity. Trichoderma reduced the salicylic acid content, PGPR increased the catalase activity in plants, and co‐inoculation of PGPR and Trichoderma decreased the salicylic acid content. Inoculation of PGPR and Trichoderma individually or in combination changed the disease‐associated phyllosphere bacteria, and this effect was related to plant defense enzymes and hormonal molecules. Conclusions: We suggest that the plant defense response induced by PGPR and Trichoderma results in the enrichment of a fraction of favorable chloroplastic bacteria, which facilitates plant defense against diseases. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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34. Advances in the applications of Bacteriophages and phage products against food-contaminating bacteria.
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E, Suja and Gummadi, Sathyanarayana N.
- Subjects
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FOOD contamination , *FOODBORNE diseases , *BIOLOGICAL pest control agents , *FOOD safety , *FOOD industry , *BACTERIOPHAGES - Abstract
Food-contaminating bacteria pose a threat to food safety and the economy by causing foodborne illnesses and spoilage. Bacteriophages, a group of viruses that infect only bacteria, have the potential to control bacteria throughout the "farm-to-fork continuum". Phage application offers several advantages, including targeted action against specific bacterial strains and minimal impact on the natural microflora of food. This review covers multiple aspects of bacteriophages applications in the food industry, including their use as biocontrol and biopreservation agents to fight over 20 different genera of food-contaminating bacteria, reduce cross-contamination and the risk of foodborne diseases, and also to prolong shelf life and preserve freshness. The review also highlights the benefits of using bacteriophages in bioprocesses to selectively inhibit undesirable bacteria, such as substrate competitors and toxin producers, which is particularly valuable in complex microbial bioprocesses where physical or chemical methods become inadequate. Furthermore, the review briefly discusses other uses of bacteriophages in the food industry, such as sanitizing food processing environments and detecting specific bacteria in food products. The review also explores strategies to enhance the effectiveness of phages, such as employing multi-phage cocktails, encapsulated phages, phage products, and synergistic hurdle approaches by combining them with antimicrobials. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
35. Inoculation of Fava Bean Plants (Vicia faba L.) with a PGPR Combination Suppresses the Impact of Root-Knot Nematode and Promotes Plant Growth.
- Author
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L'taief, Boulbaba, Alqahtani, Wadha, Wissem, Hamdi, Elghamdi, Houda, Haj Ahmed, Sami Ben, and Sifi, Bouaziz
- Subjects
- *
ROOT-knot , *PLANT growth , *PLANT roots , *RHIZOBACTERIA , *PESTICIDES - Abstract
Background: Plant-growth-promoting rhizobacteria (PGPR) are a class of beneficial bacteria that colonise the roots of plants and improve projected plant growth through a multivariate process. PGPR application is increasing steadily in the field of agriculture, providing an attractive mechanism to replace pesticides, chemical fertilisers and additional supplements. Methods: In this study, PGPR from rhizospheric soil collected from Abha, a city located in the southern region of the Kingdom of Saudi Arabia (KSA), were isolated and characterised to facilitate verifying the efficacy of using PGPR as a biological control to improve fava bean growth. Four bacterial isolates from the nodules of fava bean plants, S4, S5, S6 and S17, were isolated and characterised. Consequently, an investigation highlighting the impact of PGPR isolates on the preservation of fava bean plants from the root-knot nematode was conducted through a pot culture experiment. Soil infested with the nematode was added to the pots. Two commercial types of fava bean plants (Vicia faba L.) were co-inoculated with PGPR 15 days after planting. Result: The results reveal that the nodule-forming bacteria interact synergistically; this was evidenced by a prominent increase in the shoot length and dry weight of the fava bean plants that had been cultivated in the nematode-infested soil. The results also demonstrate that the overall treatment of the plants did not lead to nodule formation. The results indicate that nodule-forming bacteria could be utilised in leguminous crops to facilitate biocontrol of the root-knot nematode. [ABSTRACT FROM AUTHOR]
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- 2024
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36. The Microbiological Activity of Soil in Response to Gliotoxin, the "Lethal Principle" of Trichoderma.
- Author
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Teslya, Anastasia V., Gurina, Elena V., Stepanov, Artyom A., Iashnikov, Aleksandr V., and Vasilchenko, Alexey S.
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EXTRACELLULAR enzymes , *ACID phosphatase , *SOIL enzymology , *SOIL fertility , *METABOLITES - Abstract
Trichoderma is a soil-dwelling microorganism that has many benefits for plants and is therefore widely used in agriculture. Among the secondary metabolites produced by Trichoderma, gliotoxin (GT) is one of the most studied. The antagonistic effect of GT on other fungi was first discovered by R. Weindling in 1934. He referred to it as the "lethal principle" of Trichoderma. Despite the long history of studying GT, its impact on the soil microbial community has remained largely unexplored. In our work, we investigated the response of the soil microbial community to different doses of GT (10–500 µM per kg) and different durations (7–56 days) of exposure. We measured microbiological parameters (CO2 emission, microbial biomass (MB)), calculated the eco-physiological indices and determined the activity of soil enzymes involved in the C, N, P and S cycles. We identified three types of microbial responses to GT: inhibition, stress and stimulation. The inhibitory effect developed only by day 56 and in the samples treated with 500 μM GT. The stress effect (increased CO2 emission and decreased MB) of GT on microbial communities was predominant. Soil extracellular enzymes also responded to GT to varying degrees. A stimulating effect of GT on enzyme activity was noted for β-D-1,4-cellobiosidase and β-1,4-glucosidase. The activity of arylsulfatase and leucine aminopeptidase decreased under the influence of GT up to day 28, but by the end of the experiment, there was a restoration of activity. We did not observe any significant changes in the activity of β-1,4-xylosidase, β-1,4-N-acetyl-glucosaminidase or acid phosphatase. The results obtained showed that GT at high, "man-made" doses can inhibit the microbiological activity of soil, but at naturally occurring concentrations, it can have a stimulating effect on soil microbiome functionality. [ABSTRACT FROM AUTHOR]
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- 2024
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37. Genomic Characterization of Phage ZP3 and Its Endolysin LysZP with Antimicrobial Potential against Xanthomonas oryzae pv. oryzae.
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Zhang, Muchen, Xu, Xinyan, Lv, Luqiong, Luo, Jinyan, Ahmed, Temoor, Alsakkaf, Waleed A. A., Ali, Hayssam M., Bi, Ji'an, Yan, Chengqi, Gu, Chunyan, Shou, Linfei, and Li, Bin
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TRANSMEMBRANE domains , *XANTHOMONAS oryzae , *TRANSMISSION electron microscopy , *BIOLOGICAL pest control agents , *NUCLEOTIDE sequencing - Abstract
Xanthomonas oryzae pv. oryzae (Xoo) is a significant bacterial pathogen responsible for outbreaks of bacterial leaf blight in rice, posing a major threat to rice cultivation worldwide. Effective management of this pathogen is crucial for ensuring rice yield and food security. In this study, we identified and characterized a novel Xoo phage, ZP3, isolated from diseased rice leaves in Zhejiang, China, which may offer new insights into biocontrol strategies against Xoo and contribute to the development of innovative approaches to combat bacterial leaf blight. Transmission electron microscopy indicated that ZP3 had a short, non-contractile tail. Genome sequencing and bioinformatic analysis showed that ZP3 had a double-stranded DNA genome with a length of 44,713 bp, a G + C content of 52.2%, and 59 predicted genes, which was similar to other OP1-type Xoo phages belonging to the genus Xipdecavirus. ZP3's endolysin LysZP was further studied for its bacteriolytic action, and the N-terminal transmembrane domain of LysZP is suggested to be a signal–arrest–release sequence that mediates the translocation of LysZP to the periplasm. Our study contributes to the understanding of phage–Xoo interactions and suggests that phage ZP3 and its endolysin LysZP could be developed into biocontrol agents against this phytopathogen. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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38. Biocontrol potential of Priestia megaterium YB-3 against Meloidogyne graminicola and its impact on the rhizosphere microbial community.
- Author
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Ye, Shan, Ma, Yihang, Zhou, Siyu, Yan, Rui, Yang, Zhuhong, and Ding, Zhong
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- *
SALICYLIC acid , *JASMONIC acid , *RICE , *CROP losses , *NUCLEOTIDE sequencing , *ROOT-knot nematodes , *BIOLOGICAL pest control agents - Abstract
Root-knot nematodes (Meloidogyne spp.) are highly destructive pests that cause enormous crop losses worldwide. With the increasing awareness of environmental protection, exploring the potential of biocontrol agents has become crucial for nematode management. Priestia megaterium YB-3 was originally isolated from rice rhizosphere soil. In vitro experiments with the fermentation supernatant of YB-3 exhibited up to 96.0% mortality of M. graminicola second-stage juveniles (J2) and 39.2% egg hatching inhibition rate at 48 h after treatment. In greenhouse and field experiments, the application of YB-3 significantly suppressed the gall index, final nematode and egg populations compared to the untreated control, while it promoted rice (Oryza sativa) growth. YB-3 showed consistently high biocontrol efficacy against M. graminicola. Moreover, YB-3 remarkably enhanced the expression of defence genes involved in salicylic acid (OsNPR1, OsWRKY45, OsPR1a), jasmonic acid (OsJaMYB, OsAOS2) and ethylene (OsACS1) signalling pathways at different levels. In addition, YB-3 steadily colonized rice rhizosphere soil at levels ranging from 3.54 × 103 to 9.08 × 104 cfu/g soil. High-throughput sequencing analysis showed that the application of YB-3 had no significant influence on the rice rhizosphere microbial community structure, and the taxa enriched in the YB-3 treatment were Acidobacteria, Bacteroidetes and Ascomycota. YB-3 effectively suppressed M. graminicola infection, possibly because it colonized the rice rhizosphere, induced plant resistance and increased the relative abundances of beneficial microorganisms. Priestia megaterium YB-3 could be a promising and safe biological component in the integrated management of M. graminicola. [ABSTRACT FROM AUTHOR]
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- 2024
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39. Optimización de la temperatura y el tiempo de fermentación para la producción de un extracto antifúngico de Bacillus amyloliquefaciens B17.
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Rivera-Salas, Maria Magdalena, Basilio Heredia, José, Manuel Tovar-Pedraza, Juan, San Martín-Hernández, Cesar, Benigno Valdez-Torres, José, Cruz-Lachica, Isabel, and Saúl García-Estrada, Raymundo
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- *
FUNGAL spores , *BACILLUS amyloliquefaciens , *BIOLOGICAL pest control agents , *FERMENTATION , *FUNGAL growth , *GERMINATION , *PHYTOPATHOGENIC fungi - Abstract
This scientific article presents a study on the optimization of temperature and fermentation time for the production of an antifungal extract from Bacillus amyloliquefaciens B17. Experiments were used to determine the optimal fermentation conditions, and a crude extract was obtained that showed antifungal activity against various phytopathogenic fungi. The optimal concentrations of the extract that inhibited the radial growth of the studied fungi, as well as its effect on the germination of the fungi spores, were determined. Additionally, the production of antifungal lipopeptides by the B. amyloliquefaciens B17 strain and its potential as biocontrol agents in agriculture are discussed. [Extracted from the article]
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- 2024
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40. Genomic Insights into Pseudomonas protegens E1BL2 from Giant Jala Maize: A Novel Bioresource for Sustainable Agriculture and Efficient Management of Fungal Phytopathogens.
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De la Vega-Camarillo, Esaú, Sotelo-Aguilar, Josimar, González-Silva, Adilene, Hernández-García, Juan Alfredo, Mercado-Flores, Yuridia, Villa-Tanaca, Lourdes, and Hernández-Rodríguez, César
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SUSTAINABLE agriculture , *PHYTOPATHOGENIC fungi , *BACTERIAL genomes , *EXTRACELLULAR enzymes , *PEST control - Abstract
The relationships between plants and bacteria are essential in agroecosystems and bioinoculant development. The leaf endophytic Pseudomonas protegens E1BL2 was previously isolated from giant Jala maize, which is a native Zea mays landrace of Nayarit, Mexico. Using different Mexican maize landraces, this work evaluated the strain's plant growth promotion and biocontrol against eight phytopathogenic fungi in vitro and greenhouse conditions. Also, a plant field trial was conducted on irrigated fields using the hybrid maize Supremo. The grain productivity in this assay increased compared with the control treatment. The genome analysis of P. protegens E1BL2 showed putative genes involved in metabolite synthesis that facilitated its beneficial roles in plant health and environmental adaptation (bdhA, acoR, trpE, speE, potA); siderophores (ptaA, pchC); and extracellular enzymes relevant for PGPB mechanisms (cel3, chi14), protection against oxidative stress (hscA, htpG), nitrogen metabolism (nirD, nit1, hmpA), inductors of plant-induced systemic resistance (ISR) (flaA, flaG, rffA, rfaP), fungal biocontrol (phlD, prtD, prnD, hcnA-1), pest control (vgrG-1, higB-2, aprE, pslA, ppkA), and the establishment of plant-bacteria symbiosis (pgaA, pgaB, pgaC, exbD). Our findings suggest that P. protegens E1BL2 significantly promotes maize growth and offers biocontrol benefits, which highlights its potential as a bioinoculant. [ABSTRACT FROM AUTHOR]
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- 2024
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41. A potent endophytic fungus Purpureocillium lilacinumYZ1 protects against Fusarium infection in field‐grown wheat.
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Kimotho, Roy Njoroge, Zheng, Xin, Li, Furong, Chen, Yijun, and Li, Xiaofang
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- *
FUSARIOSIS , *ENDOPHYTIC fungi , *FIELD research , *SURVIVAL rate , *PLANT colonization - Abstract
Summary: Fusarium diseases pose a severe global threat to major cereal crops, particularly wheat. Existing biocontrol strains against Fusarium diseases are believed to primarily rely on antagonistic mechanisms, but not widely used under field conditions.Here, we report an endophytic fungus, Purpureocillium lilacinum YZ1, that shows promise in combating wheat Fusarium diseases. Under glasshouse conditions, YZ1 inoculation increased the survival rate of Fusarium graminearum (Fg)‐infected wheat seedlings from 0% to > 60% at the seedling stage, and reduced spikelet infections by 70.8% during anthesis. In field trials, the application of YZ1 resulted in an impressive 89.0% reduction in Fg‐susceptible spikelets.While a slight antagonistic effect of YZ1 against Fg was observed on plates, the induction of wheat systemic resistance by YZ1, which is distantly effective, non‐specific, and long‐lasting, appeared to be a key contributor to YZ1's biocontrol capabilities. Utilizing three imaging methods, we confirmed YZ1 as a potent endophyte capable of rapid colonization of wheat roots, and systematically spreading to the stem and leaves. Integrating dual RNA‐Seq, photosynthesis measurements and cell wall visualization supported the link between YZ1's growth‐promoting abilities and the activation of wheat systemic resistance.In conclusion, endophytes such as YZ1, which exhibits non‐antagonistic mechanisms, hold significant potential for industrial‐scale biocontrol applications. [ABSTRACT FROM AUTHOR]
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- 2024
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42. Diversity of endophytic bacteria with antimicrobial potential isolated from marine macroalgae from Yacila and Cangrejos beaches, Piura-Peru.
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Vega-Portalatino, Edwin Jorge, Rosales-Cuentas, Miriam Marleni, Tamariz-Angeles, Carmen, Olivera-Gonzales, Percy, Espinoza-Espinoza, Luis Alfredo, Moreno-Quispe, Luz Arelis, and Portalatino-Zevallos, Jube Ciro
- Abstract
Endophytic bacteria found in marine macroalgae have been studied for their potential antimicrobial activity, consequently, they could serve as a valuable source of bioactive compounds to control pathogenic bacteria, yeasts, and fungi. Algae endophytic bacteria were isolated from Caulerpa sp., Ulva sp., Ahnfeltiopsis sp., and Chondracantus chamissoi from Yacila and Cangrejo Beaches (Piura, Peru). Antimicrobial assays against pathogenic bacteria were evaluated using cross-culture, over-plate, and volatile organic compound tests. Afterward, the minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) of selected crude extracts were determined, also ITS molecular analysis, antifungal activity, and PCR of iturin, fengycin, and surfactin genes were performed for bacteria strains exhibiting better activity. Forty-six algae endophytic bacteria were isolated from algae. Ten strains inhibited gram-positive pathogenic bacteria (Enterococcus faecalis, Staphylococcus epidermidis, S. aureus, and Listeria monocytogenes), and 12 inhibited gram-negative bacteria (Escherichia coli and Salmonella enteric sv typhimurium). Bacteria with better activity belong to Bacillus sp., Kluyvera ascorbata, Pantoea agglomerans, Leclercia adecarboxylata, and Enterobacter sp., which only four showed antifungal activities against Candida albicans, C. tropicalis, Colletotrichium sp., Fusarium sp., Fusarium oxysporum, and Alternaria sp. Furthermore, K. ascorbata YAFE21 and Bacillus sp. YCFE4 exhibited iturin and fengycin genes. The results indicate that the algae endophytic bacteria found in this study, particularly K. ascorbata YAFE21, Bacillus sp. YCFR6, L. adecarboxylata CUFE2, Bacillus sp. YUFE8, Enterobacter sp. YAFL1, and P. agglomerans YAFL6, could be investigated as potential producers of antimicrobial compounds due to their broad activity against various microorganisms. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
43. Simultaneous top–down and bottom–up control of cereal aphids by predation, companion planting and host‐plant diversity.
- Author
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Zeller, Julian W., Khudr, Mouhammad Shadi, Fylypchuk, Tetiana V., Bahlei, Oksana V., and Buzhdygan, Oksana Y.
- Subjects
- *
PEST control , *ENERGY crops , *SUSTAINABILITY , *RHOPALOSIPHUM padi , *CHRYSOPERLA carnea - Abstract
Aphids are among the most economically significant pests in cereal crops worldwide. Despite high interest in the natural control of aphids by applying natural enemies, intercropping and companion planting, the concurrent effects of the combinations of these methods due to their synergistic or antagonistic interactions remain largely unknown for both aphids and their host crops. Here we identify the relative effectiveness of simultaneous bottom–up and top–down factors in controlling one of the most economically important species of cereal aphids, the bird cherry‐oat aphid Rhopalosiphum padi L. For this, we conducted microcosm experiments using a full‐factorial design of three aphid‐control treatments including predator presence (i.e., lacewing larvae of Chrysoperla carnea), host‐plant intercropping (i.e., barley alone vs barley in combination with wheat and rye) and companion planting with an aphid‐repellent plant (garlic), and estimated their direct, indirect and interactive effects on aphid density. Our results show strong simultaneous top–down control of the aphid population by predation and bottom–up control by both host‐plant biomass and companion planting with garlic. The use of garlic as a companion plant for cereal crops in our study neither altered crop biomass nor suppressed the efficiency of aphid predator. Our findings suggest that the simultaneous application of aphid predator and companion planting with garlic holds promise as a potential strategy for the natural control of cereal aphid populations on grain crops, without generating related agroecosystem disservices, such as loss in crop production and deterioration of the natural enemies of pests. However, given the controlled lab conditions and limited timeframe of our study, further research is needed to confirm its effectiveness in field conditions to ensure its broader applicability in sustainable agricultural practices. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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44. Constraints and solutions for development and uptake of integrated pest management in the UK.
- Author
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Walters, Keith F. A., Parry, Geraint, Burnstone, Joshua, Grenz, Kristina, Collier, Rosemary, and Bruce, Toby
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INTEGRATED pest control , *PEST control , *AGRICULTURE , *INFORMATION sharing , *INNOVATION management - Abstract
Agricultural improvements that reduce conventional pesticide use and support environmental aims are a priority. Current approaches develop promising alternative products but meet significant challenges in bringing them to market. This article reports findings of an Association of Applied Biologists event at which delegates from relevant industry sectors discussed the establishment of an effective integrated pest management innovation system linking multiple stakeholders. Interrelated recommendations were agreed upon, focused on structured gap analysis, co‐design processes reflecting the complete innovation system, the approval process, application equipment, enhancing grower confidence, integrating knowledge exchange activities, promulgation of public good information and the need for an overarching national action plan and supporting legislation. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
45. Streptomyces virginiae XDS1‐5, an antagonistic actinomycete, as a biocontrol to peach brown rot caused by Monilinia fructicola.
- Author
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Chen, Meijun, Jia, Fan, Chen, Shan, Zheng, Yang, Hu, Yan, Liu, Weina, Liu, Changyun, Sun, Xianchao, Lu, Jinwei, Chen, Guokang, and Ma, Guanhua
- Subjects
- *
BROWN rot , *POSTHARVEST diseases , *MEMBRANE permeability (Biology) , *CELL permeability , *BACILLUS (Bacteria) , *BIOLOGICAL pest control agents , *PEACH - Abstract
BACKGROUND: Peach brown rot, caused by the pathogen Monilinia fructicola, represents a significant postharvest infectious disease affecting peach fruit. This disease is responsible for a substantial increase in fruit decay rates, leading to significant economic losses, often exceeding 50%. Currently, there is a growing interest in identifying biocontrol agents to mitigate peach brown rot, with a predominant interest in Bacillus species. RESULTS: In this investigation, we isolated 410 isolates of actinomycetes from non‐farmland ecosystem soil samples. Subsequently, 27 isolates exhibiting superior inhibitory capabilities were selected. Among these, strain XDS1‐5 demonstrated the most robust fungistatic effect against brown rot disease, achieving an 80% inhibition rate in vitro and a 66% inhibition rate in vivo. XDS1‐5 was identified as belonging to the Streptomyces virginiae species. Furthermore, a fermentation filtrate of XDS1‐5 exhibited the ability to metabolize 34.21% of the tested carbon sources and 7.37% of the tested nitrogen sources. Particularly noteworthy was its capacity to disrupt the cell membrane structure directly, leading to increased cell membrane permeability and cytoplasmic leakage. Additionally, our investigation indicated that indoline, a metabolite produced by XDS1‐5, played a pivotal role in inhibiting the growth of M. fructicola. CONCLUSION: In summary, our study has identified a biocontrol actinomycete, XDS1‐5, with the potential to effectively inhibit postharvest brown rot disease in peaches. This finding holds great significance for the biological control of peach brown rot, offering promising prospects for mitigating the economic losses associated with this devastating disease. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]
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- 2024
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- View/download PDF
46. Characterization and genome analysis of a broad host range lytic phage vB_SenS_TUMS_E19 against Salmonella enterica and its efficiency evaluation in the liquid egg.
- Author
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Torkashvand, Narges, Kamyab, Haniyeh, Shahverdi, Ahmad Reza, Khoshayand, Mohammad Reza, Karimi Tarshizi, Mohammad Amir, and Sepehrizadeh, Zargham
- Subjects
- *
SALMONELLA enterica serovar enteritidis , *WHOLE genome sequencing , *DRUG resistance in bacteria , *TRANSMISSION electron microscopy , *SALMONELLA diseases , *SALMONELLA enterica , *SALMONELLA - Abstract
Salmonella enterica serovars are zoonotic bacterial that cause foodborne enteritis. Due to bacteria's antibiotic resistance, using bacteriophages for biocontrol and treatment is a new therapeutic approach. In this study, we isolated, characterized, and analyzed the genome of vB_SenS_TUMS_E19 (E19), a broad host range Salmonella bacteriophage, and evaluated the influence of E19 on liquid eggs infected with Salmonella enterica serovar Enteritidis. Transmission electron microscopy showed that the isolated bacteriophage had a siphovirus morphotype. E19 showed rapid adsorption (92% in 5 min), a short latent period (18 min), a large burst size (156 PFU per cell), and a broad host range against different Salmonella enterica serovars. Whole-genome sequencing analysis indicated that the isolated phage had a 42 813 bp long genome with 49.8% G + C content. Neither tRNA genes nor those associated with antibiotic resistance, virulence factors, or lysogenic formation were detected in the genome. The efficacy of E19 was evaluated in liquid eggs inoculated with S. Enteritidis at 4 and 25 °C, and results showed that it could effectively eradicate S. Enteritidis in just 30 min and prevented its growth up to 72 h. Our findings indicate that E19 can be an alternative to a preservative to control Salmonella in food samples and help prevent and treat salmonellosis. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
47. A history of strategies and a tapestry of triumphant tales in tackling plant fungal diseases.
- Author
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Bailey, Sarah L., Morier‐Gxoyiya, Césarée, Puthanvila Surendrababu, Swathy, and Saunders, Diane G. O.
- Subjects
- *
FUNGAL diseases of plants , *FOOD supply , *FUNGICIDE resistance , *CROPS , *PLANT diseases - Abstract
Ever since the first crops were domesticated over 10,000 years ago, pests and pathogens have wreaked havoc on crop production. Despite diverse threats from longstanding and emerging diseases, plants continue to play a central role in meeting humanity's requirements for calories and nutrients. In this review, we discuss historical advances made by plant pathologists and breeders that have helped keep many plant diseases at bay. We focus predominantly on fungal diseases of five food crops—rice, wheat, maize, soybean and potato—that provide the bulk of calories consumed globally. We cover such historical triumphs in plant pathology as (i) advanced knowledge of fungal biology revolutionizing disease management strategies, (ii) integration of genetics by the 'wheat wizard' Rowland Biffen and others transforming the landscape of resistance breeding and (iii) the advent of modern fungicides—from a sinking ship in the 1660s—leading to dramatic yield enhancements. We also discuss (iv) the potential for emerging biocontrol agents to holistically promote plant health and yield. Today, the high homogeneity of crops in modern agricultural systems exacerbates yield losses due to disease by increasing pest/pathogen transmission rates and eroding natural spatial barriers to pest/pathogen dispersal. Meanwhile, climate change is altering the compositions of global pest and pathogen populations and expanding pest/pathogen territories with unpredictable consequences. As we look to the future, the strength of the plant pathology community remains central to developing innovative solutions to tackle these complex and expanding threats to plant health and secure a plentiful food supply. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
48. pH对木霉菌和镰刀菌生长及其竞争的影响.
- Author
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包文杰, 申凌婕, 夏尚文, and 杨效东
- Abstract
Copyright of Chinese Journal of Applied Ecology / Yingyong Shengtai Xuebao is the property of Chinese Journal of Applied Ecology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
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- 2024
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49. Biocontrol Potential of Endophytic Fungi against Orobanche Infestations in Fruit Crops: A Case Study in Delta State, Nigeria.
- Author
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UKPENE, A. O. and ODUMA, E. O.
- Abstract
This study investigated the potential of endophytic fungi as biocontrol agents against Orobanche infestations in fruit crops such as chickpea, soybean, lentil, and pea plants from different sites in Ika agricultural habitats in Delta State, Nigeria, using appropriate standard methods. Fusarium sp. showed significant inhibition of Orobanche crenata (75%) by mycotoxin production and Penicillium sp. (65%) by biocombustion. Field trials showed a significant reduction in Orobanche-infested areas, with Fusarium sp. (40% to 10%) and Penicillium sp. (30% to 10%) treatments showing significant yield improvement (20% and 22%, respectively). The study concluded that selected fungi, especially Fusarium sp. and Penicillium sp., are effective control agents for Orobanche in legume crops. This information contributes to sustainable agriculture by providing environmentally friendly alternatives to pesticides, crop yields, and economic losses from plants, and it reduces the incidence of pests. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
50. Endophytic fungi from Dichrocephala integrifolia: Diversity, antifungal properties, enzymatic activities, and plant growth promotion.
- Author
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NONGTHOMBAM, KISTU SINGH, MUTUM, SHYAMKESHO SINGH, and PANDEY, RADHA RAMAN
- Subjects
ENDOPHYTIC fungi ,ALTERNARIA alternata ,BIOLOGICAL pest control agents ,HYDROCYANIC acid ,MEDICINAL plants - Abstract
Dichrocephala integrifolia is a wild medicinal plant utilised in traditional healing and Ayurveda to cope up with several health issues by various groups of people around the world. Medicinal plants are associated with diverse fungal endophytes with potential bioactive properties. In this investigation, 26 fungal endophytes were isolated from D. integrifolia and three sterile forms using the Petri plate culture method. The endophytic isolation rate was highest for inflorescence (35.97%) and lowest for stem (15.61%). The highest colonization frequency was shown by F. solani (8.37%) and the lowest by Sterile morphotype 3 (1.36%). Out of the four plant parts, inflorescence was found to be highly infected, displaying an infection rate of 93.43% and the least infection occurred in the stem with 45%. The maximum number of isolated endophytic fungi belongs to the class Sordariomycetes, with a relative occurrence (%) of 71.72%. The Simpson's diversity index reveals that the leaf endophytes were more diverse (0.94). Qualitative antifungal activity of the sporulating isolates against Curvularia lunata has shown that the maximum number of endophytes possessed Class 3 antagonism. Four isolates were selected based on screening of their antagonistic activity and their antifungal inhibition was calculated against nine fungal phytopathogens. Maximum inhibition (100%) was shown by Trichoderma sp. 2 (S2B2) against Alternaria alternata, A. brassicicola, Colletotrichum capsici, C. lunata, and Ustilaginoidea virens and least inhibition by Gliocladium sp. 1 (19.78%) against C. lunata. The four isolates were found to produce protease, lipase, amylase and cellulase enzymes. The isolates produced ammonia and hydrogen cyanide, but none of the isolates could solubilize phosphate. Potent biocontrol agents are much needed to replace synthetic chemicals and restore soil microflora. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
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