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Автор: Grafiati
Опубліковано: 11 вересня 2023

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1

Wong, Clement Kiing Fook, Dzarifah Zulperi, Noor Baity Saidi, and Ganesan Vadamalai. "A Consortium of Pseudomonas aeruginosa and Trichoderma harzianum for Improving Growth and Induced Biochemical Changes in Fusarium Wilt Infected Bananas." Tropical Life Sciences Research 32, no. 1 (March 31, 2021): 23–45. http://dx.doi.org/10.21315/tlsr2021.32.1.2.

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Анотація:
Fusarium wilt of banana cannot be effectively controlled by current control strategies. The most virulent form that caused major losses in the banana production is Fusarium oxysporum f. sp. cubense Tropical Race 4 (Foc-TR4). Biocontrol of Foc-TR4 using microbial antagonists offers a sustainable and eco-friendly alternative. A consortium of biocontrol agents (BCAs), Pseudomonas aeruginosa DRB1 and Trichoderma harzianum CBF2 was formulated into pesta granules, talc powder, alginate beads and liquid bioformulations. Previous study indicated bioformulations containing both BCAs successfully reduced the disease severity of Foc-TR4. To date, the biocontrol mechanism and plant growth promoting (PGP) traits of a consortium of BCAs on infected bananas have not been explored. Therefore, the study was undertaken to investigate the effect of a consortium of DRB1 and CBF2 in the growth and biochemical changes of Foc-TR4 infected bananas. Results indicated pesta granules formulation produced bananas with higher biomass (fresh weight – 388.67 g), taller plants (80.95 cm) and larger leaves (length – 39.40 cm, width – 17.70 cm) than other bioformulations. Applying bioformulations generally produced plants with higher chlorophyll (392.59 μg/g FW–699.88 μg/g FW) and carotenoid contents (81.30 μg/g FW–120.01 μg/g FW) compared to pathogen treatment (chlorophyll – 325.96 μg/g FW, carotenoid – 71.98 μg/g FW) which indicated improved vegetative growth. Bioformulation-treated plants showed higher phenolic (49.58–93.85 μg/g FW) and proline contents (54.63 μg/g FW–89.61 μg/g FW) than Foc-TR4 treatment (phenolic – 46.45 μg/g FW, proline – 28.65 μg/g FW). The malondialdehylde (MDA) content was lower in bioformulation treatments (0.49 Nm/g FW–1.19 Nm/g FW) than Foc-TR4 treatment (3.66 Nm/g FW). The biochemical changes revealed that applying bioformulations has induced host defense response by increasing phenolic and proline contents which reduced root damage caused by Foc-TR4 resulting in lower MDA content. In conclusion, applying bioformulations containing microbial consortium is a promising method to improve growth and induce significant biochemical changes in bananas leading to the suppression of Foc-TR4.
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2

Syromyatnikov, Mikhail Y., Ekaterina Y. Nesterova, Maria I. Gladkikh, Anna A. Tolkacheva, Olga V. Bondareva, Vladimir M. Syrov, Nina A. Pryakhina, and Vasily N. Popov. "High-Throughput Sequencing as a Tool for the Quality Control of Microbial Bioformulations for Agriculture." Processes 10, no. 11 (November 1, 2022): 2243. http://dx.doi.org/10.3390/pr10112243.

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Анотація:
Microbial bioformulations, due to their positive impact on the growth and development of plants, as well as the absence of harmful effects on the environment and humans, have a vast potential for mass introduction into agriculture. Assessing the quality of bioformulations, especially complex ones, is a difficult task. In this study, we show that high-throughput sequencing can be an effective tool for the quality control and safety of microbial bioformulations. By the method of high-throughput sequencing on the MiSeq platform, we studied 20 samples of commercially available microbial bioformulations. In parallel with this, bioformulations were studied by classical microbiological methods. The analysis showed the presence of extraneous undeclared bacterial genera by the manufacturer. Only 10% of the bioformulations fully corresponded to the commercial composition, and another 10% of the bioformulations did not contain the bacteria declared by the manufacturer in their composition at all. The bacterial composition of 80% of the bioformulations partially corresponded to the composition indicated on the package. The most frequent microbial bioformulations contaminants were Enterococcus, Lactobacillaceae, Klebsiella, Escherichia-Shigella and Allorhizobium-Neorhizobium-Pararhizobium-Rhizobium. Universal methods for the quality control of bioformulations are needed. The advantages of high-throughput sequencing for the evaluation of bioformulations are considered in this work.
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3

Mishra, Isha, Tahmish Fatima, Dilfuza Egamberdieva, and Naveen Kumar Arora. "Novel Bioformulations Developed from Pseudomonas putida BSP9 and Its Biosurfactant for Growth Promotion of Brassica juncea (L.)." Plants 9, no. 10 (October 12, 2020): 1349. http://dx.doi.org/10.3390/plants9101349.

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Анотація:
In this study, Pseudomonas putida BSP9 isolated from rhizosphere of Brassica juncea was investigated for its plant growth promoting and biosurfactant producing activities. The isolate showed the ability to produce indole acetic acid, siderophore, phosphate solubilization activity and was an efficient producer of biosurfactant. Purification (of the biosurfactant) by thin layer chromatography (TLC) and further characterization by Fourier transform infrared spectroscopy (FTIR) revealed that biosurfactant produced by the isolate belonged to the glycolipid category, which is largely produced by Pseudomonas sp. In addition, liquid chromatography-mass spectroscopy (LC-MS) analysis showed the presence of a mixture of six mono-rhamnolipidic and a di-rhamnolipidic congeners, confirming it as a rhamnolipid biosurfactant. Bioformulations were developed using BSP9 and its biosurfactant to check their impact on promoting plant growth in B. juncea. It was noted from the study that bioformulations amended with biosurfactant (singly or in combination with BSP9) resulted in enhancement in the growth parameters of B. juncea as compared to untreated control. Maximum increment was achieved by plants inoculated with bioformulation that had BSP9 plus biosurfactant. The study also suggested that growth promotion was significant up to a threshold level of biosurfactant and that further increasing the concentration did not further enhance the growth parameter values of the plant. The study proves that novel bioformulations can be developed by integrating plant growth promoting rhizobacteria (PGPR) and their biosurfactant, and they can be effectively used for increasing agricultural productivity while minimizing our dependence on agrochemicals.
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4

Nerek, Ewelina, and Barbara Sokołowska. "<i>Pseudomonas</i> spp. in biological plant protection and growth promotion." AIMS Environmental Science 9, no. 4 (2022): 493–504. http://dx.doi.org/10.3934/environsci.2022029.

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Анотація:
<abstract> <p>Nowadays in worldwide agriculture, sustainable strategies are implemented to reduce negative effects on ecosystems created by conventional practice, mainly environmental pollution caused by intensive use of fertilizers and chemical plant protection products. Bacteria from the genus <italic>Pseudomonas</italic> can be considered biocontrol and plant growth-promoting agents due to their various plant beneficial traits e.g., siderophores production, phytohormones synthesis, antagonism against phytopathogenic fungi. This is a reason for increasing researchers' interest in improving of existing or elaborating new technologies that enable the effective application of these bacteria in agriculture. Pseudomonads are non-sporulating bacteria and it is a major constraint for creating bioformulation for commercial use with a sufficiently high stable number of viable cells during shelf-life. Therefore, scientists are making efforts to improve techniques of bioformulations to enable large-scale production and use of pseudomonads under field conditions. The aim of this review is to describe traits of <italic>Pseudomonas</italic> spp. which are useful in plant protection and growth-promotion and to highlight examined techniques for preparing bioformulations containing pseudomonads with sufficiently long shelf life.</p> </abstract>
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5

Jayaraman, Thiruppathi, Vani Chandrapragasam, and Kavitha Subbiah. "Development of bioformulations using plant extracts for the control of dengue vector, Aedes aegypti." Journal of Applied and Natural Science 15, no. 2 (June 20, 2023): 760–66. http://dx.doi.org/10.31018/jans.v15i2.4518.

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Анотація:
Dengue fever is a life-threatening illness in humans caused by the dengue virus belonging to Flaviviridae, affecting mainly in tropical and subtropical countries. The spread of this disease is through the dengue vector Aedes aegypti. Development of biodegradable, environmentally safe, low-cost larvicides is essential to overcome the resurgence effects of chemical insecticides. The present study included the development of bioformulations from larvicidal polar solvent extracts of the plant leaves. The solvents used for the extractions were ethyl acetate for Aloe vera (A), ethanol for Carica papaya (B), and methanol for Parthenium hysterophorous (C). Bioformulations in different combinations like A, B, C, A+B, B+C, C+A, and A+B+C with the concentrations of 50ppm, 100ppm, 150ppm, 200ppm, 250ppm and 300ppm were tested against the IVth instar larvae of Aedes aegypti and the results were recorded for every 24h 48h and 72h . The bioformulation extracts B+C (300ppm) showed 90 percent mortality of larvae after 72 h of treatment. It was concluded that the larvae's mortality was caused by the presence of bioactive compounds of B+C extracts. This formulation can be considered an effective biopesticide for the dengue vector Ae. aegypti IVth instar larvae.
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6

Samavat, Samaneh, Asghar Heydari, Hamid Reza Zamanizadeh, Saeed Rezaee, and Ali Alizadeh Aliabadi. "Application of new bioformulations of Pseudomonas aureofaciens for biocontrol of cotton seedling damping-off." Journal of Plant Protection Research 54, no. 4 (December 30, 2014): 334–39. http://dx.doi.org/10.2478/jppr-2014-0050.

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Анотація:
Abstract Pseudomonas aureofaciens (30-84) is a phenazine producing bacterium and reported as asuccessful biocontrol agent of some plant fungal pathogens. In the present study, the possibility of biological control of cotton damping-off caused by Rhizoctonia solani (AG-4) through phenazine production by the 30-84 strain, was investigated. In the search for the development of bioformulations of Pa (m) (PhzR–) and Pa (w) (PhzR+) strains of 30-84, four new carriers including soybean meal (SM), cottonseed meal (CM), rice bran (RB), and talc powder (TAL) were selected. The efficacy of bacterial formulations in reducing disease incidence was evaluated in four intervals (15, 30, 45, and 60 days after sowing), and compared with each bacterial suspension efficacy under green-house conditions. The results revealed that organic carriers were more effective than talc powder. It was also found that all the bioformulations were more efficient than each bacterial suspension. The most effective in reducing disease incidence was Pa (w) + RB. In contrast, Pa (m), Pa (m) + TAL, and Pa (m) + RB did not significantly suppress the disease in comparison with the infested control. Thus, phenazine production as a main biocontrol mechanism of P. aureofaciens (30-84) may be affected by the kind of carriers used for the bioformulation development.
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7

Balla, Amel, Allaoua Silini, Hafsa Cherif-Silini, Ali Chenari Bouket, Faizah N. Alenezi, and Lassaad Belbahri. "Recent Advances in Encapsulation Techniques of Plant Growth-Promoting Microorganisms and Their Prospects in the Sustainable Agriculture." Applied Sciences 12, no. 18 (September 8, 2022): 9020. http://dx.doi.org/10.3390/app12189020.

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Анотація:
In addition to changing global demography and global warming, agricultural production systems around the world are threatened by intensive agricultural practices (overuse of land and excessive use of chemical fertilizers and pesticides) that deplete soils by affecting their dynamics and their fertility, pollute the environment, lower production, and alter biodiversity on a large scale. The use of bioformulations based on PGPMs (plant growth-promoting microorganisms) seems to be a promising and sustainable strategy to overcome these threats, thanks to their tolerance to various biotic and abiotic stresses and via their beneficial effects in promising plant growth, pest protection, bioremediation, and restoration of degraded lands. In recent years, particular attention has been paid to encapsulated formulations because they offer several advantages over conventional bioformulation (liquid and solid) related to shelf life, problems of survival and viability in the environment, and the efficiency of rhizospheric colonization. This review focuses on the types of encapsulations and the different technologies used in this process as well as the most commonly used substrates and additives. It also provides an overview on the application of encapsulated bioformulations as biofertilizers, biopesticides, or other biostimulators and summarizes the knowledge of the scientific literature on the development of nanoencapsulation in this sector.
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8

Mahdizadehnaraghi, Razak, Asghar Heydari, Hamid Reza Zamanizadeh, Saeed Rezaee, and Jafar Nikan. "Biological control of garlic (Allium) white rot disease using antagonistic fungi-based bioformulations." Journal of Plant Protection Research 55, no. 2 (April 1, 2015): 136–41. http://dx.doi.org/10.1515/jppr-2015-0017.

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Анотація:
Abstract White rot disease caused by Sclerotium cepivorum is a major yield reducing fungal disease of garlic found throughout the world, including Iran. The use of chemical fungicides is the most common control method for the disease at the present time. This control measure is costly, contaminates the environment, and harms non-target organisms. Moreover, since the pathogen is soil-borne, chemical control strategy is not quite effective against the disease. In this study, we tried to develop and prepare some new bioformulations based on three antagonistic fungal species: Trichoderma harzianum, T. asperellum, and Talaromyces flavus. Six isolates of the above-mentioned fungi were used along with the organic and inorganic carriers, rice bran and talc, to develop twelve new bioformulations. The effectiveness of the bioformulations were then evaluated in the control of garlic white rot disease in the greenhouse conditions in comparison with the healthy control, infected control, and the commonly used fungicide Carbendazim. The design of the experiment was completely randomised. There were 15 treatments each, with four replicates. The results of the greenhouse experiments indicated that almost all the developed bioformulations resulted in significant reductions (34.50 to 64.50%) in the incidence of white rot disease. In general, bioformulations which contained the organic carrier (rice bran) performed more effectively than those that contained the inorganic carrier (talc). Bioformulations which contained an organic carrier (rice bran) were as effective as the fungicide Carbendazim.
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9

Chandurkar, Preeti, Tanuja Murab, and Nidhi Gujar. "EFFECT OF BIOFORMULATIONS OF PSEUDOMONAS AERUGINOSA PC1 ON GROWTH CHARACTERISTICS OF TRITICUM AESTIVUM." Journal of Advanced Scientific Research 12, no. 03 (August 31, 2021): 175–80. http://dx.doi.org/10.55218/jasr.202112325.

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Wheat (Triticum aestivum) is the major crop of India. Madhya Pradesh is one of the largest producers of wheat. The present study was conducted to develop new bioformulations and evaluate their efficacy in growth promotion of Triticum aestivum (Wheat). The interest is to use inorganic carrier i.e. talcum and bentonite based bioformulations of Pseudomonas aeruginosa PC1 to replace chemical agents in fertilizing soils because chemical agents harms the crops ultimately lowering its productivity and quality. The Pseudomonas aeruginosa possesses the ability of siderophore production and phosphate solubilization. The polybag experiment results of 60 days after sowing wheat seeds showed that both the Bentonite and Talcum based bioformulations of Pseudomonas aeruginosa PC1 significantly increased chlorophyll content, root and shoot length, number of tillers and fresh and dry weight of wheat plant compared to uninoculated controls. It has been suggested that this strain can be used for large scale production to prepare an effective bioinoculant for eco-friendly and sustainable production of wheat.
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10

Gupta, Amrita. "Azospirillum: Bioformulations, Product Quality and Survivability." International Journal for Research in Applied Science and Engineering Technology V, no. VIII (August 29, 2017): 467–70. http://dx.doi.org/10.22214/ijraset.2017.8064.

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11

Silva, Ana, Roberto Alves, Elza Lima, and Vera Lima. "Bioformulations in Pest Control – A Review." Annual Research & Review in Biology 5, no. 6 (January 10, 2015): 535–43. http://dx.doi.org/10.9734/arrb/2015/12395.

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12

R, VIVEKANANTHAN, RAVI M, SIBLE G V, PRAKASAM V, and SAMIYAPPAN R. "Pseudomones fluorescens (FP7) amended with chitin bioformulation for the management of anthracnose pathogen in mango cultivatar Alphonso." Madras Agricultural Journal 91, December (2004): 475–82. http://dx.doi.org/10.29321/maj.10.a00138.

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Анотація:
Certain Plant Growth-Promoting Rhizobacteria (PGPR) and yeast antagonists were evaluated against mango anthracnose incited by Colletotorichum gloeosporioides (Penz.) both in vitro and in vivo conditions. Among the antagonists, Pseudomonas fluorescens (FP7) significantly reduced the in vitro growth of C. gloeosporioides. For field evaluation, commercial cultivar Alphonso was selected. Talc-based bioformulations with and without chitin amendment were prepared and sprayed at 15 days and 30 days intervals. The spray was initiated from pre-flowering stage with a concentration of 0.5%. Among the bioformulations, P. fluorescens (FP7) amended with chitin sprayed at 15 days intervals was found to be significant in reducing the anthracnose incidence and subsequently increased panicle number, mean number of fruits and fruit yield.
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13

Sagita, Nur Amlika, Nurmiaty Nurmiaty, and Miss Rahman Yassin. "Vegetatife Growth Response Response of Maize Application Of Several Types Of Liquid Organic Fertilizer Bioformulations." PROPER : Jurnal Penelitian Pertanian Terapan 1, no. 1 (June 3, 2023): 8–14. http://dx.doi.org/10.61119/prp.v1i1.347.

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Анотація:
One of the causes of low maize yields is soil fertility. The depreciation of soil fertility is partly due to the loss of soil nutrients, which can occur through crop harvesting (nutrient harvesting), run off and leaching. In addition, farmers tend to use chemical fertilizers and pesticides as a means of controlling pests, diseases and weeds. This study was conducted with the aim to see the effect of various bioformulations of Liquid Organic fertilizer enriched with goat urine, T. harzianum and humic acid on better growth and production of corn plants. This research method was arranged in the form of a Completely Randomized Group Design with 5 treatments of LOF bioformulation combination applications made from Goat Urine, Humic Acid and T. harzianum. Those are control (without LOF), goat urine, goat urine and T. harzianum, goat urine and humic acid, and goat urine, T. harzianum and humic acid. The results showed that the application of goat urine, T. harzianum and humic acid gave the highest increase in corn plant height (203.00 cm), the largest number of leaves (11.83 leaves), the largest stem diameter (1.27 cm), the heaviest cob weight (17.67 g). The treatment of LOF enriched with goat urine, T. harzianum and humic acid showed very high results on all parameters measured.
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14

Comite, Ernesto, Christophe El-Nakhel, Youssef Rouphael, Valeria Ventorino, Olimpia Pepe, Assunta Borzacchiello, Francesco Vinale, et al. "Bioformulations with Beneficial Microbial Consortia, a Bioactive Compound and Plant Biopolymers Modulate Sweet Basil Productivity, Photosynthetic Activity and Metabolites." Pathogens 10, no. 7 (July 10, 2021): 870. http://dx.doi.org/10.3390/pathogens10070870.

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Анотація:
Increasing attention is being given to the development of innovative formulations to substitute the use of synthetic chemicals to improve agricultural production and resource use efficiency. Alternatives can include biological products containing beneficial microorganisms and bioactive metabolites able to inhibit plant pathogens, induce systemic resistance and promote plant growth. The efficacy of such bioformulations can be increased by the addition of polymers as adjuvants or carriers. Trichoderma afroharzianum T22, Azotobacter chroococcum 76A and 6-pentyl-α-pyrone (6PP; a Trichoderma secondary metabolite) were administrated singularly or in a consortium, with or without a carboxymethyl cellulose-based biopolymer (BP), and tested on sweet basil (Ocimum basilicum L.) grown in a protected greenhouse. The effect of the treatments on basil yield, photosynthetic activity and secondary metabolites production was assessed. Photosynthetic efficiency was augmented by the applications of the bioformulations. The applications to the rhizosphere with BP + 6PP and BP + T22 + 76A increased the total fresh weight of basil by 26.3% and 23.6%, respectively. Untargeted LC-MS qTOF analysis demonstrated that the plant metabolome was significantly modified by the treatments. Quantification of the profiles for the major phenolic acids indicated that the treatment with the T22 + 76A consortium increased rosmarinic acid content by 110%. The use of innovative bioformulations containing microbes, their metabolites and a biopolymer was found to modulate the cultivation of fresh basil by improving yield and quality, thus providing the opportunity to develop farming systems with minimal impact on the environmental footprint from the agricultural production process.
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15

Biliavska, L. "Impact of metabolic biopreparations based on soil streptomycetes on productivity of spring wheat." Agroecological journal, no. 3 (September 30, 2016): 74–83. http://dx.doi.org/10.33730/2077-4893.3.2016.248867.

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Анотація:
It has been established the new multifunctional metabolic bioformulations based on a set of biologically active substances from soil sreptomycetes Avercom, with the addition of elicitors of salicylic acid or chitosan, Violar and Phytovit promote the growth of microorganisms of major ecological and functional groups in the root area of spring wheat, and they increase the activity of the enzyme phenylanine- ammonia-lyase (PAL) in plant cells that indicates the induction of plant resistance to pathogens. This reduces the destruction of plants of spring wheat by the root rot and plant-parasitic nematodes. As a consequence of the action of Averсom nova-2, Violar and Phytovit the grain yield increased by 16.9–32.5% relative to control and 10.9–25.7% compared with chemical disinfectant Vitavaks 200 FF. At the same time the quality grain and proficiency were increased. The reduction of pesticide load on agrocenoses, an improvement of the ecological condition and the raise of productivity of agroecosystems can be achieved by using the new multifunctional metabolic bioformulations.
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16

Elhadidy, Abeer. "PERFORMANCE OF SOME NEW BIOFORMULATIONS AGAINST TOMATO FUSARIUM WILT." Egyptian Journal of Desert Research 69, no. 1 (June 30, 2019): 1–19. http://dx.doi.org/10.21608/ejdr.2019.10162.1022.

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17

Joshi, M. J., K. s. VerMa, and r. s. Chandel. "Feeding inhibition with bioformulations in cut worms Agrotis ipsilon (Hufnagel)." Indian Journal of Entomology 82, no. 1 (2020): 134. http://dx.doi.org/10.5958/0974-8172.2020.00030.9.

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18

Bora, Popy, L. C. Bora, and P. C. Deka. "Efficacy of Substrate Based Bioformulation of Microbial Antagonists in the Management of Bacterial Disease of some Solanaceous Vegetables in Assam." Journal of Biological Control 30, no. 1 (March 1, 2016): 49. http://dx.doi.org/10.18311/jbc/30/1/6459.

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Анотація:
A study was undertaken to explore effective organic substrate-based bioformulation using virulent cells of antagonists <em>Pseudomonas fluorescens, Bacillus subtilis</em> and <em>Trichoderma viride</em> during 2010-13. Three organic substrates, viz. vermicompost, farm yard manure and mustard oil cake (MOC) were compared for mass multiplication of the antagonists. All the substrate based antagonists showed effective results in suppression of bacterial wilt <em>(Ralstonia solanacearum</em> Yabuchi et al.) incidence in vegetable crops tomato, brinjal and chill. Quantitative aspect of population dynamics of the antagonists at different days of storage was made to evaluate the shelflife of the biopesticide and found that the antagonists maintained a steady population count upto 180 days of storage at room temperature. The combination of vermicompost <em>P. fluorescens</em>, carboxy methyl cellulose (CMC) and mannitol showed best shelf-life as it maintained highest population recovery of<em> P. fluorescens</em> and <em>B. subtillis</em> at different days of storage. The combination of MOC, <em>T. viride</em>, CMC and mannitol showed best shelf-life in case of <em>T. viride</em> and maintained highest population recovery of the antagonist at different days of storage. Application of the substrate based bioformulations as combination of seed treatment, root application, soil application at transplanting and soil application at 30 days after transplanting showed minimum wilt incidence and maximum yield in tomato, brinjal and chilli. Maximum disease reduction (81.85%) was shown by bioformulation comprising <em>P. fluorescens</em> with vermicompost as substrate followed by <em>T. viride</em> with MOC as substrate (79.07%). Following the trend of reduction in disease incidence, yield was maximum in tomato (36.0 t/ ha), when the crop was treated with vermicompost based <em>P. fluorescens</em> followed by treatment with MOC based <em>T. viride</em> (33.35 t/ha). Yield of brinjal (27.60 t/ha) and chilli (26.30 t/ha) was similarly maximum when bioformulation of vermicompost based <em>P. fluorescens</em> was applied.
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Joshi, Manishkumar J., K. S. Verma, R. S. Chandel, A. G. Inamdar, Shruti Kaushal, and Abhishek Rana. "Efficacy of Bioformulations Against Cut Worm Agrotis Ipsilon Hufnagel in Potato." Indian Journal of Entomology 83, no. 3 (2021): 454–58. http://dx.doi.org/10.5958/0974-8172.2020.00203.5.

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20

Iutynska, G. O., L. O. Biliavska, and V. Ye Kozyritska. "Development Strategy for the New Environmentally Friendly Multifunctional Bioformulations Based on Soil Streptomycetes." Mikrobiolohichnyi Zhurnal 79, no. 1 (January 30, 2017): 22–33. http://dx.doi.org/10.15407/microbiolj79.01.022.

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21

Jamalli, Omid, K. S. Verma, and R. S. Chandel. "Feeding inhibition of Helicoverpa armigera (Hübner) larvae to bioformulations on tomato leaves." Journal of Entomological Research 45, no. 1 (2021): 135–40. http://dx.doi.org/10.5958/0974-4576.2021.00021.9.

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22

Kolombet, L. V., I. A. Dunaitsev, and S. K. Zhigletsova. "Combined properties of microorganisms – new approach to designing bioformulations for plant growing." Bacteriology 1, no. 1 (2016): 54–61. http://dx.doi.org/10.20953/2500-1027-2016-1-54-61.

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23

Everts, Peter A., Timothy Mazzola, Kenneth Mautner, Pietro S. Randelli, and Luga Podesta. "Modifying Orthobiological PRP Therapies Are Imperative for the Advancement of Treatment Outcomes in Musculoskeletal Pathologies." Biomedicines 10, no. 11 (November 15, 2022): 2933. http://dx.doi.org/10.3390/biomedicines10112933.

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Анотація:
Autologous biological cellular preparations have materialized as a growing area of medical advancement in interventional (orthopedic) practices and surgical interventions to provide an optimal tissue healing environment, particularly in tissues where standard healing is disrupted and repair and ultimately restoration of function is at risk. These cellular therapies are often referred to as orthobiologics and are derived from patient’s own tissues to prepare point of care platelet-rich plasma (PRP), bone marrow concentrate (BMC), and adipose tissue concentrate (ATC). Orthobiological preparations are biological materials comprised of a wide variety of cell populations, cytokines, growth factors, molecules, and signaling cells. They can modulate and influence many other resident cells after they have been administered in specific diseased microenvironments. Jointly, the various orthobiological cell preparations are proficient to counteract persistent inflammation, respond to catabolic reactions, and reinstate tissue homeostasis. Ultimately, precisely delivered orthobiologics with a proper dose and bioformulation will contribute to tissue repair. Progress has been made in understanding orthobiological technologies where the safety and relatively easy manipulation of orthobiological treatment tools has been demonstrated in clinical applications. Although more positive than negative patient outcome results have been registered in the literature, definitive and accepted standards to prepare specific cellular orthobiologics are still lacking. To promote significant and consistent clinical outcomes, we will present a review of methods for implementing dosing strategies, using bioformulations tailored to the pathoanatomic process of the tissue, and adopting variable preparation and injection volume policies. By optimizing the dose and specificity of orthobiologics, local cellular synergistic behavior will increase, potentially leading to better pain killing effects, effective immunomodulation, control of inflammation, and (neo) angiogenesis, ultimately contributing to functionally restored body movement patterns.
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24

Nath, H. K. Deva, and B. C. Das. "Evaluation of Fungicides and Bioformulations against Ustilaginoidea virens causing Rice False Smut Disease." International Journal of Current Microbiology and Applied Sciences 9, no. 11 (November 10, 2020): 3165–70. http://dx.doi.org/10.20546/ijcmas.2020.911.381.

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25

Cîrstea, Georgiana, Mirela Călinescu, Cătălin Ducu, Sorin Moga, Cristina Mihăescu, Dorin Sumedrea, Camelia Ungureanu, Mădălina Butac, and Mihai-Vlad Vălu. "BIOFORMULATIONS OF PLANT PROTECTION PRODUCTS TO CONTROL PODOSPHAERA LEUCOTRICHA AND VENTURIA INAEQUALIS PHYTOPATHOGENS." Fruit Growing Research 35 (December 20, 2019): 61–64. http://dx.doi.org/10.33045/fgr.v35.2019.09.

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26

Ardakani, S. Sobhan, A. Heydari, L. Tayebi, and M. Mohammadi. "Promotion of Cotton Seedlings Growth Characteristics By Development and Use of New Bioformulations." International Journal of Botany 6, no. 2 (March 15, 2010): 95–100. http://dx.doi.org/10.3923/ijb.2010.95.100.

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27

Marcel, Yévèdo Adoko, Adoukè Agbodjato Nadège, Pacôme Noumavo Agossou, Amogou Olaréwadjou, Adjanohoun Adolphe, and Baba-Moussa Lamine. "Bioformulations based on plant growth promoting rhizobacteria for sustainable agriculture: Biofertilizer or Biostimulant?" African Journal of Agricultural Research 17, no. 9 (September 30, 2021): 1256–60. http://dx.doi.org/10.5897/ajar2021.15756.

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28

Arora, Naveen Kumar, and Jitendra Mishra. "Prospecting the roles of metabolites and additives in future bioformulations for sustainable agriculture." Applied Soil Ecology 107 (November 2016): 405–7. http://dx.doi.org/10.1016/j.apsoil.2016.05.020.

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29

Kiruba N, Jennifer Michellin, and Agnieszka Saeid. "An Insight into Microbial Inoculants for Bioconversion of Waste Biomass into Sustainable “Bio-Organic” Fertilizers: A Bibliometric Analysis and Systematic Literature Review." International Journal of Molecular Sciences 23, no. 21 (October 27, 2022): 13049. http://dx.doi.org/10.3390/ijms232113049.

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Анотація:
The plant-microbe holobiont has garnered considerable attention in recent years, highlighting its importance as an ecological unit. Similarly, manipulation of the microbial entities involved in the rhizospheric microbiome for sustainable agriculture has also been in the limelight, generating several commercial bioformulations to enhance crop yield and pest resistance. These bioformulations were termed biofertilizers, with the consistent existence and evolution of different types. However, an emerging area of interest has recently focused on the application of these microorganisms for waste valorization and the production of “bio-organic” fertilizers as a result. In this study, we performed a bibliometric analysis and systematic review of the literature retrieved from Scopus and Web of Science to determine the type of microbial inoculants used for the bioconversion of waste into “bio-organic” fertilizers. The Bacillus, Acidothiobacillus species, cyanobacterial biomass species, Aspergillus sp. and Trichoderma sp. were identified to be consistently used for the recovery of nutrients and bioconversion of wastes used for the promotion of plant growth. Cyanobacterial strains were used predominantly for wastewater treatment, while Bacillus, Acidothiobacillus, and Aspergillus were used on a wide variety of wastes such as sawdust, agricultural waste, poultry bone meal, crustacean shell waste, food waste, and wastewater treatment plant (WWTP) sewage sludge ash. Several bioconversion strategies were observed such as submerged fermentation, solid-state fermentation, aerobic composting, granulation with microbiological activation, and biodegradation. Diverse groups of microorganisms (bacteria and fungi) with different enzymatic functionalities such as chitinolysis, lignocellulolytic, and proteolysis, in addition to their plant growth promoting properties being explored as a consortium for application as an inoculum waste bioconversion to fertilizers. Combining the efficiency of such functional and compatible microbial species for efficient bioconversion as well as higher plant growth and crop yield is an enticing opportunity for “bio-organic” fertilizer research.
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30

Khare, Ekta, and Neha Srivastava. "Development and Evaluation of Bioformulations Using Enrichment Material from Plant Growth Promoting Fluorescent Pseudomonads." Climate Change and Environmental Sustainability 4, no. 2 (2016): 203. http://dx.doi.org/10.5958/2320-642x.2016.00021.1.

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31

Siunova, T. V., T. O. Anokhina, O. I. Sizova, S. L. Sokolov, O. I. Sazonova, V. V. Kochetkov, A. M. Boronin, S. G. Patil, and A. B. Chudhari. "PGPR Pseudomonas Strains Promising for the Development of Bioformulations for Plant Protection and Stimulation." Biotekhnologiya, no. 2 (2017): 56–67. http://dx.doi.org/10.21519/0234-2758-2017-33-2-56-67.

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32

Nagachandrabose, Seenivasan. "Liquid bioformulations for the management of root-knot nematode, Meloidogyne hapla that infects carrot." Crop Protection 114 (December 2018): 155–61. http://dx.doi.org/10.1016/j.cropro.2018.08.022.

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33

Biliavska, L. O., V. E. Kozyritska, Yu V. Kolomiets, A. G. Babich, and G. O. Iutynska. "Phytoprotective and growth-regulatory properties of metabolic bioformulations on the base of soil streptomycetes." Reports of the National Academy of Sciences of Ukraine, no. 1 (January 20, 2015): 131–37. http://dx.doi.org/10.15407/dopovidi2015.01.131.

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34

MSHARI, AHMED, ALI F. HUSSEIN, and NADA J. DAWOOD. "Ability of Creative of bioformulations Using Bacillus Subtilis for Biological Control of Some Plant Disease Fungi." Journal of Research on the Lepidoptera 50, no. 4 (December 25, 2019): 17–24. http://dx.doi.org/10.36872/lepi/v50i4/201059.

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35

T, Thiruveni, Shanthi M, Murali Baskaran R K, and Raguchander T. "Antixenosis Induced by Talc-based Bioformulation Pseudomonas fluorescens against Okra Shoot and Fruit Borer, Earias vittella." Madras Agricultural Journal 98, September (2011): 273–76. http://dx.doi.org/10.29321/maj.10.100295.

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Анотація:
In studies undertaken to assess the antixenotic resistance induced by talc-based bioformulations, the microbial consortia Pseudomonas fluorescens Pf1 + Beauveria bassiana B2 isolate (Pf1 + B2) treated plants were least preferred by the Earias vittella (Fab) moths for settling (3.11 and 6.00 nos.) and oviposition (18.36 and 21.62 nos.) in variety, Arka Anamika and hybrid, CoBhH1 respectively as against untreated check (9.00, 11.00 nos. of moths and 56.66, 80.66 nos. of eggs, respectively) The Pf1 + B2 treated plants had high Repellency index (43.11 %) and negative relative ovipositional index (-59.72%). The variety, Arka Anamika was less preferred for the settling of moths compared to the hybrid, CoBhH1. Among the different plant parts, egg laying was significantly greater on the terminal bud with 37.33 eggs on Arka Anamika and 53.00 eggs in CoBhH1.
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36

Savinkova, O. V., M. Y. Syromyatnikov, I. I. Sablina, and V. N. Popov. "Study of the quality and safety of microbiological bioformulations for plant protection and growth stimulation." IOP Conference Series: Earth and Environmental Science 640, no. 2 (February 1, 2021): 022003. http://dx.doi.org/10.1088/1755-1315/640/2/022003.

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37

JOSHI, NEELAM, P. S. SHERA, K. S. SANGHA, and SUDHENDU SHARMA. "Bioformulations for management of pod borer, Helicoverpa armigera (H�bner) in Mungbean (Vigna radiata L.)." Journal of Biological Control 33, no. 1 (June 1, 2018): 76–79. http://dx.doi.org/10.18311/jbc/2019/16280.

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38

Mallesh, S. B., R. P. Jaiprakash Narayan, and Mallikarjun Dhotre. "Talc-Based Bioformulations of Fluorescent Pseudomonads for the Management of Coleus and Ashwagandha Root Diseases." International Journal of Current Microbiology and Applied Sciences 7, no. 04 (April 10, 2018): 3790–96. http://dx.doi.org/10.20546/ijcmas.2018.704.427.

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39

Thoke, Siddanna. "Influence of Glomus fasciculatum and Bioformulations on In-situ Grafting of Jamun (Syzygium cuminii Skeels)." International Journal of Pure & Applied Bioscience 6, no. 1 (February 28, 2018): 178–82. http://dx.doi.org/10.18782/2320-7051.5595.

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40

Nori, Sri Sailaja, R. Gomathi, and K. Ramachandiran. "Influence of sea weed bioformulations on improving yield of plant and ratoon crop of sugarcane." Agrica 8, no. 2 (2019): 107. http://dx.doi.org/10.5958/2394-448x.2019.00014.2.

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41

Masyutenko, N. P., A. V. Kuznetsov, M. N. Masyutenko, T. I. Pankova, and G. M. Breskina. "Efficiency of Organic Carbon Sequestration in Typical Slightly Eroded Chernozem with the Use of Bioformulations." Russian Agricultural Sciences 49, no. 3 (June 2023): 310–15. http://dx.doi.org/10.3103/s1068367423030138.

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42

Nagachandrabose, Seenivasan. "Management of Potato Cyst Nematodes Using Liquid Bioformulations of Pseudomonas fluorescens, Purpureocillium lilacinum and Trichoderma viride." Potato Research 63, no. 4 (February 12, 2020): 479–96. http://dx.doi.org/10.1007/s11540-020-09452-2.

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43

Bora, Popy, Kakumoni Saikia, and Shenaz Sultana Ahmed. "Pathogenic fungi associated with storage rot of Colocasia esculenta and evaluation of bioformulations against the pathogen." Pest Management in Horticultural Ecosystems 26, no. 1 (2020): 134. http://dx.doi.org/10.5958/0974-4541.2020.00021.1.

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44

Barupal, Tansukh, Mukesh Meena, and Kanika Sharma. "A study on preventive effects of Lawsonia inermis L. bioformulations against leaf spot disease of maize." Biocatalysis and Agricultural Biotechnology 23 (January 2020): 101473. http://dx.doi.org/10.1016/j.bcab.2019.101473.

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45

Noman, Muhammad, Temoor Ahmed, Usman Ijaz, Muhammad Shahid, Azizullah, Dayong Li, Irfan Manzoor, and Fengming Song. "Plant–Microbiome Crosstalk: Dawning from Composition and Assembly of Microbial Community to Improvement of Disease Resilience in Plants." International Journal of Molecular Sciences 22, no. 13 (June 25, 2021): 6852. http://dx.doi.org/10.3390/ijms22136852.

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Анотація:
Plants host diverse but taxonomically structured communities of microorganisms, called microbiome, which colonize various parts of host plants. Plant-associated microbial communities have been shown to confer multiple beneficial advantages to their host plants, such as nutrient acquisition, growth promotion, pathogen resistance, and environmental stress tolerance. Systematic studies have provided new insights into the economically and ecologically important microbial communities as hubs of core microbiota and revealed their beneficial impacts on the host plants. Microbiome engineering, which can improve the functional capabilities of native microbial species under challenging agricultural ambiance, is an emerging biotechnological strategy to improve crop yield and resilience against variety of environmental constraints of both biotic and abiotic nature. This review highlights the importance of indigenous microbial communities in improving plant health under pathogen-induced stress. Moreover, the potential solutions leading towards commercialization of proficient bioformulations for sustainable and improved crop production are also described.
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46

Gurrieri, Elena, and Vito Giuseppe D’Agostino. "Strategies to functionalize extracellular vesicles against HER2 for anticancer activity." Extracellular Vesicles and Circulating Nucleic Acids 3, no. 2 (2022): 93–101. http://dx.doi.org/10.20517/evcna.2022.07.

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Анотація:
Cell-secreted extracellular vesicles (EVs) are membranous particles highly heterogeneous in size and molecular cargo. Comprehensively, released EV sub-populations can show a wide range and selection of different protein, RNA, and lipid species, complementing cell communication signals. Recently, EVs represent a new source for developing targeted delivery systems. EVs are stable in biofluids, intrinsically biocompatible with low immunogenicity, and capable of transferring cargo molecules into “recipient” cells. The immune-mediated recognition represents a popular approach to functionalize and direct EVs towards receptor-positive cell populations. The human epidermal growth factor receptor 2 (HER2, also known as neu or ERBB2) is a tyrosine kinase of clinical relevance, targeted by several available antibodies, and a model receptor used to test the biodistribution and anticancer activity of bioformulations, including EVs. Here, we focus on recent strategies adopted for EV functionalization with fusion ligands able to recognize HER2, covering the enhanced expression of membrane-fusion proteins in “EV-donor” cells as well as post-isolation EV-surface modifications.
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47

Gerasimchuk, Anna L., Denis A. Ivasenko, Polina A. Bukhtiyarova, Dmitry V. Antsiferov, and Yulia A. Frank. "Search for new cultured lipophilic bacteria in industrial fat-containing wastes." BIO Web of Conferences 23 (2020): 02012. http://dx.doi.org/10.1051/bioconf/20202302012.

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Анотація:
Fat-containing wastes that are generated as a result of industrial production of food products and are being accumulated in large quantities in wastewater and sewage treatment plants and present a serious environmental problem. Microorganisms that decompose various types of lipids may be potential candidates for creation of commercial bioformulations for fat destruction. The aim of the study was to obtain pure cultures of lipophilic bacteria from fat-containing wastes, to study their diversity and activity for the development of a biological product. As a result, 30 strains of different phylogenetic groups with lipolytic activity was obtained. The most isolated strains were represented by enterobacteria and pseudomonas members within the Gammaproteobacteria. Almost half of the isolated strains were closely related to conditionally pathogenic microorganisms such as Serratia, Klebsiella etc. Non-pathogenic strains and promising for biotechnology ones belonged to Pseudomonas citronellolis, P. nitroreducens, P. synxantha, P. extremaustralis, Bacillus subtilis, B. amyloliquefaciens, Brevibacillus brevis and Microvirgula sp.
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48

García-Gaytán, Víctor, Fanny Hernández-Mendoza, Ana Coria-Téllez, Soledad García-Morales, Esteban Sánchez-Rodríguez, Luis Rojas-Abarca, and Hadiseh Daneshvar. "Fertigation: Nutrition, Stimulation and Bioprotection of the Root in High Performance." Plants 7, no. 4 (October 23, 2018): 88. http://dx.doi.org/10.3390/plants7040088.

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Temperature changes, drought, frost, and the presence of pest and diseases place enormous stress on crops, which implies that the potential performance of these crops may be affected. One of the main goals for agronomists, horticulturists, growers, physiologists, soil scientists, geneticists, plant breeders, phytopathologists, and microbiologists is to increase the food production on the same cultivable area and to ensure that they are safe and of high quality. Understanding the biophysical changes in soil will help to manage the crop’s ability to cope with biotic and abiotic stress. Optimization is needed in the nutrition of crops, which involves the use of biostimulants to counter oxidative stress and the management of strain bioformulations (bacteria and fungi) that protect and stimulate roots for the acquisition of nutrients. The implementation of these strategies in fertigation programs improves crop yields. This article addresses the importance of the stimulation and the bioprotection of the root as a fundamental pillar in ensuring the high performance of a crop.
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49

Latha, P., M. Karthikeyan, and E. Rajeswari. "Development of Bioformulations for the Management of Blackgram Dry Root Rot Caused by Rhizoctonia bataticola (Taub Butler)." Advances in Research 9, no. 4 (January 10, 2017): 1–12. http://dx.doi.org/10.9734/air/2017/33195.

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50

Deb, Rituraj, L. C. Bora, and P. Das. "Microbial Bioformulations for Suppression of Major Insect Pests and Diseases and Enhanced Biochemical Properties of Tea Crop." International Journal of Current Microbiology and Applied Sciences 6, no. 6 (June 10, 2017): 1872–79. http://dx.doi.org/10.20546/ijcmas.2017.606.218.

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