Gotowe bibliografie tematyczne / BIOFORMULATIONS

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Gotowa bibliografia na temat „BIOFORMULATIONS”

Autor: Grafiati
Data publikacji: 11 września 2023

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Artykuły w czasopismach na temat "BIOFORMULATIONS"

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Wong, Clement Kiing Fook, Dzarifah Zulperi, Noor Baity Saidi i 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, nr 1 (31.03.2021): 23–45. http://dx.doi.org/10.21315/tlsr2021.32.1.2.

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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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Syromyatnikov, Mikhail Y., Ekaterina Y. Nesterova, Maria I. Gladkikh, Anna A. Tolkacheva, Olga V. Bondareva, Vladimir M. Syrov, Nina A. Pryakhina i Vasily N. Popov. "High-Throughput Sequencing as a Tool for the Quality Control of Microbial Bioformulations for Agriculture". Processes 10, nr 11 (1.11.2022): 2243. http://dx.doi.org/10.3390/pr10112243.

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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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Mishra, Isha, Tahmish Fatima, Dilfuza Egamberdieva i Naveen Kumar Arora. "Novel Bioformulations Developed from Pseudomonas putida BSP9 and Its Biosurfactant for Growth Promotion of Brassica juncea (L.)". Plants 9, nr 10 (12.10.2020): 1349. http://dx.doi.org/10.3390/plants9101349.

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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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Nerek, Ewelina, i Barbara Sokołowska. "<i>Pseudomonas</i> spp. in biological plant protection and growth promotion". AIMS Environmental Science 9, nr 4 (2022): 493–504. http://dx.doi.org/10.3934/environsci.2022029.

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<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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Jayaraman, Thiruppathi, Vani Chandrapragasam i Kavitha Subbiah. "Development of bioformulations using plant extracts for the control of dengue vector, Aedes aegypti". Journal of Applied and Natural Science 15, nr 2 (20.06.2023): 760–66. http://dx.doi.org/10.31018/jans.v15i2.4518.

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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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Samavat, Samaneh, Asghar Heydari, Hamid Reza Zamanizadeh, Saeed Rezaee i Ali Alizadeh Aliabadi. "Application of new bioformulations of Pseudomonas aureofaciens for biocontrol of cotton seedling damping-off". Journal of Plant Protection Research 54, nr 4 (30.12.2014): 334–39. http://dx.doi.org/10.2478/jppr-2014-0050.

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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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Balla, Amel, Allaoua Silini, Hafsa Cherif-Silini, Ali Chenari Bouket, Faizah N. Alenezi i Lassaad Belbahri. "Recent Advances in Encapsulation Techniques of Plant Growth-Promoting Microorganisms and Their Prospects in the Sustainable Agriculture". Applied Sciences 12, nr 18 (8.09.2022): 9020. http://dx.doi.org/10.3390/app12189020.

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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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Mahdizadehnaraghi, Razak, Asghar Heydari, Hamid Reza Zamanizadeh, Saeed Rezaee i Jafar Nikan. "Biological control of garlic (Allium) white rot disease using antagonistic fungi-based bioformulations". Journal of Plant Protection Research 55, nr 2 (1.04.2015): 136–41. http://dx.doi.org/10.1515/jppr-2015-0017.

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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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Chandurkar, Preeti, Tanuja Murab i Nidhi Gujar. "EFFECT OF BIOFORMULATIONS OF PSEUDOMONAS AERUGINOSA PC1 ON GROWTH CHARACTERISTICS OF TRITICUM AESTIVUM". Journal of Advanced Scientific Research 12, nr 03 (31.08.2021): 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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Gupta, Amrita. "Azospirillum: Bioformulations, Product Quality and Survivability". International Journal for Research in Applied Science and Engineering Technology V, nr VIII (29.08.2017): 467–70. http://dx.doi.org/10.22214/ijraset.2017.8064.

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Rozprawy doktorskie na temat "BIOFORMULATIONS"

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KALSI, ANCHITA. "BIOREMEDIATION OF RDX AND HMX CONTAMINATED SOIL AND SEDIMENTS USING JANIBACTER CREMEUS IMMOBILIZED IN CALCITE AND EGG SHELL BASED BIOFORMULATIONS". Thesis, 2020. http://dspace.dtu.ac.in:8080/jspui/handle/repository/18088.

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Explosives are toxic compounds predominantly found in the military areas. High explosives, Hexahydro-1,3,5- trinitro-1,3,5-triazine (RDX) and Octahydro-1,3,5,7- tetranitro-1,3,5,7-tatrazocine (HMX) are the most commonly used secondary explosives. They are heterocyclic nitramine compounds which can contaminate both soil and water. They are classified as a potential human carcinogen by United States Environment Protection Agency (USEPA) based on animal studies. Because of their detrimental effects on human and environmental health, the treatment of RDX and HMX contaminated soils is of utmost importance. Many physical and chemical methods have been developed for the treatment of contaminated soil. But, these approaches are expensive, non-specific and can lead to secondary pollution. Hence, a need for eco-friendly approach to mitigate the toxic effects of RDX and HMX has been paved leading to a shift to bioremediation as a possible treatment technology. This study focuses on the use of indigenous bacterial isolates (obtained from explosive contaminated sites) immobilized to develop two novel bioformulations, for achieving the remediation goals. Three isolates, namely, Janibacter cremeus, Pseudomonas mosselii and Pseudomonas entomophila from explosive contaminated sites were subjected to remediation of RDX/ HMX in aqueous phase to confirm their efficacy of degradation. All three isolates were evaluated for their degradation efficiency of 60 mg/L RDX and 6 mg/L HMX in minimal salt medium. Bacterial growth, nitrite released and residual explosive concentrations were monitored throughout the study of 30 days. Also, the first order degradation kinetics were studied for the three isolates and the respective half-lives of both RDX and HMX were calculated. The three isolates exhibited positive growth in presence of RDX/ HMX. Degradation of RDX and HMX by J. cremeus and P. entomophila were accompanied by substantial release of nitrite, whereas, P. mosselii exhibited negligible release of nitrite. RDX degradation was observed to be maximum for J. cremeus (88 %) followed by P. entomophila (83 %) and P. mosselii (80 %). HMX degradation was also observed to be highest for J. cremeus (92 %) followed by P. vi entomophila (89 %) and P. mosselii (76 %). Based on the results obtained, J. cremeus was selected for evaluation of RDX/ HMX degradation in soil and sediments. J. cremeus was immobilized to prepare two novel bioformulations for delivery of microbe to soil/ sediment. Also, the carriers in the bioformulations played a major role in assisting the remediation process. Bioformulation 1 (BF1) was prepared using calcite and cocopeat as carriers. Bioformulation 2 (BF2) was prepared using egg shell powder, cocopeat, tween and sodium bi carbonate as carriers. Both the bioformulations were observed to be viable for six months under storage at 4 C. The bioformulations were tested for its remediation potential in soils contaminated with 65 mg/Kg RDX / 3000 mg/Kg of HMX. The remediation experiments were conducted under saturated as well as unsaturated moisture conditions at 35 C for 35 days. RDX was observed to be degraded by 75 and 60 % under saturated and unsaturated conditions respectively. The saturated treatment sets exhibited better microbial growth during the study in terms of live cell count and total enzyme activity. The bacteria, J. cremeus was observed to exhibit significant release of nitrite under both unsaturated as well as saturated conditions. Mass spectrometric studies showed that, both the conditions lead to the formation of nitroso-derivatives of RDX. But under saturated condition, an intermediate, 5-hydroxy-4-nitro-2,4-diazapentanal was observed which is a precursor to 4-nitro-2,4-diazabuatnal ultimately leading to mineralization to formaldehyde, carbon di oxide and other simpler compounds. HMX on the other hand was observed to be degraded only under saturated conditions by 40 %, The unsaturated conditions exhibited negligible reduction in HMX concentration. Moreover, the microbial activity in the unsaturated treatment sets was observed to decrease continuously. Mass spectrometric (MS) analysis was performed to identify the intermediates formed during HMX degradation. Nitroso derivatives of HMX were observed during the anoxic degradation of HMX. Also, observed was the presence of 5-hydroxy-4-nitro-2,4-diazapentanal, a precursor of 4- nitro-2,4- diazabutanal, which eventually could get mineralized to formaldehyde and other simpler compounds.Sediments from explosive manufacturing facility were remediated using the developed BF 1 and 2. Sediment A and B were acidic and highly contaminated with nitramine explosives. Sediment A was characterized by the presence of RDX. The RDX was observed to be degraded by 87-88 % in 150 days in sediment A. Sediment B was co-contaminated with RDX and HMX. RDX was degraded by 53-55 %, whereas, HMX was degraded by 47-49 % in 90 days. The degradation was observed to be accompanied by release of nitrite. Also, applied bioformulations (BF 1 and 2) lead to an increase in the pH of both the sediments, thereby enhancing the microbial activity. The study demonstrates successful development and application of eco-friendly, economical and highly efficient bioformulations that can play a crucial role in remediation of hazardous nitramine explosive compounds present in soil/ sediments.
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Vaz, Pedro Figueiredo Justino Lopes. "Bioformulation and biotreatment of construction materials". Master's thesis, 2018. http://hdl.handle.net/10362/42373.

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Bioconsolidation of construction materials is a consolidation technique that has recently gained relevance due to its eco-efficiency. This technique uses bioproducts that have been produced by biologic systems; they may contain as major component, microorganisms or biopolymers. This innovative technique has recently been studied and frequently applied in cementitious materials and in the stabilization of sands and soils. Studies of its application in lime and earth-based mortars are rare. In the present study, developed within project DB – Heritage, different bioproducts were used. Two of them were obtained through waste biomass from a microbial mixed culture for polyhydroxyalkanoates production process, using glycerol, a by-product form biodiesel production (BF - biofuel), and the second using pine biomass (BM - biomass) as substrates for bacterial growth. A third bioproduct was assessed consisting in Escherichia (E.) coli cultures supplemented grown in the presence of iron (E. coli+Fe). Two application techniques were studied: bioformulation, which consists on using bioproducts as a kneading liquid to produce mortars, and biotreatment, which consists on applying the bioproducts by deposition on the surface of the specimen. The bioproduct BF was used to bioformulate cement mortars, natural hydraulic lime mortars and air lime mortars. The same BF bioproduct and the bioproduct with E. coli bacterium supplemented with iron were used to biotreat specimens of cement and an air lime mortar, limestone, fired brick, compressed earth block (CEB) and extruded earth blocks. Finally, the bioproduct BM was used to biotreat specimens of earth plastering mortars, conventional concrete and an identical concrete but with aggregates from construction and demolition wastes (CDW). The results obtained with the bioformulated mortars were promising, since they show a significant reduction in water absorption and a slight improvement of their mechanical properties. Regarding the biotreatments, it is concluded that, despite some loss of resistance to water absorption in the long term, all the tested materials remain considerably more resistant to water absorption when compared with the control specimens. Based on the obtained results it can be stated that the bioconsolidation of construction materials is a viable and interesting technique to deepen its study.
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Silva, Ricardo Velez da. "Bioconsolidation of construction materials – Effect on the durability of an eco-efficient earthen plaster". Master's thesis, 2017. http://hdl.handle.net/10362/23397.

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Bioconsolidation is a relatively novel technique used for consolidation, repair, protection and improvement of construction materials. This biotechnology is based on the precipitation of chemical compounds produced by microbial metabolism. It can be used for treatment or formulation. Although recently applied in several construction materials, such as earth blocks or cement-based materials, bioconsolidation has been unexplored on earth-based plastering mortars. Although the use of earth mortars for earth plasters has been growing on recent years for its eco-efficiency, they are less resistant to damage by contact with water. Therefore, the use of a bioproduct may have a great potential for the improvement of earth mortars´ weaknesses. In the present thesis, two types of bioconsolidation techniques have been studied on earth mortars: as a biotreatment for the improvement of surface properties; and as a component for earth mortars’ formulation (bioformulation) for the improvement of the whole material. The bioproducts used are based on microbial iron mineralization using Escherichia coli cells, since iron compounds are present in earth materials, are non-toxic, easy to handle and are not expensive. Several experimental conditions have been studied leading to the proposal that iron concentration is a key parameter. Tested biotreatments show promising results, producing a slight consolidative effect and significant increasing of water absorption resistance of earth mortars. Bioformulated mortars present a very distinct macrostructure, with a great decrease on mechanical properties. Nevertheless, they achieve a considerable improvement on resistance towards water and a lower thermal conductivity. The results show the interest on further studies on the use of iron-based bioproducts on earth mortars.
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Książki na temat "BIOFORMULATIONS"

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Prasad, Ram, Vivek Kumar, Manoj Kumar i Devendra Choudhary, red. Nanobiotechnology in Bioformulations. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-17061-5.

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Arora, Naveen Kumar, Samina Mehnaz i Raffaella Balestrini, red. Bioformulations: for Sustainable Agriculture. New Delhi: Springer India, 2016. http://dx.doi.org/10.1007/978-81-322-2779-3.

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Kumar, Vivek, Manoj Kumar, Ram Prasad i Devendra Choudhary. Nanobiotechnology in Bioformulations. Springer, 2019.

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Kumar, Vivek, Manoj Kumar, Ram Prasad i Devendra Choudhary. Nanobiotechnology in Bioformulations. Springer International Publishing AG, 2020.

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Arora, Naveen Kumar, Samina Mehnaz i Raffaella Balestrini. Bioformulations: For Sustainable Agriculture. Springer, 2016.

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Arora, Naveen Kumar, Samina Mehnaz i Raffaella Balestrini. Bioformulations: For Sustainable Agriculture. Springer London, Limited, 2016.

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Arora, Naveen Kumar, Samina Mehnaz i Raffaella Balestrini. Bioformulations: For Sustainable Agriculture. Springer, 2018.

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Części książek na temat "BIOFORMULATIONS"

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Rubio-Ríos, Anilú, Lucero Rosales-Marines, José Fernando Solanilla-Duque, Yadira Karina Reyes-Acosta, Margarita del Rosario Salazar-Sánchez, Raúl Rodríguez-Herrera i Lorena Farías-Cepeda. "Biobased Nanoemulsions: Concept, Formulation, and Applications". W Nanobiotechnology in Bioformulations, 1–31. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-17061-5_1.

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Rani, Usha, i Vivek Kumar. "Microbial Bioformulations: Present and Future Aspects". W Nanobiotechnology in Bioformulations, 243–58. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-17061-5_10.

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Kurdish, I. K. "Interaction of Microorganisms with Nanomaterials as a Basis for Creation of High-Efficiency Biotechnological Preparations". W Nanobiotechnology in Bioformulations, 259–87. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-17061-5_11.

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Ul Haq, Imran, i Siddra Ijaz. "Use of Metallic Nanoparticles and Nanoformulations as Nanofungicides for Sustainable Disease Management in Plants". W Nanobiotechnology in Bioformulations, 289–316. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-17061-5_12.

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Nasr, Mahmoud. "Nanotechnology Application in Agricultural Sector". W Nanobiotechnology in Bioformulations, 317–29. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-17061-5_13.

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Rodríguez-Delgado, Melissa Marlene, Cesar Martinez-Ledezma i Juan Francisco Villarreal-Chiu. "Advances in Bio-coaters for Nanoparticles and Biodegradable Delivery Systems in Agriculture and Food Industry: Toward a Safer and Eco-friendly Nanotechnology". W Nanobiotechnology in Bioformulations, 331–52. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-17061-5_14.

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Souza, Lilian Rodrigues Rosa, Argus Cezar da Rocha Neto, César Rodrigues da Silva, Leonardo Pereira Franchi i Tiago Alves Jorge de Souza. "Green Synthesis Approaches of Nanoagroparticles". W Nanobiotechnology in Bioformulations, 353–80. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-17061-5_15.

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Pirzadah, Tanveer Bilal, Bisma Malik, Tariq Maqbool i Reiaz Ul Rehman. "Development of Nano-Bioformulations of Nutrients for Sustainable Agriculture". W Nanobiotechnology in Bioformulations, 381–94. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-17061-5_16.

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Singh, Simranjeet, Vijay Kumar, Romina Romero, Kankan Sharma i Joginder Singh. "Applications of Nanoparticles in Wastewater Treatment". W Nanobiotechnology in Bioformulations, 395–418. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-17061-5_17.

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Kumari, Vinita, Sarushi Rastogi i Vasudha Sharma. "Emerging Trends in Nanobiosensor". W Nanobiotechnology in Bioformulations, 419–47. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-17061-5_18.

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Streszczenia konferencji na temat "BIOFORMULATIONS"

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Edis, Zehra, Samir Haj Bloukh i Hamed Abu Sara. "Bioformulations of Sage-Aloe Vera-PVP and “smart” triiodides with antimicrobial properties". W 7th International Electronic Conference on Medicinal Chemistry. Basel, Switzerland: MDPI, 2021. http://dx.doi.org/10.3390/ecmc2021-11603.

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"Bioformulations and Indigenous Plant Protection Measures in Enhancing the Vitalities of Bio-Control Agents for Induced Systemic Resistance Suppressing Asian Soybean Rust in India". W International Conference on Biological, Civil and Environmental Engineering. International Institute of Chemical, Biological & Environmental Engineering, 2014. http://dx.doi.org/10.15242/iicbe.c0314059.

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Voropaeva, O. V., Tripti Tripti, A. Kumar, K. A. Panikovskaya, M. G. Maleva i G. G. Borisova. "Screening of metal tolerant plant growth-promoting endophytic (PGPE) bacteria for the preparation of bioformulation". W 2nd International Scientific Conference "Plants and Microbes: the Future of Biotechnology". PLAMIC2020 Organizing committee, 2020. http://dx.doi.org/10.28983/plamic2020.277.

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Streszczenie:
Metal tolerant plant growth-promoting bacteria capable of synthesizing IAA from tryptophan, solubilizing phosphates and converting protein nitrogen into ammonia were isolated from plants growing on contaminated soils.
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