C. Valli scite author profile

Background and Aim:Nanoparticles can bypass conventional physiological ways of nutrient distribution and transport across tissue and cell membranes, as well as protect compounds against destruction prior to reaching their targets. In ovo administration of nanoparticles, may be seen as a new method of nano-nutrition, providing embryos with an additional quantity of nutrients. The aim of the study is to examine the effect of in ovo supplementation of nano forms of zinc, copper and selenium on the hatchability and post hatch performance of broiler chicken.Materials and Methods:Nano form of zinc at 20, 40, 60 and 80 µg/egg, nano form of copper at 4, 8, 12 and 16 µg/egg and nano form of selenium at 0.075, 0.15, 0.225 and 0.3 µg/egg were in ovo supplemented (18th day incubation, amniotic route) in fertile broiler eggs. Control group in ovo fed with normal saline alone was also maintained. Each treatment had thirty replicates. Parameters such as hatchability, hatch weight and post hatch performance were studied.Results:In ovo feeding of nano minerals were not harmful to the developing embryo and did not influence the hatchability. Significantly (p<0.05) best feed efficiency for nano forms of zinc (2.16), copper (2.46) and selenium (2.51) were observed, when 40, 4 and 0.225 µg/egg respectively were in ovo supplemented. Except in nano form of copper at 12 µg per egg which had significantly (p<0.05) highest breast muscle percentage there was no distinct trend to indicate that dressing percentage or breast muscle yield was influenced in other treatments.Conclusion:Nano forms of zinc, copper and selenium can be prepared at laboratory conditions. In ovo feeding of nano forms of zinc, copper and selenium at 18th day of incubation through amniotic route does not harm the developing embryo, does not affect hatchability.

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Probiotic characterization of lactic acid bacteria isolated from swine intestine

Balasingham¹,

Valli²,

Radhakrishnan³

et al. 2017

Vet World

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Aim:A study was conducted with the objective to isolate probiotic microorganisms from swine intestine.Materials and Methods:In this study 63 isolates (24 caeca, 24 colon mucosal scrapings, and 15 rectal swab samples) were collected from Large White Yorkshire pigs. The isolates were inoculated and grown in de Man Rogosa Sharpe broth at 37°C with 5% CO2 for 48 h and subjected to morphological identification. Colonies having Gram-positive rods were selected for further physiological and biochemical identification tests, which were conducted in triplicate in two runs for each of the selected isolates using a standard protocol. Probiotic properties among the identified species were determined through the implementation of several tests related with pH tolerance, bile tolerance, and antimicrobial activity.Results:Morphological identification revealed that only 23 isolates were Gram-positive rods. Physiological tests performed on these 23 isolates further revealed that four of them did not exhibit any growth, at all conditions studied. The rest 19 isolates were, therefore, selected and subjected to biochemical tests. Six isolates were rejected because they were oxidase and nitrate reduction positive. From the 13 isolates subjected to sugar fermentation tests, speciation of only two isolates could be ascertained, one of the isolates showed characteristics for Lactobacillus acidophilus and the other for Lactobacillus plantarum. These two isolates were assessed for the strain possessing maximum probiotic property, and it was inferred that both – L. plantarum and L. acidophilus could tolerate a wide pH range (2-9), a wide bile concentration (0.05-0.3%) and revealed antimicrobial activity toward Escherichia coli, and Enterobacter spp.Conclusion:L. plantarum and L. acidophilus were isolated from swine intestine and were found to have good probiotic properties.

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Mitigating Enteric Methane Emission from Livestock Through Farmer-Friendly Practices

Valli

2019

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Effect of Saccharomyces cerevisiae Supplementation to Paddy Straw Based Substrate on in Vitro Rumen Fermentation Parameters

Elanthamil¹,

Bandeswaran²,

Bharthidhasan³

et al. 2018

Ind. Jour. of Anim. Nutr.

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Studies on Influence of Soaking, Germination Time and Seed Rate on Biomass Yield of Fodder Maize (Zea mays L.) Cultivated Through Fabricated Hydroponic Fodder Production Unit

Gunasekaran¹,

Valli²,

Karunakaran³

et al. 2018

Int. J. Livest. Res.

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Customising the requirement of fibrolytic enzymes to improve feeding value of sorghum stover, ragi straw and groundnut haulms

Valli

Issac

Kavitha

2019

IJAR

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A study was carried out to determine fibre and non starch polysaccharide fractions of sorghum stover, ragi straw and groundnut haulms. Sorghum stover had the significantly highest fibre fractions (NDF, ADF, Cellulose, hemicelluloses and Lignin) and non starch polysaccharide fractions (Total, Soluble and Insoluble) compared to the other two crop residues. Enzyme activity assay of cellulase, hemicellulase, xylanase and pectinase revealed multiple activities in a single enzyme. In vitro trials were carried out to evolve substrate specific customized non - starch polysaccharidase mixture for sorghum stover, ragi straw and groundnut haulm. The first trial was conducted to locate the range of enzymes required for maximum sugar release, followed by another in vitro trial to precisely identify the enzymes needed for respective substrates and the third one was to identify the inclusion level of these enzymes in combination to sorghum stover or ragi straw or groundnut haulm. All these trials were conducted in duplicate in three runs. These experiments established that each gram of sorghum stover and ragi straw requires 1200 U of Cellulase, 120 U of Xylanase and 700 U of Pectinase for maximum hydrolysis and each gram of groundnut haulm requires 1600 U of Cellulase, 100 U of Xylanase and 600 U of Pectinase for maximum hydrolysis.

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Effect of Feeding Gliricidia sepium Leaves from Silvipasture Model of Agroforestry in Degraded Wastelands on Milk Yield and Its Composition in Milch Cows

Gunasekaran¹,

Bandeswaran²,

Valli³

et al. 2017

Int.J.Curr.Microbiol.App.Sci

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System Diversification for Livestock Nutritional Security through Biomass Yield and Nutritive Value of Fodder Legume Calopogonium mucunoides under Cocus nucifera/Psidium guajava Based Hortipasture System

Mynavathi¹,

Pasupathi²,

Valli³

2017

Int.J.Curr.Microbiol.App.Sci

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C. Valli

Effect of in ovo supplementation of nano forms of zinc, copper, and selenium on post-hatch performance of broiler chicken

Probiotic characterization of lactic acid bacteria isolated from swine intestine

Mitigating Enteric Methane Emission from Livestock Through Farmer-Friendly Practices

Effect of Saccharomyces cerevisiae Supplementation to Paddy Straw Based Substrate on in Vitro Rumen Fermentation Parameters

Studies on Influence of Soaking, Germination Time and Seed Rate on Biomass Yield of Fodder Maize (Zea mays L.) Cultivated Through Fabricated Hydroponic Fodder Production Unit

Customising the requirement of fibrolytic enzymes to improve feeding value of sorghum stover, ragi straw and groundnut haulms

Effect of Feeding Gliricidia sepium Leaves from Silvipasture Model of Agroforestry in Degraded Wastelands on Milk Yield and Its Composition in Milch Cows

System Diversification for Livestock Nutritional Security through Biomass Yield and Nutritive Value of Fodder Legume Calopogonium mucunoides under Cocus nucifera/Psidium guajava Based Hortipasture System

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