Effects of Shiitake mushroom (Lentinus edodes) supplementation into quail diets on performance, blood serum parameters and intestine microbial populations Effects of Shiitake Mushroom (Lentinus edodes) Supplementations into Quail Diets
Published:
Jul 9, 2023
Updated:
2023-07-09
Versions:
2023-07-09 (2)
Keywords:
Shiitake mushroom blood parameters intestinal microbiology quail
Abstract
This study was conducted to investigate the effects of shiitake mushroom (Lentinus edodes) (SM) supplementations into quail diets on live weight (LW), live weight gain (LWG), feed consumption (FC), feed conversion ratio (FCR), blood serum biochemical parameters (total cholesterol, total protein, triglyceride, glucose) and intestine bacteria populations. A total of 120 Japanese quail (Coturnix coturnix Japonica) were used in present experiments. Quail were separated into 4 groups (control and 3 treatment groups). Control group was fed with a basic ration and treatments groups were fed with 0.5, 1 and 2% shiitake mushroom-supplemented diets. Shiitake mushroom supplementations significantly influenced live weights (P<0.05). Differences in live weight gains, feed consumptions, feed conversion ratios, blood serum parameters and intestine bacteria populations of the treatment groups were not found to be significant (P>0.05). SM supplementations influenced live weight gains and feed conversion ratios in the 4th week of the experiments (P>0.05). SM supplementations also influenced blood serum glucose levels (P<0.05).
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Ay, C., Ülger, İ, Kaliber, M., Hızlısoy, H., & Ayasan, T. (2023). Effects of Shiitake mushroom (Lentinus edodes) supplementation into quail diets on performance, blood serum parameters and intestine microbial populations : Effects of Shiitake Mushroom (Lentinus edodes) Supplementations into Quail Diets. Journal of the Hellenic Veterinary Medical Society, 74(2), 5705–5712. https://doi.org/10.12681/jhvms.30094 (Original work published July 5, 2023)
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References
Anadón A, Martínez-Larrañaga MR (1999). Residues of antimicrobial
drugs and feed additives in animal products: regulatory aspects. Livestock Product Science 59:183-198.
AOAC International (2005). Association of Official Analytical Chemists.
AOAC International (21th ed.), Gaithersburg, MD.
Bolder NM, Wagenaar JA, Putirulan FF, Veldman KT, Sommer M (1999).
The effect of flavophospholipol (Flavomycin) and salinomycin sodium (Sacox) on the excretion of Clostridium perfringens, Salmonella
enteritidis, and Campylobacter jejuni in broilers after experimental
infection. Poultry Science78(12): 1681-1689.
Buwjoom T, Yamauchi KE (2005). Effects of shiitake mushroom stalk
meal on growth performance, carcass yield and blood composition in
broilers. The Journal of Poultry Science 42(4): 283-290.
Casewell M, Friis C, Marco E, Mc Mullin P, Phillips I (2003). The European ban on growth-promoting antibiotics and emerging consequences for human and animal health. Journal of Antimicrobial Chemotherapy 52: 159-161.
Chadd SA, Davies WP, Koivisto JM (2004). Practical production of protein for food animals. In: Protein Sources for the Animal Feed Industry. Food and Agriculture Organization of the United Nations (FAO)
Expert Consultation and Workshop, Bangkok, Thailand, 29 April-3
May 2002: 77-123.
Chang R (1996). Functional properties of edible mushrooms. Nutrition
Reviews54(11): 91-93.
Cufadar Y, Göçmen R, Kanbur G, Yıldırım B (2020). Effects of dietary
different levels of nano, organic and inorganic zinc sources on performance, eggshell quality, bone mechanical parameters and mineral
contents of the tibia, liver, serum and excreta in laying hens. Biological Trace Element Research 193(1): 241-251.
Daneshmand A, Sadeghi GH, Karimi A, Vaziry A (2011). Effect of oyster
mushroom (Pleurotusostreatus) with and without probiotic on growth
performance and some blood parameters of male broilers. Animal
Feed Science and Technology 170: 91-96.
Dos Santos CEI, da Silva LRM, Boufleur LA, Debastiani R, Stefenon
CA, Amaral L, Dias JF (2010). Elemental characterisation of cabernet sauvignon wines using Particle-Induced X-ray Emission (PIXE).
Food Chemistry 121(1): 244-250.
Ekizoglu H, Ulger I, Kaliber M, Ayasan T (2020). Effects of spirulina
(algae) supplementation to Japanese quail (Coturnixcoturnix Japonica) diets on growth performance and carcass traits. Indian Journal of
Animal Sciences 90(6): 923-927.
Emery PW (2005). Metabolic changes in malnutrition. Eye 19(10): 1029-
Fard SH, Toghyani M, Tabeidian SA (2014). Effect of oyster mushroom
wastes on performance, immune responses and intestinal morphology of broiler chickens. International Journal of Recycling of Organic
Waste in Agriculture 3(4): 141-146.
Fukushima M, Ohashi T, Fujiwara Y, Sonoyama K, Nakano M (2001).
Cholesterol-lowering effects of maitake (Grifolafrondosa) fiber, shiitake (Lentinusedodes) fiber, and enokitake (Flammulinavelutipes)
fiber in rats. Experimental Biology and Medicine 226(8): 758-765.
Giannenas I, Tontis D, Tsalie E, Chronis EF, Doukas D, Kyriazakis I
(2010). Influence of dietary mushroom Agaricusbisporus on intestinal morphology and microflora composition in broiler chickens. Research in Veterinary Science89(1): 78-84.
Giannenas I, Tsalie E, Chronis EF, Mavridis S, Tontis D, Kyriazakis I
(2011). Consumption of Agaricusbisporus mushroom affects the performance, intestinal microbiota composition and morphology, and
antioxidant status of turkey poults. Animal Feed Science and Technology 165: 218-229.
Göçmen R, Yazgan O, Cufadar Y (2016). Effect of different organic and
inorganic selenium levels on performance, selenium concentrations
of some tissues, glutathione peroxidase enzyme activity and meat
quality in broilers. Journal of Animal & Plant Sciences 26(4): 916-
Guo FC, Savelkoul HFJ, Kwakkel RP, Williams BA, Verstegen MWA
(2003). Immunoactive, medicinal properties of mushroom and herb
polysaccharides and their potential use in chicken diets. World’s
Poultry Science Journal 59: 427-440.
Guo FC, Williams BA, Kwakkel RP, Li HS, Li XP, Luo JY, Li WK, Verstegen MWA (2004). Effects of mushroom and herb polysaccharides,
as alternatives for an antibiotic, on the cecal microbial ecosystem in
broiler chickens. Poultry Science 83(2): 175-182.
Handayani D, Meyer BJ, Chen J, Tang P, Kwok PCL, Chan HK, Huang
XF (2012). The comparison of the effect of oat and Shiitake mushroom powder to prevent body weight gain in rats fed high fat diet.
Food and Nutrition Sciences 3(7): 1009-1019.
Hatvani N (2001). Antibacterial effect of the culture fluid of Lentinus
edodes mycelium grown in submerged liquid culture. International
Journal of Antimicrobial Agents17(1): 71-74.
Hearst R, Nelson D, McCollum G, Millar BC, Maeda Y, Goldsmith CE,
Rooney PJ, Loughrey A, Rao JR, Moore JE (2009). An examination
of antibacterial and antifungal properties of constituents of Shiitake (Lentinula edodes) and Oyster (Pleurotusostreatus) mushrooms.
Complementary Therapies in Clinical Practice15(1): 5-7.
Hirasawa M, Shouji N, Neta T, Fukushima K, Takada K (1999). Three
kinds of antibacterial substances from Lentinus edodes (Berk.) Sing.
(Shiitake, an edible mushroom). International Journal of Antimicrobial Agents11(2): 151-157.
Jong SC, Birmingham JM (1993). Medicinal and therapeutic value of the
Shiitake mushroom. Advances in Applied Microbiology39: 153-184.
Kabir Y, Kimura S (1989). Dietary mushrooms reduce blood pressure in
spontaneously hypertensive rats (SHR). Journal of Nutritional Science and Vitaminology35(1): 91-94.
Kaneda T, Tokuda S (1966). Effect of various mushroom preparations on
cholesterol levels in rats. The Journal of Nutrition90(4): 371-376.
Kavyani A, Zare SA, Porreza J, Jalali Haji-badi SMA, Landy N (2012).
Evaluation of dried powder of mushroom (Agaricusbisporus) as an
antibiotic growth promoter substitution on performance, carcass traits
and humoral immune responses in broiler chickens. Journal of Medical Plants Research 6(1): 94-100.
Khan SH, Mukhtar N, Iqbal J (2019). Role of mushroom as dietary supplement on performance of poultry. Journal of Dietary Supplements
(5): 611-624.
Khieu B (1999). Chicken production, food security and renovative extension methodology in the SFPS Cambodia. In: F. Dolberg and P.H.
Petersen (eds), Poultry as a tool in poverty eradication and promotion
of gender equality. Proceedings of a Workshop, Tune Landboskole,
Denmark, 22–26 March 1999: 231–243.
Kim YW, Kim KH, Choi HJ, Lee DS (2005). Anti-diabetic activity of
β-glucans and their enzymatically hydrolyzed oligosaccharides from
Agaricusblazei. Biotechnology Letters27(7): 483-487.
Kitzberger CSG, SmâniaJr A, Pedrosa RC, Ferreira SRS (2007). Antioxidant and antimicrobial activities of shiitake (Lentinula edodes) extracts obtained by organic solvents and supercritical fluids. Journal of
Food Engineering 80(2): 631-638.
Kubo K, Nanba H (1996). The effect of maitake mushrooms on liver and
serum lipids. Alternative Therapies in Health and Medicine2(5): 62-
Manzi P, Pizzoferrato L (2000). Beta-glucans in edible mushrooms. Food
Chemistry 68(3): 315-318.
Molz P, Ellwanger JH, Dos Santos CEI, Dias JF, De Campos D, Corbellini VA, Prá D, Putzke MTL, Franke SIR (2014). A metabolomics
approach to evaluate the effects of shiitake mushroom (Lentinula
edodes) treatment in undernourished young rats. Nuclear Instruments
and Methods in Physics Research Section B: Beam Interactions with
Materials and Atoms 318: 194-197.
Najm EKN, Cufadar Y (2020). Effect of enzyme addition to diets containing different levels of alfalfa meal on performance and egg quality
parameters of laying hens. Selcuk Journal of Agriculture and Food
Sciences 34(1): 14-18.
Neyrinck AM, Bindels LB, De Backer F, Pachikian BD, Cani PD, Del-zenne NM (2009). Dietary supplementation with chitosan derived
from mushrooms changes adipocytokine profile in diet-induced obese
mice, a phenomenon linked to its lipid-lowering action. International
Immunopharmacology9(6): 767-773.
Noh JR, Lee IK, Ly SY, Yang KJ, Gang GT, Kim YH, Hwang JH, Yun BS,
Lee CH (2011). A Phellinusbaumii extract reduces obesity in highfat diet-fed mice and absorption of triglyceride in lipid-loaded mice.
Journal of Medicinal Food14(3): 209-218.
NRC (1994). Nutrient requirements of poultry. Ninth Revised Edition.
National Academy Press. Washington, D.C.
Ravindran V (2013). Poultry feed availability and nutrition in developing
countries. Poultry Development Review 60-63.
Reis FS, Barros L, Martins A, Ferreira IC (2012). Chemical composition
and nutritional value of the most widely appreciated cultivated mushrooms: an inter-species comparative study. Food and Chemical Toxicology 50(2): 191-197.
Shamsi S, Seidavi A, Rahati M, Gómez Nieto JÁ (2015a). Effect of mushroom powder and flavophospholipol on carcass in broiler chickens.
Revista Mexicana de CienciasPecuarias6(4): 469-481.
Shamsi S, Seidavi A, Rahati M, G Nieto JÁ (2015b). Edible mushroom
powder (Agaricusbisporus) and flavophospholipol improve performance and blood parameters of broilers. RevistaColombiana de CienciasPecuarias28(4): 291-302.
Shimadai Y, Morita T, Sugiyama K (2002). Effects of Lentinus edodes on
fatty acid and molecular species profiles of phosphatidylcholine in
rats fed different levels of corn oil. Bioscience, Biotechnology and
Biochemistry 66(8): 1759-1763.
Soares RDT, Fonseca JB, dos Santos ADO, Mercandante MB (2003).
Protein requirement of Japanese quail (Coturnixcoturnix Japonica)
during rearing and laying periods. Brazilian Journal of Poultry Science 5(2): 153-156.
SPSS (1998). SPSS for windows. Base System User’s Guide, Release
05. SPSS Inc., Chicago.
Ulger I (2019). Effects of pre-weaning probiotic treatments on growth
performance and biochemical blood parameters of Holstein calves.
Indian Journal of Animal Research 53(5): 644-647.
Ulger I, Onmaz AC, Ayaşan T (2017). Effects of silymarin (Silybum marianum) supplementation on milk and blood parameters of dairy cattle.
South African Journal of Animal Science 47(6): 758-765.
Van Der Wielen PW, Lipman LJ, Van Knapen F, Biesterveld S (2002).
Competitive exclusion of Salmonella entericaserovarEnteritidis by
Lactobacillus crispatus and Clostridium lactatifermentans in a sequencing fed-batch culture. Applied and Environmental Microbiology 68: 555-559.
Wang RJ, Li DF, Bourne S (1998). Can 2000 years of herbal medicine
history help us solve problems in the year 2000? In: Biotechnology in
the Feed Industry. Proceedings of Alltech’s 14th Annual Symposium
University Press, Nottingham, UK: 273–291.
Willis WL, Isikhuemhen OS, Ibrahim SA (2007). Performance assessment
of broiler chickens given mushroom extract alone or in combination
with probiotics. Poultry Science 86(9): 1856-1860.
Willis WL, Isikhuemhen OS, Hurley S, Ohimain EI (2011). Effect of
phase feeding supplemental fungus myceliated grain on oocyst excretion and performance of broiler chickens. International Journal of
Poultry Science10(1): 1-3.
Willis WL, Wall DC, Isikhuemhen OS, Ibrahim S, Minor RC, Jackson
J, Hurley SL, Anike F (2012). Effect of different mushrooms fed to
Eimeria-challenged broilers on rearing performance. International
Journal of Poultry Science 11(7): 433.
Willis WL, Wall DC, Isikhuemhen OS, Jackson JN, Ibrahim S, Hurley
SL, Anike F (2013). Effect of level and type of mushroom on performance, blood parameters and natural coccidiosis infection in floorreared broilers. The Open Mycology Journal7(1): 1-6.
Yang BK, Kim DH, Jeong SC, Das S, Choi YS, Shin JS, Lee SC, Song CH
(2002). Hypoglycemic effect of a Lentinusedodesexo-polymer producedfrom a submerged mycelial culture. Bioscience, Biotechnology,
and Biochemistry66(5): 937-942
