Effect of blue lupin seed or pea seed as a substitute for GM soybean meal in diets of fattening pigs on intestinal health

1ARNAL M.E., LALLÈS J.P., 2016 - Gut epithelial inducible heat‐shock proteins and their modulation by diet and the microbiota. Nutritions Reviers 74, 181-197.Search in Google Scholar

2BALASUBRAMANIAN B., SANG I.L., KIM I.H., 2018 - Inclusion of dietary multi‐species probiotic on growth performance, nutrient digestibility, meat quality traits, faecal microbiota and diarrhoea score in growing–finishing pigs. Italian Journal of Animal Science 17, 100-106.Search in Google Scholar

3BARTKIENE E., JUODEIKIENE G., VIDMANTIENE D., ZDUŃCZYK Z., ZDUŃCZYK P., JUŚKIEWICZ J., CIZEIKIENE D., MATUSEVICIUS P., 2013 - Influence of diets to Wistar rats supplemented with soya, flaxseed and lupine products treated by lactofermentation to improve their gut health. International Journal of Food Sciences and Nutrition 64, 730-739.Search in Google Scholar

4BRYANT L., RANGAN A., GRAFENAUER S., 2022 - Lupins and health outcomes: a systematic literature review. Nutrients 14, 327.Search in Google Scholar

5CHÁVEZ L., LÓPEZ A., PARRA J., 2016 - Crecimiento y desarrollo intestinal de aves de engorde alimentadas con cepas probióticas. Archivos de Zootecnia 65, 51-58.Search in Google Scholar

6CHE L., CHEN H., YU B., HE J., ZHENG P., MAO X., YU J., HUANG Z., CHEN D., 2014 - Long-term intake of pea fiber affects colonic barrier function, bacterial and transcriptional profile in pig model. Nutrition and Cancer 66, 388-399.Search in Google Scholar

7CHOCT M., DERSJANT-LI Y., MCLEISH J., PEISKER M., 2010 - Soy oligosaccharides and soluble non-starch polysaccharides: a review of digestion, nutritive and anti-nutritive effects in pigs and poultry. Asian-Australasian Journal of Animal Sciences 23, 1386-1398.Search in Google Scholar

8DOWARAH R., VERMA A.K., AGARWAL N., PATEL B.H.M., SINGH P., 2016 - Effect of swine based probiotic on performance, diarrhoea scores, intestinal microbiota and gut health of grower‐ finisher crossbred pigs. Livestock Science 195, 74-79.Search in Google Scholar

9DURANTI M., 2006 - Grain legume proteins and nutraceutical properties. Fitoterapia 77, 67-82.Search in Google Scholar

10FARZAN A., FRIENDSHIP R.M., 2010 - A clinical field trial to evaluate the efficacy of vaccination in controlling Salmonella infection and the association of Salmonella-shedding and weight gain in pigs. Canadian Journal of Veterinary Research 74, 258-263.Search in Google Scholar

11FOUHSE J.M., ZIJLSTRA R.T., WILLING B.P., 2016 - The role of gut microbiota in the health and disease of pigs. Animal Frontiers 6, 30-36.Search in Google Scholar

12GARDINER G.E., METZLER-ZEBELI B.U., LAWLOR P.G., 2020 - Impact of intestinal microbiota on growth and feed efficiency in pigs: A Review. Microorganisms 8, 1886.Search in Google Scholar

13GIANG H.H., VIET T.Q., OGLE B., LINDBERG J.E., 2011 - Effects of supplementation of probiotics on the performance, nutrient digestibility and faecal microflora in growing‐ finishing pigs. Asian-Australasian Journal of Animal Sciences 24, 655-661.Search in Google Scholar

14GÓRECKA D., 2008 - Dietary fiber. Nutritional and technological importance. Przemysł Zbożowo-Młynarski 11, 23-26. (In Polish)Search in Google Scholar

15GRELA E.R., SKOMIAL J., 2015 - Feeding Guidelines and Nutritional Value of Feed Mixtures for Pigs, Feeding Guidelines for Pigs, 2nd ed.; The Kielanowski Institute of Animal Physiology and Nutrition, PAS: Jablonna, Poland, p. 64. (In Polish).Search in Google Scholar

16GUARRERA P.M., 2005 - Traditional phytotherapy in Central Italy (Marche, Abruzzo and Latium). Fitoterapia 76, 1-25.Search in Google Scholar

17HANCZAKOWSKA E., KSIĘŻAK J., 2012 - Domestic sources of plant protein feeds as replacements of GM soybean meal in pig nutrition. Roczniki Naukowe Zoottechniki 2, 171-187. (In Polish).Search in Google Scholar

18HANCZAKOWSKA E., ŚWIĄTKIEWICZ M., 2015 - Using of legume seeds and rapeseed products as soybean meal replacers in pig feeding.. iadomości Zootechniczne 53, 163-172. (In Polish).Search in Google Scholar

19ITZA-ORTIZ M., SEGURA-CORREA J., PARRA-SUESCÚN J., AGUILAR-URQUIZO E., ESCOBAR-GORDILLO N., 2019 - Correlation between body weight and intestinal villi morphology in finishing pigs. Acta Universitaria 29, 1-4.Search in Google Scholar

20ITZA-ORTIZ M., QUEZADA-CASASOLA A., CASTILLO-CASTILLO Y., RODRÍGUEZGALINDO E., CARRERA-CHÁVEZ J. M., MARTÍN-OROZCO U., JARAMILLO-LÓPEZ E., CALZADA-NIEVES A., 2018 - Comparison of three sampling procedures for evaluating intestinal villi: A swine model. Revista Colombiana de Ciencias Pecuarias 31, 3-9.Search in Google Scholar

21JEROCH H., LIPIEC A., 2018 - Lupin seeds (Lupinus spp.) in poultry feeding. Wiadomości Zootechniczne 56, 119-134. (In Polish).Search in Google Scholar

22JEZIERNY D., MOSENTHIN R., BAUER E., 2010 - The use of grain legumes as a protein source in pig nutrition: a review. Animal Feed Science and Technology 157, 111-128.Search in Google Scholar

23JHA R., FOUHSE J.M., TIWARI U.P., LI L., WILLING B.P., 2019 - Dietary Fiber and Intestinal Health of Monogastric Animals. Frontiers in Veterinary Science 6, 48.Search in Google Scholar

24KONSTANTINOV S.R., AWATI A.A., WILLIAMS B.A., MILLER, B.G., JONES, P., STOKES, C.R., AKKERMANS A.D.L., SMIDT H., DE VOS W.M., 2006 - Post-natal development of the porcine microbiota composition and activities. Environmental Microbiology 8, 1191–1199.Search in Google Scholar

25KUNICKI-GOLDFINGER W.J.H., 1998 - The life of bacteria. Wyd. Nauk. PWN, 46-47. (In Polish).Search in Google Scholar

26LAN Y., 2004 - Gastrointestinal health benefits of soy water-soluble carbohydrates in young broiler chickens. In: Ph.D. Thesis. Wageningen University, The Netherlands.Search in Google Scholar

27LANGHOUT D.J., 1999 - The role of the intestinal flora as affected by NSP in broilers. In: Proceedings of the Twelfth European Symposium on Poultry Nutrition, Veldhoven, The Netherlands, August 15–19, 203–212.Search in Google Scholar

28LEE I.K., KYE Y.C., KIM G., KIM H.W., GU M.J., UMBOH J., MAARUF K., KIM S.W., YUN CHH., 2016 - Stress, nutrition, and intestinal immune responses in pigs — a review. Asian-Australasian Journal of Animal Sciences 29, 1075-1082.Search in Google Scholar

29MARTÍN-PEDROSA M., VARELA A., GUILLAMON E., CABELLOS B., BURBANO C., GOMEZ-FERNANDEZ J., DE MERCADO E., GOMEZ-IZQUIERDO E., CUADRADO C., MUZQUIZ M., 2016 - Biochemical characterization of legume seeds as ingredients in animal feed. Spanish Journal of Agricultural Research 14, e0901. DOI: 10.5424/sjar/2016141-7450.Search in Google Scholar

30MATEOS G.G., MARTÍN F., LATORRE M.A., VICENTE B., LÁZARO R., 2006 - Inclusion of oat hulls in diets for young pigs based on cooked maize or cooked rice. Animal Science 82, 57-63.Search in Google Scholar

31MIERLITA D., POPOVICI D., 2013 - Effect of partial substitution of soybean meal with lupin seeds on growth and economic efficiency of broilers. Lucrări Ştiinţifice -Seria Zootechnie 59, 60-65.Search in Google Scholar

32MISHRA D.K., VERMA A.K., AGARWAL N., MONDAL S.K., SINGH P., 2014 - Effect of dietary supplementation of probiotics on growth performance, nutrients digestibility and faecal microbiology in weaned piglets. Animal Nutrition and Feed Technology 14, 283-290.Search in Google Scholar

33MONTAGNE L., PLUSKE J.R., HAMPSON D.J., 2003 - A review of interactions between dietary fibre and the intestinal mucosa, and their consequences on digestive health in young non‐ruminant animals. Animal Feed Science and Technology 108, 95-117.Search in Google Scholar

34NGUYEN D.T.N., LE N.H., PHAM V.V., EVA P., ALBERTO F., LE, H.T., 2021 - Relationship between the ratio of villous height:crypt depth and gut bacteria counts as well production parameters in broiler chickens. The Journal of Agriculture and Development 20, 1-10.Search in Google Scholar

35PERSIA M.E., DEHORITY B.A., LIBURN M.S., 2002 - The effects of enzyme supplementation of corn- and wheat-based diets on nutrient digestion and cecal microbial populations in turkeys. Journal of Applied Poultry Research 11, 134-145.Search in Google Scholar

36PETRI D., HILL J.E., VAN KESSEL A.G., 2010 - Microbial succession in the gastrointestinal tract (GIT) of the preweaned pig. Livestock Science 133, 107-109.Search in Google Scholar

37PÍSAŘÍKOVÁ B., ZRALÝ Z., BUNKA F., TROČKOVÁ M., 2008 - Nutritional value of white lupine cultivar Butan in diets for fattening pigs. Veterinarni Medicina 53, 124-134.Search in Google Scholar

38PROBERT C.S., EMMETT P.M., HEATON K.W., 1995 - Some determinants of whole-gut transit time: a population-based study. QJM: An International Journal of Medicine 88, 311-315.Search in Google Scholar

39REKIEL A., GAJEWSKA J., TOPOL K., SAWOSZ E., 2005 - Effect of intensity of feeding on the intestinal microflora of pigs. Polish Journal of Microbiology 54, 331-334.Search in Google Scholar

40RESZKA P., DUNISLAWSKA A., SLAWIŃSKA A., SIWEK M., KAPELAŃSKI W., BOGUCKA J., 2020 - Influence of the effective microorganisms (EM) on performance, intestinal morphology and gene expression in the jejunal mucosa of pigs fed different diets. Journal of Animal Physiology and Animal Nutrition 104, 1444-1453.Search in Google Scholar

41SHIRKEY T.W., SIGGERS R.H., GOLDADE B.G., MARSALL J.K., DREW M.D., LAARVELD B., VAN KESSEL A.G., 2006 - Effects of commensal bacteria on intestinal morphology and expression of proinflammatory cytokines in the gnotobiotic pig. Experimental Biology and Medicine 231, 1333-1345.Search in Google Scholar

42SOŃTA M., REKIEL A., WIĘCEK J., BATORSKA M., 2020a - The economic efficiency of the production of fattening pigs fed with domestic protein sources as a replacement for GM soybean meal. Roczniki Naukowe Zootechniki 47, 123-135. (In Polish).Search in Google Scholar

43SOŃTA M., REKIEL A., WIĘCEK J., BATORSKA M., 2020b - Economic efficiency of the production of fatteners fed blue lupine as a replacement for GM soybean meal. Roczniki Naukowe Polskiego Towarzystwa Zootechnicznego 16, 37-48. (In Polish)Search in Google Scholar

44SOŃTA M., REKIEL A., 2017 - Production and use of legumes for fodder. Part II. The use of legumes in animal feeding. Przegląd Hodowlany 1, 19-25. (In Polish).Search in Google Scholar

45SUMIGRAY K.D., TERWILLIGER M., LECHLER T., 2018 - Morphogenesis and compartmentalization of the intestinal crypt. Developmental Cell 45, 183-197.Search in Google Scholar

46TUŚNIO A., TACIAK M., BARSZCZ M., ŚWIĘCH E., BACHANEK I., SKOMIAŁ J., 2017 -Effect of replacing soybean meal by raw or extruded pea seeds on growth performance and selected physiological parameters of the ileum and distal colon of pigs. PLoS ONE 12, e0169467.Search in Google Scholar

47TZORA A., GIANNENAS I., KARAMOUTSIOS A., PAPAIOANNOU N., PAPANASTASIOU D., BONOS E., SKOUFOS I., 2017 - Effects of oregano, attapulgite, benzoic acid and their blend on chicken performance, intestinal microbiology and intestinal morphology. The Journal of Poultry Science 54, 218-227.Search in Google Scholar

48VÁZQUEZ CACHAY M., HERNÁN A., 2012 - Desarrollo del epitelio del tracto intestinal y su participación en la defensa del organismo en mamíferos. Revista Electrónica de Veterinaria 13, 1-40.Search in Google Scholar

49VIGORS S., O’DOHERTY J.V., KELLY A.K., O’SHEA C.J., SWEENEY T., 2016 - The effect of divergence in feed efficiency on the intestinal microbiota and the intestinal immune response in both unchallenged and lipopolysaccharide challenged ileal and colonic explants. PLoS ONE 11, e0148145. DOI: 10.1371/journal.pone.0148145.Search in Google Scholar

50WANG S., LIU G., CAI L., DING J., YIN J., 2013 - Development of micro-ecological system in small and large intestine of piglets. In: Blachier F., Wu G., Yin Y. (red.), Nutritional and physiological functions of amino acids in pigs. Wien: Springer.Search in Google Scholar

51WILLING B.P., VAN KESSEL A.G., 2007 - Enterocyte proliferation and apoptosis in the caudal small intestine is influenced by the composition of colonizing commensal bacteria in the neonatal gnotobiotic pig. Journal of Animal Science 85, 3256-3266.Search in Google Scholar

52ZDUŃCZYK Z., JANKOWSKI J., MIKULSKI D., MIKULSKA M., LAMPARSKI G., SŁOMINSKI B.A., JUŚKIEWICZ J., 2014a - Growth performance, gastrointestinal function and meat quality in growing-finishing turkeys fed diets with different levels of yellow lupine (L. luteus) seeds. Archives of Animal Nutrition 68, 211-226.Search in Google Scholar

53ZDUŃCZYK Z., JANKOWSKI J., RUTKOWSKI A., SOSNOWSKA E., DRAŻBO A., ZDUŃCZYK P., JUŚKIEWICZ J., 2014b - The composition and enzymatic activity of gut microbiota in laying hens fed diets supplemented with blue lupine seeds. Animal Feed Science and Technology 191, 57-66.Search in Google Scholar

54ZDUŃCZYK Z., KRAWCZYK M., MIKULSKI D., JANKOWSKI J., PRZYBYLSKAGORNOWICZ B., JUŚKIEWICZ J., 2016 - Beneficial effects of increasing dietary levels of yellow lupine (Lupinus luteus) seed meal on productivity parameters and gastrointestinal tract physiology in eight-week-old turkeys. Animal Feed Science and Technology 211, 189-198.Search in Google Scholar