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Gao Y, Zhang W, Zhang T, Yu Y, Mao S, et al. 2024. Fructo-oligosaccharide supplementation enhances the growth of nursing dairy calves while stimulating the persistence of Bifidobacterium and hindgut microbiome's maturation. Journal of Dairy Science 107:5626−38

Koenig JE, Spor A, Scalfone N, Fricker AD, Stombaugh J, et al. 2011. Succession of microbial consortia in the developing infant gut microbiome. Proceedings of the National Academy of Sciences of the United States of America 108:4578−85

Zmora N, Suez J, Elinav E. 2019. You are what you eat: diet, health and the gut microbiota. Nature Reviews Gastroenterology & Hepatology 16:35−56

Amin N, Seifert J. 2021. Dynamic progression of the calf's microbiome and its influence on host health. Computational and Structural Biotechnology Journal 19:989−1001

Virgínio Júnior GF, Bittar CMM. 2021. Microbial colonization of the gastrointestinal tract of dairy calves − a review of its importance and relationship to health and performance. Animal Health Research Reviews 22:97−108

Godden SM, Smolenski DJ, Donahue M, Oakes JM, Bey R, et al. 2012. Heat-treated colostrum and reduced morbidity in preweaned dairy calves: results of a randomized trial and examination of mechanisms of effectiveness. Journal of Dairy Science 95:4029−40

Armengol R, Fraile L. 2016. Colostrum and milk pasteurization improve health status and decrease mortality in neonatal calves receiving appropriate colostrum ingestion. Journal of Dairy Science 99:4718−25

Godden S, McMartin S, Feirtag J, Stabel J, Bey R, et al. 2006. Heat-treatment of bovine colostrum. II: Effects of heating duration on pathogen viability and immunoglobulin G. Journal of Dairy Science 89:3476−83

Malmuthuge N, Chen Y, Liang G, Goonewardene LA, Guan LL. 2015. Heat-treated colostrum feeding promotes beneficial bacteria colonization in the small intestine of neonatal calves. Journal of Dairy Science 98:8044−53

Bristol LS, Duhamel GE, Zinckgraf JW, Crabb JH, Nydam DV. 2021. Effect of passive antibodies derived from rotavirus-like particles on neonatal calf diarrhea caused by rotavirus in an oral challenge model. Journal of Dairy Science 104:11922−30

Abebe R, Dema T, Libiyos Y, Teherku W, Regassa A, et al. 2023. Longitudinal study of calf morbidity and mortality and the associated risk factors on urban and peri-urban dairy farms in southern Ethiopia. BMC Veterinary Research 19:15

Jamaluddin AA, Hird DW, Thurmond MC, Carpenter TE. 1996. Effect of preweaning feeding of pasteurized and nonpasteurized milk on postweaning weight gain of heifer calves on a Californian dairy. Preventive Veterinary Medicine 28:91−99

Davila AM, Blachier F, Gotteland M, Andriamihaja M, Benetti PH, et al. 2013. Intestinal luminal nitrogen metabolism: Role of the gut microbiota and consequences for the host. Pharmacological Research 68:95−107

Kumar S, Khan MA, Beijer E, Liu J, Lowe KK, et al. 2021. Effect of milk replacer allowance on calf faecal bacterial community profiles and fermentation. Animal Microbiome 3:27

Maynard CL, Elson CO, Hatton RD, Weaver CT. 2012. Reciprocal interactions of the intestinal microbiota and immune system. Nature 489:231−41

Fischer AJ, Malmuthuge N, Guan LL, Steele MA. 2018. Short communication: The effect of heat treatment of bovine colostrum on the concentration of oligosaccharides in colostrum and in the intestine of neonatal male Holstein calves. Journal of Dairy Science 101:401−7

Fehr K, Moossavi S, Sbihi H, Boutin RCT, Bode L, et al. 2020. Breastmilk feeding practices are associated with the co-occurrence of bacteria in mothers' milk and the infant gut: the CHILD cohort study. Cell Host & Microbe 28:285−97

Schwaiger K, Storch J, Bauer C, Bauer J. 2023. Lactobacillus (Limosilactobacillus) reuteri: a probiotic candidate to reduce neonatal diarrhea in calves. Frontiers in Microbiology 14:1266905

Gomes V, Hoffmann C, Castro-Tardón DI, Ramos dos Santos FC, Suárez-Retamozo S, et al. 2024. Vertical transfer of gut microbiota from dam to neonate calf in the early of life. Scientific Reports 14:21746

Guo W, Liu S, Khan MZ, Wang J, Chen T, et al. 2024. Bovine milk microbiota: Key players, origins, and potential contributions to early-life gut development. Journal of Advanced Research 59:49−64

Zhuang Y, Liu S, Gao D, Xu Y, Jiang W, et al. 2024. Maternal gastrointestinal microbiome shapes gut microbial function and resistome of newborns in a cow-to-calf model. Microbiome 12:216

Martín R, Langa S, Reviriego C, Jimínez E, Marín ML, et al. 2003. Human milk is a source of lactic acid bacteria for the infant gut. The Journal of Pediatrics 143:754−58

Zhang X, Mushajiang S, Luo B, Tian F, Ni Y, et al. 2020. The composition and concordance of Lactobacillus populations of infant gut and the corresponding breast-milk and maternal gut. Frontiers in Microbiology 11:597911

Gänzle MG. 2015. Lactic metabolism revisited: metabolism of lactic acid bacteria in food fermentations and food spoilage. Current Opinion in Food Science 2:106−17

Rattanaprasert M, van Pijkeren JP, Ramer-Tait AE, Quintero M, Kok CR, et al. 2019. Genes involved in galactooligosaccharide metabolism in Lactobacillus reuteri and their ecological role in the gastrointestinal tract. Applied and Environmental Microbiology 85:e01788-19

Zhao X, Gänzle MG. 2018. Genetic and phenotypic analysis of carbohydrate metabolism and transport in Lactobacillus reuteri. International Journal of Food Microbiology 272:12−21