Publications

Book:

  1. F. Hassan, M. Alagwany and R. Jha, Eds. (2022). Interplay of nutrition and genomics: Potential for improving performance and health of poultry. Lausanne: Frontiers Media SA. ISBN: 978-2-83250-523-6.[PDF]
  2. X. Kong and R. Jha, Eds. (2022). Parent-offspring Integration: Gut Health and Physiological Functions of Animals. Lausanne: Frontiers Media SA. ISBN: 978-2-88974-398-8.[PDF]
  3. S. W. Kim and R. Jha, Eds. (2021). Nutritional Intervention for the Intestinal Health of Young Monogastric Animals. Lausanne: Frontiers Media SA. ISBN: 978-2-88966-730-7.[PDF]

Book Chapter and Editorial:

  1. R. Jha and T. A. Woyengo (2022). Cereal Grains, Cereal Grain By-products, and Other Energy Sources in Swine Diets. In: L. I. Chiba (Ed.), Sustainable Swine Nutrition (2nd Ed.). Wiley-Blackwell Publisher, Hoboken, NJ. eISBN: 978-1-119-58399-8. pp. 285-306.[LINK]
  2. F. Hassan, M. A. Alagawany, and R. Jha (2022). Editorial: Interplay of nutrition and genomics: Potential for improving performance and health of poultry. In: F. Hassan, M. A. Alagawany, and R. Jha (Eds.), Interplay of nutrition and genomics: Potential for improving performance and health of poultry. Frontiers in Physiology, 13:1030995.[PDF]
  3. X. Kong and R. Jha (2021). Editorial: Parent-offspring Integration: Gut Health and Physiological Functions of Animals. In: X. Kong and R. Jha (Eds.), Parent-offspring Integration: Gut Health and Physiological Functions of Animals. Frontiers in Veterinary Science, 8:808074.[PDF]
  4. R. Das. P. Mishra, and R. Jha (2021). In ovo feeding as a tool for improving performance and gut health of poultry: a review. In: X. Kong and R. Jha (Eds.), Parent-offspring Integration: Gut Health and Physiological Functions of Animals. Frontiers in Veterinary Science, 8:754246.[PDF]
  5. R. Jha and S. W. Kim (2021). Editorial: Nutritional Intervention for the Intestinal Health of Young Monogastric Animals. In: S. W. Kim and R. Jha (Eds.), Nutritional Intervention for the Intestinal Health of Young Monogastric Animals. Frontiers in Veterinary Science, 8:668563.[PDF]
  6. R. Jha, A. K. Singh, S. Yadav, J. F. D. Berrocoso, and B. Mishra (2019). Early nutrition programming (in ovo and post-hatch feeding) as a strategy to modulate gut health of poultry. In: S. W. Kim and R. Jha (Eds.), Nutritional Intervention for the Intestinal Health of Young Monogastric Animals. Frontiers in Veterinary Science, 6:82.[PDF]
  7. B. Mishra and R. Jha (2019). Oxidative stress in the poultry gut: Potential challenges and interventions. In: S. W. Kim and R. Jha (Eds.), Nutritional Intervention for the Intestinal Health of Young Monogastric Animals. Frontiers in Veterinary Science, 6:60.[PDF]
  8. R. Jha, J. M. Fouhse, U. P. Tiwari, L. Li, and B. P. Willing (2019). Dietary fiber and intestinal health of monogastric animals. In: S. W. Kim and R. Jha (Eds.), Nutritional Intervention for the Intestinal Health of Young Monogastric Animals. Frontiers in Veterinary Science, 6:48.[PDF]
  9. P. J. Moughan, W. Miner-Williams, and R. Jha (2018). The digestion of protein- amino acid digestibility. In: P. J. Moughan and; W. H. Hendriks (Eds.), Feed evaluation science. Wageningen Academic publishers, The Netherlands. eISBN: 978-90-8686-854-4. pp. 173-217.[LINK]

Thesis:

  1. Fibre Fermentation in the Pig Intestine: Effect on Metabolite Production and Nitrogen Excretion (2010). Thesis for Ph.D. degree (Worked at Prairie Swine Centre / University of Saskatchewan, Canada).[PDF]
  2. Effect of Diet Structure, Conformation and Acidification on the Performance and Gastrointestinal Tract Development of Broilers (2006). Major Thesis for M.Sc. degree (Worked at Wageningen University, The Netherlands).[PDF]
  3. Comparison of Total Tract Digestibility of Selected Nutrients in Pigs and Humans Fed Similar Diets (2006). Minor thesis for M.Sc. degree (Worked at Riddet Centre, Massey University, New Zealand).[PDF]
  4. Epidemiological Study of Animal Rabies in Nepal (1996). Thesis for B.V.Sc. & A.H. degree (Worked at Animal Health Directorate and Public Health Section, Nepal).

Papers in Peer-Reviewed Journals:

  1. R. Das, P. Mishra, B. Mishra, and R. Jha (2024). Effects of in ovo feeding of xylobiose and xylotriose on growth performance, carcass traits, ileal histomorphometry, and immune-related gene expression in broiler chickens. Animal Feed Science and Technology (accepted).
  2. H. Wang, X. He, J. Li, J. Wu, S. Jiang, H. Xue, J. Zhang, R. Jha, and R. Wang (2024). Lactic acid bacteria fermentation improves physicochemical properties, bioactivity, and metabolic profiles of Opuntia ficus-indica fruit juice. Food Chemistry, 453:139646. [PDF]
  3. R. Das, P. Mishra, B. Mishra, and R. Jha (2024). Effect of in ovo feeding of xylobiose and xylotriose on plasma immunoglobulin, cecal metabolites production, microbial ecology, and metabolic pathways in broiler chickens. Journal of Animal Science and Biotechnology, 15:62. [PDF]
  4. Y. Liu, X. Zhou, X. Hu, E. Li, Y. Fang, H, Xue, C. Li, J. Zhang, R. Jha, and R. Wang (2024). Bioaffinity ultrafiltration combined with UPLC-ESI-QTrap-MS/MS rapid screening of potential xanthine oxidase inhibitors in Paederia foetida L. leaf extract. Arabian Journal of Chemistry, 17:105706. [PDF]
  5. S. Al Amaz, A. H. Shahid, A. Chaudhary, R. Jha, and B.Mishra (2024). Embryonic thermal manipulation reduces hatch time, increases hatchability, thermotolerance, and liver metabolism in broiler embryos. Poultry Science, 103:103527. [PDF]
  6. S. Al Amaz, A. Chaudhary, P. L. Mahato, R. Jha, and B.Mishra (2024). Pre-hatch thermal manipulation of embryos and post-hatch baicalein supplementation mitigated heat stress in broiler chickens. Journal of Animal Science and Biotechnology, 15:8.[PDF]
  7. P. L. Mahato, T. Weatherby, K. Ewell, R. Jha, and B. Mishra (2024). Scanning electron microscope-based evaluation of eggshell quality. Poultry Science, 103:103428.[PDF]
  8. P. Mishra, R. Das, A. Chaudhary, B. Mishra, and R. Jha (2024). Effects of microalgae, with or without xylanase supplementation, on serum immunoglobulins, cecal short-chain fatty acids, microbial diversity, and metabolic pathways of broiler chickens. Poultry Science, 103:103325.[PDF]
  9. W. C. Liu, H. M. Liu, Y. Y. Wang, Z. X. Zhao, B. Balasubramanian, and R. Jha (2023). Effects of Enteromorpha prolifera polysaccharides on growth performance, intestinal barrier function, and cecal microbiota in yellow-feathered broilers under heat stress. Journal of Animal Science and Biotechnology, 14:132.[PDF]
  10. P. Mishra, R. Das, A. Chaudhary, B. Mishra, and R. Jha (2023). Effects of microalgae, with or without xylanase supplementation, on growth performance, organs development, and gut health parameters of broiler chickens. Poultry Science, 102:103056. [PDF]
  11. A. Chaudhary, P. Mishra, S. Al Amaz, P. L. Mahato, R. Das, R. Jha, and B. Mishra (2023). Dietary supplementation of microalgae mitigates the negative effects of heat stress in broilers. Poultry Science, 102:102958.[PDF]
  12. Y. Wu, R. Jha, A. Li, H. Liu, Z. Zhang, C. Zhang, Q. Zhai, and J. Zhang (2022). Probiotics (Lactobacillus plantarum HNU082) supplementation relieves ulcerative colitis by affecting intestinal barrier functions, immunity-related genes expression, gut microbiota, and metabolic pathways in mice. Microbiology Spectrum, 10(6):e01651-22.[PDF]
  13. X. Zhang, S. Zhang, D. Li, N. Zhang, Y. Wang, M. Wang, R. Jha, and C. Li (2022). Niacin inhibits post-acidification of yogurt based on the mining of LDB_RS00370 biomarker gene. Food Research International, 162:111929. [PDF]
  14. R. Mishra, R. Jha, B. Mishra, and Y. S. Kim (2022). Maternal immunization against myostatin suppresses post-hatch chicken growth. PLOS ONE, 17(10):e0275753.[PDF]
  15. R. Mishra, B. Mishra, Y. S. Kim, and R. Jha (2022). Practices and issues of molting programs for laying hen: A review. British Poultry Science, 63(5):720-729.[PDF]
  16. W. C. Liu, M. Y. Huang, B. Balasubramanian, and R. Jha (2022). Heat stress affects jejunal immunity of yellow-feathered broilers and is potentially mediated by the microbiome. Frontiers in Physiology, 13,913696.[PDF]
  17. U. P. Tiwari, R. K. Mandal, K. R. Neupane, B. Mishra, and R. Jha (2022). Starchy and fibrous feedstuffs differ in their in vitro digestibility and fermentation characteristics and differently modulate gut microbiota of swine. Journal of Animal Science and Biotechnology, 13:53.[PDF]
  18. W. C. Liu, Z. Y. Pan, Y. Zhao, Y. Guo, S. J. Qiu, B. Balasubramanian, and R. Jha (2022). Effects of heat stress on production performance, redox status, intestinal morphology and barrier-related gene expression, cecal microbiome, and metabolome in indigenous broiler chickens. Frontiers in Physiology, 13:890520.[PDF]
  19. A. K. Singh, U. P. Tiwari, B. Mishra, and R. Jha (2022). Effect of in ovo delivered xylo- and mannan- oligosaccharides on growth performance, intestinal immunity, cecal short-chain fatty acids, and cecal microbiota of broilers. Journal of Animal Science and Biotechnology, 13:13. [PDF]
  20. A. K. Singh, B. Mishra, M. R. Bedford, and R. Jha (2021). Effect of supplemental xylanase and xylooligosaccharides on production performance and gut health variables of broiler chickens. Journal of Animal Science and Biotechnology, 12:98. (Received 2022 Best Paper Award of the journal).[PDF]
  21. S. Wasti, N. Sah, C. N. Lee, R. Jha, and B. Mishra (2021). Dietary supplementation of alpha-lipoic acid mitigates the negative effects of heat stress in poultry. PLOS ONE, 16(7): e0254936.[PDF]
  22. S. H. Lee, Y. B. Kim, D. H. Kim, D. W. Lee, H.G. Lee, R. Jha, and K. W. Lee (2021). Dietary soluble flaxseed oils as a source of omega-3 polyunsaturated fatty acids for laying hens. Poultry Science, 100:101276.[PDF]
  23. Z. Zhang, Y. Wang, Y. Zhang, K. Chen, H. Chang, C. Ma, S. Jiang, D. Huo, W. Liu, R. Jha, and J. Zhang (2021). Synergistic effects of the jackfruit seed sourced resistant starch and Bifidobacterium pseudolongum subsp. globosum on suppression of hyperlipidemia in mice. Foods, 10:1431.[PDF]
  24. S. Yadav, K. D. Caliboso, J. E. Nanquil, J. Zhang, H. Kae, K. Neupane, B. Mishra, and R. Jha (2021). Cecal microbiome profile of Hawaiian feral chickens and pasture-raised broiler (commercial) chickens determined using 16S rRNA amplicon sequencing. Poultry Science, 100:101181.[PDF]
  25. A. K. Singh, R. K. Mandal, M. R. Bedford, and R. Jha (2021). Xylanase improves growth performance, enhances cecal short chain fatty acids production, and increases the relative abundance of fiber fermenting cecal microbiota in broilers. Animal Feed Science and Technology, 277:114956.[PDF]
  26. N. Sah, D. L. Kuehu, V. S. Khadka, Y. Deng, R. Jha, S. Wasti, and B. Mishra (2021). RNA sequencing-based analysis of the magnum tissues revealed the novel genes and biological pathways involved in the egg-white formation in the laying hen. BMC Genomics, 22:318.[PDF]
  27. R. Jha and P. Mishra (2021). Dietary fiber in poultry nutrition and their effects on nutrient utilization, performance, gut health, and on the environment: a review. Journal of Animal Science and Biotechnology, 12:51.[PDF]
  28. Y. Zhao, B. Balasubramanian, Y. Guo, S. J. Qiu, R. Jha, and W. C. Liu (2021). Dietary Enteromorpha polysaccharides supplementation improves breast muscle rate and is associated with modification of mRNA transcriptome in broiler chickens. Frontiers in Veterinary Science, 8:663988.[PDF]
  29. F. X. G. Jaramillo, D. H. Kim, S. H. Lee, S. K. Kwon, R. Jha, and K. W. Lee (2021). Role of oregano and Citrus species-based essential oil preparation for the control of coccidiosis in broiler chickens. Journal of Animal Science and Biotechnology, 12:47.[PDF]
  30. S. Wasti, N. Sah, A. K. Singh, C. N. Lee, R. Jha, and B. Mishra (2021). Dietary supplementation of Dried Plum: a novel strategy to mitigate heat stress in broiler chickens. Journal of Animal Science and Biotechnology, 12:58.[PDF]
  31. S. Yadav and R. Jha (2021). Macadamia nut cake as an alternative feedstuff for broilers: Effect on growth performance. Animal Feed Science and Technology, 275:114873.[PDF]
  32. A. R. Ganesan, B. Balasubramanian, S. Park, R. Jha, I. Andretta, A. G. Bakare, and I. H. Kim (2021). Ochratoxin A: Carry-over from animal feed into livestock and the mitigation strategies. Animal Nutrition, 7:56-63.[PDF]
  33. J. S. Odani, E. M. Sox, W. Coleman, R. Jha, and R. Malik (2021). First documented cases of canine neuroangiostrongyliasis due to Angiostrongylus cantonensis in Hawaii. Journal of the American Animal Hospital Association, 57(1):42-46.[PDF]
  34. D. H. Kim, H. Sadakane, Y. Nishikiori, M. Matsumura, M. Ikeda, Z. Diao, R. Jha, M. Murakami, T. Matsui, and M. Funaba (2020). Factors affecting expression and transcription of uncoupling protein 2 gene. The Journal of Veterinary Medical Science, 82(12):1734-1741. [PDF]
  35. W. C. Liu, Y. Guo, Z. H. Zhao, R. Jha, and B. Balasubramanian (2020). Algae-derived polysaccharides promote growth performance by improving antioxidant capacity and intestinal barrier function in broiler chickens. Frontiers in Veterinary Science, 7:601336. [PDF]
  36. R. Jha, R. Das, S. Oak, and P. Mishra (2020). Probiotics (Direct-fed microbials) in poultry nutrition and their effects on nutrient utilization, growth and laying performance, and gut health: A systematic review. Animals, 10(10):1863. (Received 2022 Best Paper Award of the journal).[PDF]
  37. J. Zhang, K. Cai, R. Mishra, and R. Jha (2020). In ovo supplementation of chitooligosaccharide and chlorella polysaccharide affect cecal microbial community, metabolic pathways, and fermentation metabolites in broiler chickens. Poultry Science, 99:4476-4785.[PDF]
  38. H. T. Nhan, T. Q. Nhu, P. M. Duc, L. H. Jung, H. Ako, and R. Jha (2020). Effects of dietary arachidonic acid on final maturation, spawning, and composition of gonad of black sea urchin Diadema setosum (Leske, 1778). Aquaculture Nutrition, 26:1771-1779.[PDF]
  39. U. P. Tiwari, S. A. Fleming, M. S. A. Rasheed, R. Jha, and R. N. Dilger (2020). The role of oligosaccharides and polysaccharides of xylan and mannan in gut health of monogastric animals. Journal of Nutritional Science, 9 (e21):1-9. [PDF]
  40. S. Wasti, N. Sah, D. Keuhu, Y. S. Kim, R. Jha, and B. Mishra (2020). Expression of follistatin is associated with egg formation in the oviduct of laying hens. Animal Science Journal, e13396:1-8.[PDF]
  41. C. Li, Z. Niu, M. Zou, S. Liu, M. Wang, X. Gu, H. Lu, H. Tian, and R. Jha (2020). Probiotics, prebiotics, and synbiotics regulate the intestinal microbiota differentially and restore the relative abundance of specific gut microorganisms. Journal of Dairy Science, 103:5816-5829. [PDF]
  42. P. Adhikari, A. Kiess, R. Adhikari, and R. Jha (2020). An approach to alternative strategies to control avian coccidiosis and necrotic enteritis. Journal of Applied Poultry Research, 29:515-534.[PDF]
  43. A. Needham, R. Jha, and N. K. Lincoln (2020). The response of breadfruit nutrition to local climate and soil: A review. Journal of Food Composition and Analysis, 88:103451.[PDF]
  44. J. L. Yanez, T. A. Woyengo, R. Jha, T. A. T. G. van Kempen, and R. T. Zijlstra (2019). Nutrient digestibility of soybean products in grower-finisher pigs. Journal of Animal Science, 97(11):4598-4607.[PDF]
  45. B. J. Kerr, P. E. Urriola, R. Jha, J. Thomson, S. M. Curry, and G. C. Shurson (2019). Amino acid composition and digestible amino acid content in animal protein by-product meals fed to growing pigs. Journal of Animal Science, 97(11):4540-4547. [PDF]
  46. A. K. Singh, U. P. Tiwari, J. D. Berrocoso, Y. Dersjant-Li, A. Awati, and R. Jha (2019). Effect of a combination of xylanase, amylase, and protease and probiotics on major nutrients including amino acids and non-starch polysaccharides utilization in broilers fed different level of fibers. Poultry Science, 98:5571-5581.[PDF]
  47. S. Yadav, B. Mishra, and R. Jha (2019). Cassava (Manihot esculenta) root chips inclusion in the diets of broiler chickens: effects on growth performance, ileal histomorphology, and cecal volatile fatty acid production. Poultry Science, 98:4008-4015.[PDF]
  48. Y. Jiao, R. Jha, W. L. Zhang and I. H. Kim (2019). Effects of chitooligosaccharide supplementation on egg production, egg quality and blood profiles in laying hens. Indian Journal of Animal Research, 53:1199-1204.[PDF]
  49. U. P. Tiwari, A. K. Singh, and R. Jha (2019). Fermentation characteristics of resistant starch, arabinoxylan, and β-glucan and their effects on the gut microbial ecology of pigs: A review. Animal Nutrition, 5:217-226.[PDF]
  50. S. J. Oak and R. Jha (2019). The effects of probiotics in lactose intolerance: A systematic review. Critical Reviews in Food Science and Nutrition, 59(11):1675-1683.[PDF]
  51. R. Jha and R. T. Zijlstra (2019). Physico-chemical properties of purified starch affect their in vitro fermentation characteristics and are linked to in vivo characteristics in pigs. Animal Feed Science and Technology, 253:74-80.[PDF]
  52. H. T. Nhan, T. X. Minh, L. H. Jung, T. T. Thanh Hien, and R. Jha (2019). Effects of natural dietary carotenoids on skin coloration of false Clownfish (Amphiprion ocellaris Cuvier, 1830). Aquaculture Nutrition, 25:662-668.[PDF]
  53. S. Yadav and R. Jha (2019). Strategies to modulate the intestinal microbiota and their effects on nutrient utilization, performance, and health of poultry. Journal of Animal Science and Biotechnology, 10:2. (Received 2019 Best Paper Award and is featured as "Top 10 Papers in 10 Years"of the Journal).[PDF]
  54. Y. Liu, R. Jha, and H. Stein (2018). Nutritional composition, gross energy concentration, and in vitro digestibility of dry matter in 46 sources of bakery meals. Journal of Animal Science, 96(11):4685-4692.[PDF]
  55. N. Sah, D. L. Kuehu, V. S. Khadka, Y. Deng, K. Peplowska, R. Jha, and B. Mishra (2018). RNA sequencing-based analysis of the laying hens uterus revealed the novel genes and biological pathways involved in the eggshell biomineralization. Scientific Reports, 8:16853.[PDF]
  56. U. P. Tiwari, H. Chen, S. W. Kim, and R. Jha (2018). Supplemental effect of xylanase and mannanase on nutrient digestibility and gut health of nursery pigs studied using both in vivo and in vitro model. Animal Feed Science Technology, 245:77-90.[PDF]
  57. A. Mau, J. P. Bingham, F. Soller, and R. Jha (2018). Maturation, spawning and larval development of yellowfoot limpet (Cellana sandwicensis Pease, 1861) in aquaculture. Invertebrate Reproduction and Development, 62(4):239-247.[PDF]
  58. A. Mau and R. Jha (2018). Aquaculture of two commercially important molluscs (Abalone and Limpet): Existing knowledge and future prospects. Reviews in Aquaculture, 10(3):611-625.[PDF]
  59. A. M. Haygood and R. Jha (2018). Strategies to modulate the intestinal microbiota of Tilapia (Oreochromis sp.) in aquaculture: a review. Reviews in Aquaculture, 10(2):320-333.[PDF]
  60. R. Jha and R. T. Zijlstra (2018). Physico-chemical properties of purifies fiber and their in vitro fermentation characteristics and are linked to in vivo characteristics in pigs. Canadian Journal of Animal Science, 98:394-398.[PDF]
  61. K. J. McDermid, R. Jha, M. R. Rice, and G. H. Blazs (2018). Of turtles and trees: Nutritional analysis of tree heliotrope (Heliotropium foertherianum) leaves consumed by green turtles (Chelonia mydas) in Hawaii. Micronesica, 2:1-11.[PDF]
  62. A. Mau and R. Jha (2018). Effect of dietary protein to energy ratio on growth performance of yellowfoot limpet (Cellana sandwicensis Pease, 1861). Aquaculture Reports, 10:17-22.[PDF]
  63. J. D. Berrocoso, S. Yadav, and R. Jha (2017). Nitrogen-corrected apparent metabolizable energy value of macadamia nut cake for broiler chickens determined by difference and regression methods. Animal Feed Science Technology, 234:65-71.[PDF]
  64. U. P. Tiwari and R. Jha (2017). Nutrients, amino acid, fatty acid and non-starch polysaccharide profile and in vitro digestibility of macadamia nut cake in swine. Animal Science Journal, 88(8):1093-1099.[PDF]
  65. A. K. Singh, J. D. Berrocoso, Y. Dersjant-Li, A. Awati, and R. Jha (2017). Effect of a combination of xylanase, amylase, and protease on growth performance of broilers fed low and high fiber diets. Animal Feed Science and Technology, 232:16-20. [PDF]
  66. B. J. Kerr, R. Jha, P. E. Urriola and G. C. Shurson (2017). Nutrient composition, digestible and metabolizable energy content, and prediction of energy for animal protein by-products in finishing pig diets. Journal of Animal Science, 95:2614–2626. [PDF]
  67. J. D. Berrocoso, R. Kida, A. K. Singh, Y. S. Kim and R. Jha (2017). Effect of in ovo injection of raffinose on growth performance and gut health parameters of broiler chicken. Poultry Science, 96:1573–1580.[PDF]
  68. U. P. Tiwari and R. Jha (2016). Nutrient profile and digestibility of tubers and agro-industrial coproducts determined using an in vitro model of swine. Animal Nutrition, 2:357-360.[PDF]
  69. B. Turano, U. P. Tiwari, and R. Jha (2016). Growth and nutritional evaluation of napier grass hybrids as forage for ruminants. Tropical Grasslands, 4(3):168-178. [PDF]
  70. K. C. Surendra, R. Olivier, J. K. Tomberlin, R. Jha, and S. K. Khanal (2016). Bioconversion of organic wastes into biodiesel and animal feed via insect farming. Renewable Energy, 98:197-202.[PDF]
  71. T. A. Woyengo, R. Jha, E. Beltranena, and R. T. Zijlstra (2016). In vitro digestion and fermentation characteristics of canola co-products simulate their digestion in the pig intestine. ANIMAL, 10:911-918.[PDF]
  72. R. Jha and J. F. D. Berrocoso (2016). Dietary fiber and protein fermentation in the intestine of swine and their interactive effects on gut health and on the environment: A review. Animal Feed Science and Technology, 212:18-26.[PDF]
  73. R. Jha and J. D. Berrocoso (2015). Review: Dietary fiber utilization and its effects on physiological functions and gut health of swine. ANIMAL, 9:1441-1452.[PDF]
  74. R. Jha, T. A. Woyengo, J. Li, M. R. Bedford, T. Vasanthan, and R. T. Zijlstra (2015). Enzymes enhance degradation of the fiber-starch-protein matrix of distillers dried grains with solubles as revealed by a porcine in vitro fermentation model and microscopy. Journal of Animal Science, 93:1039-1051.[PDF]
  75. U. P. Tiwari, B. Turano, and R. Jha (2014). Nutritional characteristics and in vitro digestibility by near-infrared spectroscopy of local and hybrid napiergrass varieties grown in rain-fed and irrigated conditions. Animal Production Science, 54:1775-1778.[PDF]
  76. T. A. Woyengo, R. Jha, E. Beltranena, A. Pharazyn, and R. T. Zijlstra (2014). Nutrient digestibility of lentil and regular- and low-oligosaccharide, micronized full-fat soybean fed to grower pigs. Journal of Animal Science, 92:229-237.[PDF]
  77. R. Jha, J. K. Htoo, M. G. Young, E. Beltranena, and R. T. Zijlstra (2013). Effect of increasing co-product inclusion and reducing dietary protein on growth performance, carcass characteristics, and jowl fatty acid profile of grower-finisher pigs. Journal of Animal Science, 91(5):2178-2191.[PDF]
  78. R. Jha, A. Owusu-Asiedu, P. H. Simmins, A. Pharazyn, and R. T. Zijlstra (2012). Degradation and fermentation characteristics of wheat co-products from flour milling in the pig intestine, studied in vitro. Journal of Animal Science, E-suppl. 90(4):173-175.[PDF]
  79. R. T. Zijlstra, R. Jha, A. D. Woodward, J. Fouhse, and T. A. T. G. van Kempen (2012). Invited review: Starch and fiber properties affect their kinetics of digestion and thereby digestive physiology in pigs. Journal of Animal Science, E-suppl. 90(4):49-58.[PDF]
  80. R. Jha and P. Leterme (2012). Feed ingredients differing in fermentable fibre and indigestible protein content affect fermentation metabolites and faecal nitrogen excretion in growing pigs. ANIMAL, 6:603-611.[PDF]
  81. R. Jha, D. N. Overend, P. H. Simmins, D. Hickling, and R. T. Zijlstra (2011). Chemical characteristics, feed processing quality, voluntary feed intake, growth performance, and energy digestibility among wheat classes fed in pelleted diets fed to weaned pigs. Animal Feed Science and Technology, 170:78-90.[PDF]
  82. R. Jha, J. Bindelle, A. Van Kessel, and P. Leterme (2011). In vitro fibre fermentation of feed ingredients with varying fermentable carbohydrate and protein levels and protein synthesis by colonic bacteria isolated from pigs. Animal Feed Science and Technology, 165:191-200.[PDF]
  83. R. Jha, J. Bindelle, B. Rossnagel, A. Van Kessel, and P. Leterme (2011). In vitro evaluation of the fermentation characteristics of the carbohydrate fractions of hulless barley and other cereals in the gastrointestinal tract of pigs. Animal Feed Science and Technology, 163:185-193.[PDF]
  84. R. Jha, J. Bindelle, B. Rossnagel, A. Van Kessel, and P. Leterme (2010). In vitro fermentation characteristics for pigs of hulless barleys differing in beta-glucan content. Livestock Science, 133:141-143.[PDF]
  85. E. Avelar, R. Jha, E. Beltranena, M. Cervantes, A. Morales, and R. T. Zijlstra (2010). The effect of feeding wheat distillers dried grain with solubles on growth performance and nutrient digestibility in weaned pigs. Animal Feed Science and Technology, 160:73-77.[PDF]
  86. R. Jha, B. Rossnagel, R. Pieper, A. Van Kessel, and P. Leterme (2010). Barley and oat cultivars with diverse carbohydrate composition alter ileal and total tract nutrient digestibility and fermentation metabolites in weaned piglets. ANIMAL, 4:724-731.[PDF]
  87. R. Pieper, R. Jha, B. Rossnagel, A. Van Kessel, W. B. Souffrant, and P. Leterme (2008). Effect of barley and oat cultivars with different carbohydrate compositions on the intestinal bacterial communities in weaned piglets. FEMS Microbiology Ecology, 66:556-566.[PDF]

Papers in Peer-Reviewed Conference Proceedings:

  1. N. Stohr, F. Geisel, J. G. Brettschneider, L. Schneider, R. Jha, and G. Dusel* (2024). Feeding live black soldier fly larvae affects growth performance and fatty acid profile in muscle and liver of broiler chickens. Proceedings of BOKU-Symposium (Feb 29, 2024), Vienna, Austria. pp. 43-46.[PDF]
  2. R. Jha and B. Mishra (2023). Feeding and nutritional strategies for commercial poultry dealing with climate changes. Proceedings of 23rd European Symposium on Poultry Nutrition (June 21-24, 2023), Rimini, Italy. pp. 26-29.[PDF]
  3. N. Stohr, P. Harig, R. Ibrahim, K. Schuh-van Graevenitz, R. Jha, and G. Dusel (2023). Black soldier fly larvae (Hermetia illucens) meal in low inclusion rates is a suitable protein source for broiler chickens. Proceedings of BOKU-Symposium (Apr 20, 2023), Vienna, Austria. pp. 135-139.[PDF]
  4. R. Jha and U. P. Tiwari (2016). Rapid techniques in feed evaluation: Scope and limitations. Proceedings of New Zealand Poultry Industry Conference (Oct 4-5, 2016), Wellington, New Zealand. 13:84-102.[PDF]
  5. Y. S. Kim, G. Fukumoto, M. Stevenson, M. Thorne, and R. Jha (2016). Carcass traits and tenderness of grass-fed beef from subtropical pastures in Hawaii. Proceedings of 17th AAAP Animal Science Congress (Aug 22-25, 2016), Fukuoka, Japan. pp. 1525-1529.[PDF]
  6. U. P. Tiwari and R. Jha (2015). Nutrient profile and in vitro digestibility of fresh and ensiled cassava in swine. Proceeding of the 3rd International Seminar on Animal Industry (Sept 17-18, 2015), Bogor, Indonesia. pp. 252-253.[PDF]
  7. R. T. Zijlstra and R. Jha (2012). Novel swine feeding programs to enhance competitiveness and pork differentiation: Feedstuffs and Carbohydrates. Advances in Pork Production, 23:227-232.[PDF]
  8. R. T. Zijlstra, P. Regmi, L. Wang, and R. Jha (2011). In vitro techniques to describe energy digestibility and kinetics of carbohydrate degradation of feedstuffs in pigs. Computerized Journal of Pig Production, 18 (3):174-176.
  9. R. T. Zijlstra, M. Swift, L. Wang, P. Regmi, J. H. Helm, and R. Jha (2010). Rapid methods for prediction of energy values of feedstuffs for pigs. Proceedings of Western Nutrition Conference (Sept 21-23, 2010), Saskatoon, SK, Canada. pp. 235-242.
  10. R. Jha, B. Pakhrin, and R. P. Thakur (1997). Reproductive problems in pigs in the eastern hills of Nepal. Proceedings of 2nd National Workshop on Livestock and Fisheries Research (Sept 24-25, 1997), Lalitpur, Nepal. pp. 11-17.
  11. I. P. Dhakal, R. Jha, and H. B. Basnet (1996). Common diseases of livestock at Pathivara VDC of Sankhuwasava. Bulletin of Veterinary Science and Animal Husbandry Nepal, 24:95-99.

Extension Papers:

  1. M. DuPonte, J. Odani, Y. Li, R. Jha, T. Kow, and J. Kahana (2020). An overview of Hawaii egg quality assurance program for producer education and implementation programing: A new producer guide. UH-CTAHR Cooperative Extension Service, LM-37:1-7. [PDF]
  2. L. Stevens, M.W. DuPonte, and R. Jha (2019). Nutritional value of agricultural by-products of the Hawaiian Islands to be used as animal feeds. UH-CTAHR Cooperative Extension Service, LM-34:1-9.[PDF]
  3. M.W. DuPonte, K. Cowell and R. Jha (2016). Banana silage: An alternative feed for swine. UH-CTAHR Cooperative Extension Service, LM-31:1-8.[PDF]
  4. Y. S. Kim, G. Fukumoto, M. Stevenson, M. Thorne, and R. Jha (2015). Carcass traits and tenderness of Hawaii grass-fed beef. UH-CTAHR Cooperative Extension Service, LM-29:1-7.[PDF]
  5. T. A. Woyengo, R. Jha, E. Beltranena, A. Pharazyn and R. T. Zijlstra (2013). Nutritive value of lentil, and regular and low-oligosaccharides full-fat soybean fed to grower pigs. Wester Hog Journal, 34 (5):58-61.
  6. R. Jha, P. Regmi, L. Wang, A. Pharazyn and R. T. Zijlstra (2012). Nutrient profile and energy digestibility of wheat co-products from flour milling in growing pigs. Western Hog Journal, 34 (2):46-48.
  7. R. Jha, J. K. Htoo, M. G. Young, E. Beltranena, and R. T. Zijlstra (2012). The effects of increasing feed inclusions of co-products and reducing dietary crude protein on pork omega-3 fatty acid and feed cost. Western Hog Journal, 33 (3):46-49.
  8. R. Jha, J. K. Htoo, M. G. Young, E. Beltranena, and R. T. Zijlstra (2011). Dietary co-products may enhance pork omega-3 fatty acid and reduce feed costs without affecting carcass quality and growth. Western Hog Journal, 32 (5):56-58.
  9. R. Jha and R. T. Zijlstra (2010). Performance of weaned pig is equal among wheat classes. Western Hog Journal, 32 (3):48-50.
  10. R. Jha, E. Avelar, E. Beltranena, M. Cervantes, A. Morales, and R. T. Zijlstra (2010). Feeding wheat distillers dried grain with solubles to weaned pigs. Western Hog Journal, 31 (5):38-39.
  11. R. Jha, L. Johnston, J. Bindelle, A. Van Kessel, and P. Leterme (2009). In vitro fibre fermentation characteristics of specialty ingredients with varying non-starch polysaccharides levels. Annual Research Report. Prairie Swine Centre, Saskatoon, SK, Canada. pp. 44-46.
  12. R. Jha, L. Johnston, and P. Leterme (2009). The effect of different feed ingredients on fermentation metabolites and nitrogen excretion in pigs. Annual Research Report. Prairie Swine Centre, Saskatoon, SK, Canada. pp. 47-48.
  13. R. Jha, B. Rossnagel, P. Kish, R. Pieper, A. Van Kessel, and P. Leterme (2007). Hulless barleys as health-promoters for the pig gastrointestinal tract. Annual Research Report. Prairie Swine Centre, Saskatoon, SK, Canada. pp. 29-30.

Abstracts:

  1. P. Mishra, R. Das, B. Mishra, and R. Jha (2024). Dietary microalgae and xylanase influence cecal microbiota and microbial pathways in broiler chickens. In: Proceedings of Annual Meeting of the American Society for Microbiology- Hawaii Branch (Apr 27, 2024). Abstract # O4, pp. 10.
  2. R. Das, P. Mishra, G. González-Ortiz, M. R. Bedford, B. Mishra, and R. Jha (2024).Effect of in ovo xylooligosaccharides and dietary stimbiotics on enhancing gut health of broiler chickens. In: Proceedings of Annual Meeting of the American Society for Microbiology- Hawaii Branch (Apr 27, 2024). Abstract # P13, pp. 31.
  3. R. Jha (2023). Sustainable poultry production: Focus on nutrition and gut health. In: Proceedings of the "International Food Animal Conference (Aug 30 - Sept 1, 2023), Can Tho City, Vietnam. pp. 11.
  4. M. Gaa, E. R. Atwill, K. Lee, Y. Liu, M. Pitesky, R. Jha, ....., and X. Li (2023). The National Antimicrobial Resistance Monitoring System Extending Retail Food Surveillance to Hawaii. IAFP Annual Meeting Abstracts, pp. 80 (#T14-08).
  5. P. Mishra, R. Das, A. Chaudhary, B. Mishra, and R. Jha (2023). Microalgae and xylanase in diet modulate cecal microbial diversity and metabolic pathways of broiler chickens. Poultry Science, 102 (Suppl. 1):191 (Abstract # 420P).
  6. R. Das, P. Mishra, B. Mishra, and R. Jha (2023). Effects of in ovo injection of xylobiose and xylotriose on immunity, cecal metabolites, microbial ecology, and metabolic pathways in broiler chickens. Poultry Science, 102 (Suppl. 1):190-191 (Abstract # 419P).
  7. R. Das, P. Mishra, G. Gonzalez Ortiz, M. Bedford, B. Mishra, and R. Jha (2023). Effect of in ovo injection of xylooligosaccharides and diets supplemented with xylanase or a combination of xylanase and xylooligosaccharides on hatchability, growth performance, and ileal gene expressions of broilers. Poultry Science, 102 (Suppl. 1):190 (Abstract # 418P).
  8. N. Stohr, P. Harig, R. Ibrahim, K. Schuh-van Graevenitz, R. Jha, and G. Dusel (2023). Black soldier fly larvae meal as an alternative protein source in broiler chicken's diet. Proceedings of the 23rd European Symposium on Poultry Nutrition (June 21-24, 2023), Rimini, Italy. Abstract # PS5-002, pp. 360.
  9. P. Mishra, R. Das, A. Chaudhary, B. Mishra, and R. Jha (2023). Effects of microalgae, with or without xylanase supplementation, on serum immunoglobulins, cecal short-chain fatty acids, and microbiome of broiler chickens. Abstracts of the International Poultry Scientific Forum (Jan 23-24, 2023), Atlanta, GA, USA. Abstract # P302, pp. 94-95.
  10. P. Mishra, R. Das, A. Chaudhary, B. Mishra, and R. Jha (2023). Effects of microalgae, with or without xylanase supplementation, on growth performance and gut health parameters of broiler chickens. Abstracts of the International Poultry Scientific Forum (Jan 23-24, 2023), Atlanta, GA, USA. Abstract # P303, pp. 94.
  11. A. Chaudhary, P. Mishra, R. Das, S. Al Amaz, P. Mahato, R. Jha, and B. Mishra (2023). Mitigation of heat stress in broiler chickens using dietary supplementation of microalgae ( Spirulina platensis). Abstracts of the International Poultry Scientific Forum (Jan 23-24, 2023), Atlanta, GA, USA. Abstract # P261, pp. 82.
  12. R. Das, P. Mishra, B. Mishra, and R. Jha (2023). Effects of in ovo injection of xylobiose and xylotriose on growth performance, carcass traits, and immune-related gene expression of broilers. Abstracts of the International Poultry Scientific Forum (Jan 23-24, 2023), Atlanta, GA, USA. Abstract # M99, pp. 32.
  13. R. Jha (2022). Applications of in ovo technologies in poultry production. In: Proceedings of 3rd International conference in IT-Bio Convergence System (Jan 25, 2022), Korea. pp. 17.
  14. R. Jha, R. Das, B. Mishra, A. J. Cowieson (2021). Sources of corn and soybean meal and carbohydrase enzyme supplementation differently affect cecal volatile fatty acid production and microbiota profile in broiler chickens. Poultry Science, 100 (Suppl. 1):185 (Abstract # 372).
  15. R. Jha, R. Das, B. Mishra, A. J. Cowieson (2021). Sources of corn and soybean meal and carbohydrase enzymes supplementation differently affect growth performance and nutrient digestibility in broiler chickens. Poultry Science, 100 (Suppl. 1):184-185 (Abstract # 371).
  16. R. Jha, R. Das, and P. Mishra (2021). Maternal nutrition and in ovo feeding affect gut health and performance of poultry. Journal of Animal Science, 99 (Suppl.3):68 (Abstract # 129).
  17. G. Martinez, R. Jha, V. Fellner and E. van Heugten (2021). In vitro evaluation of purified fiber sources for production of short-chain fatty acids using pig cecal content as an inoculum. Journal of Animal Science, 99 (Suppl. 1):177 (Abstract # PSIII-12).
  18. J. Zhang, K. Cai, R. Mishra, and R. Jha (2020). Effects of in ovo inoculation of chicken embryos with chitooligosaccharide and chlorella polysaccharide on the gut health parameters of broiler chickens. Poultry Science, 99 (Suppl. 1):41 (Abstract # 80).
  19. A. K. Singh, T. Park, J. Legaspi, K. Neupane, and R. Jha (2020). Effect of NSPase enzyme and residual fiber from digested feed on cecal short chain fatty acids production and cecal microbiota diversity in broilers, studied in vitro. Poultry Science, 99 (Suppl. 1):40-41 (Abstract # 79).
  20. A. K. Singh, B. Mishra, M. R. Bedford, and R. Jha (2020). Effects of xylanase and xylooligosaccharides supplementation on productive performance and gut health variables of broilers. Poultry Science, 99 (Suppl. 1):40 (Abstract # 78).
  21. S. Wasti, C. N. Lee, R. Jha and B. Mishra (2020). Dietary supplementation of alpha-lipoic acid mitigates the negative effects of heat stress in poultry. Poultry Science, 99 (Suppl. 1):85-86 (Abstract # 170).
  22. R. Mishra, R. Jha, B. Mishra, and Y.S. Kim (2020). Effects of maternal immunization against myostatin on the post-hatch growth performance of their chicks. Poultry Science, 99 (Suppl. 1):27-28 (Abstract # 50).
  23. B. Adhikari, C. N. Lee, V. S. Khadka, Y. Deng, R. Jha, and B. Mishra (2020). RNA-sequencing based analysis of bovine endometrium during the maternal recognition of pregnancy. SRS Virtual Abstracts. pp. 297-298 (Abstract # 2083).
  24. A. MacDonald, A. Garcia-Ortega, and R. Jha (2020). The effect of microalgae as a fish meal and fish oil replacement on the intestinal microbiota of Tilapia (Oreochromis niloticus × O. mossambicus) aquaculture from gut health perspective. Abstracts of the Aquaculture America 2020 (Feb 9-11, 2020) Honolulu, HI, USA. pp. 407.
  25. A. Garcia-Ortega, A. MacDonald, and R. Jha (2020). Algal meals from Arthrospira platensis and Schizochytrium limacinum as complete replacement of fish meal, fish oil and soy protein concentrate in feeds for Tilapia. Abstracts of the Aquaculture America 2020 (Feb 9-11, 2020) Honolulu, HI, USA. pp. 233.
  26. A. K. Singh, B. Mishra, and R. Jha (2020). Early post-hatch feeding of resistant starch can influence cell mediated immunity and gut microbiota diversity in broilers. Abstracts of the International Poultry Scientific Forum (Jan 27-28, 2020), Atlanta, GA, USA. Abstract # P338, pp. 103.
  27. A. K. Singh, R. K. Mandal, M. R. Bedford, and R. Jha (2020). Xylanase improves growth performance, enhances cecal short chain fatty acids production and increases relative abundance of fiber fermenting cecal microbiota in broilers. Abstracts of the International Poultry Scientific Forum (Jan 27-28, 2020), Atlanta, GA, USA. Abstract # T180, pp. 55-56.
  28. K. Caliboso, J. Nanquil, S. Yadav, H. Kae, K. Neupane, B. Mishra, and R. Jha (2019). Cecal microbiota profile of Hawaiian feral chickens and pasture-raised broiler chickens. Poultry Science, 98(E-suupl. 1):178 (abstract # 454P).
  29. A. K. Singh, U.P. Tiwari, B. Mishra, and R. Jha (2019). Comparative effects of in ovo injection of oligosaccharides (xylotriose, xylotetraose, mannotriose, and mannotetraose) on growth performance and gut health parameters of broilers. Poultry Science, 98(E-suupl. 1):181 (abstract # 462P).
  30. A. K. Singh, B. Mishra, and R. Jha (2019). Effects of early feeding with resistant starch during post-hatch on growth performance and gut health parameters of broilers. Poultry Science, 98 (E-suupl. 1):181 (abstract # 463P).
  31. B. Mishra, N. Sah, D. L. Kuehu, S. Wasti, and R. Jha (2019). Transcriptional regulation of albumen biosynthesis and eggshell biomineralization in the oviduct of laying hens. Poultry Science, 98 (Suppl. 1):92 (abstract # 238).
  32. S. Wasti, D. L. Kuehu, N. Sah, A. K. Singh, R. Jha, and B. Mishra (2019). Dietary supplementation of dried plum: A novel strategy to mitigate heat stress in poultry. Poultry Science, 98 (Suppl. 1):248 (abstract # 663P).
  33. N. Sah, D. L. Kuehu, S. Wasti, R. Jha, and B. Mishra (2019). New transcriptomic insights into processes associated with formation of egg-white in the magnum of laying hens. Poultry Science, 98 (Suppl. 1):263-264 (abstract # 713P).
  34. L. Li, A. K. Singh, B. Mishra, and R. Jha (2018). Effect of in ovo injection of probiotic, prebiotic and synbiotic on growth performance and gut health parameters of broiler chickens. Poultry Science, 97 (Suppl. 1):161 (abstract # 390P).
  35. S. Yadav, Y. Li, Y. S. Kim, C. N. Lee, and R. Jha (2018). Effect of feeding lactic acid bacteria isolated from taro (Colocasia esculenta) skins on growth performance, gut microbiota and muscle growth of broiler chickens. Poultry Science, 97 (Suppl. 1):161 (abstract # 389P).
  36. N. Sah, D. L. Kuehu, V. S. Khadka, R. Jha, and B. Mishra (2018). Transcriptomic analysis of the shell gland in layers identifies novel genes in eggshell biomineralization. Poultry Science, 97 (Suppl. 1):220 (abstract # 550P).
  37. U. P. Tiwari, and R. Jha (2018). Fermentation characteristics of xylo- and manno-oligosaccharides and soluble and insoluble arabinoxylan studied using an in vitro model of swine. Journal of Animal Science, 96 (Suppl. 3):309 (abstract # 474547).
  38. U. P. Tiwari, B. Kerr, and R. Jha (2018). Nutrient and amino acids digestibility of animal protein byproduct in swine, determined using an in vitro model. Journal of Animal Science, 97 (Suppl.3):312 (abstract # 468383).
  39. B. A. Castle, J. Odani, R. Jha, N. Ogasawara, and H. M. Zaleski (2018). Survey of disease management and biosecurity practices of Hawaii swine farmers. Journal of Animal Science, 97 (Suppl. 3):53-54 (abstract # 473800).
  40. A. MacDonald, and R. Jha (2018). Evaluation of cassava chips as an alternative feed ingredient in hybrid tilapia (Oreochromis niloticus × Oreochromis mossambicus) aquaculture from gut health perspective. Proceedings of the International Symposium on Fish Nutrition and Feeding conference (June 3-7, 2018), Las Palmas de Gran Canaria, Spain.
  41. A. K. Singh, R. Kida, M. Bedford, and R. Jha (2017). Effect of xylanase on growth performance and cecal short-chain fatty acid production in broilers fed different levels of fiber. Poultry Science, 96 (E-suupl. 1):160 (abstract # 435P).
  42. S. Yadav, and R. Jha (2017). Cassava chips as an alternative feedstuff for broiler chickens: effect on growth performance and ileal morphology. Poultry Science, 96 (E-suupl. 1):180 (abstract # 492P).
  43. S. Yadav, K. Neupane, and R. Jha (2017). Macadamia nut cake as an alternative feedstuff for broiler chickens: effect on growth performance and gut microbiota profile. Poultry Science, 96 (E-suupl. 1):186 (abstract # 509P).
  44. U. P. Tiwari, and R. Jha (2017). Supplementation of xylanase and mannanase influences in vitro fermentation characteristics of distiller's dried grain with solubles in the large intestine of swine. Journal of Animal Science, 95 (Suppl. 4):196 (abstract # 398).
  45. J. D. Berrocoso, A. K. Singh, and R. Jha (2016). Effect of macadamia nut cake inclusion on growth performance of pasture raised broiler chickens. Proceedings of the World's Poultry Congress (Sept 5-9, 2016), Beijing, China. pp. 179 (abstract # S1-0411).
  46. S. Yadav, J. D. Berrocoso, and R. Jha (2016). Nitrogen-corrected apparent metabolizable energy value of macadamia nut cake for broiler chickens. Poultry Science, 95 (E-suupl. 1):131 (abstract # 384P).
  47. A. K. Singh, J. D. Berrocoso, R. Kida, Y. S. kim, and R. Jha (2016). In ovo inoculation of raffinose improves hatchability, vitalizes gut mucosa and enhances immune response in broiler chickens. Poultry Science, 95 (E-suupl. 1):4 (abstract # 11).
  48. U. P. Tiwari, and R. Jha (2016). Nutrient profile and in vitro digestibility of cassava silages in swine. Journal of Animal Science, 94 (Suppl. 5):467 (abstract # 992).
  49. U. P. Tiwari, H. Chen, S. W. Kim, and R. Jha (2016). Effect of supplemental enzyme on growth performance, digesta viscosity, apparent total tract digestibility of nutrients in nursery pigs. Journal of Animal Science, 94 (Suppl. 5):441 (abstract # 933).
  50. U. P. Tiwari, M. Mattus, K. Neupane, and R. Jha (2016). In vitro fermentation characteristics of agricultural products and coproducts and its effect on the large intestinal microbiota of swine. Journal of Animal Science, 94 (Suppl. 5):211 (abstract # 450).
  51. C. Liu, A. K. Singh, M. Stewart, J. H. Uyehara-Lock and R. Jha (2016). Effects of dietary fibers on obesity related physiological parameters in C57BL/6 mice. Journal of Animal Science, 94 (Suppl. 5):209 (abstract # 444).
  52. B. S. McNeill, J. Odani, R. Jha , and H. M. Zaleski (2016). Prevalence of Brucella suis in hunting dogs in Hawai`i. Journal of Animal Science, 94 (Suppl. 5):79 (abstract # 168).
  53. A. M. Haygood and R. Jha (2016). Evaluation of moringa leaves as a prebiotic in tilapia aquaculture from a production and health perspective. Proceedings of The International Symposium on Fish Nutrition and Feeding (June 5-10, 2016), Sun Valley, ID, USA.
  54. U. P. Tiwari and R. Jha (2015). Nutrient profile and in vitro digestibility of fresh and ensiled cassava in swine. Proceeding of the 3rd International Seminar on Animal Industry (Sept 17-18, 2015), Bogor, Indonesia. pp. 44.
  55. A. K. Singh, J. D. Berrocoso, Y. Dersjant-Li, A. Awati, and R. Jha (2015). Effect of supplemental multi-enzymes and direct fed microbial on nutrients digestibility in broilers fed low and high fiber diets. Poultry Science, 94 (E-suupl. 1):9 (abstract # 22).
  56. A. K. Singh, J. D. Berrocoso, U. P. Tiwari, Y. Dersjant-Li, A. Awati, and R. Jha (2015). Effect of supplemental multi-enzymes on growth performance of broilers fed low and high fiber diets. Poultry Science, 94 (E-suupl. 1):129 (abstract # 386P).
  57. U. P. Tiwari and R. Jha (2015). Nutrient profile and digestibility of macadamia nut cake as determined using an in vitro model of swine. Journal of Animal Science, 93 (Suppl. 3):592 (abstract # 576).
  58. U. P. Tiwari, H. M. Zaleski, and R. Jha (2015). Nutrient profile and digestibility of agro-industrial coproducts as determined using an in vitro model of swine. Journal of Animal Science, 93 (Suppl. 3):591 (abstract # 571).
  59. U. P. Tiwari, B. Turano, and R. Jha (2014). Nutritional characteristics and in vitro digestibility by near-infrared spectroscopy of local and hybrid napiergrass varieties grown in rain-fed and irrigated conditions. Proceedings of the Joint ISNH/ISRP International Conference (Sept 8-12, 2014), Canberra, Australia.
  60. U. P. Tiwari, A. K. Singh, H. M. Zaleski, and R. Jha (2014). Nutrient profile and in vitro digestibility of tubers in swine. Journal of Animal Science, 92 (E-Suppl. 2):225 (abstract # 449).
  61. T. A. Woyengo, R. Jha, E. Beltranena, and R. T. Zijlstra (2014). In vitro digestion and fermentation characteristics and in vivo digestibility of canola co-products in the pigs. Journal of Animal Science, 92 (E-Suppl. 2):233-234 (abstract # 470).
  62. R. Jha, L. F. Wang, P. R. Regmi, A. Pharazyn, and R. T. Zijlstra (2013). Nutrient profile and in vitro vs. in vivo energy digestibility of legumes in growing pigs. Journal of Animal Science, 91 (E-Suppl. 2):676 (abstract # 697).
  63. R. Jha, P. R. Regmi, L. F. Wang, A. Pharazyn, and R. T. Zijlstra (2013). Nutrient profile and in vitro vs. in vivo energy digestibility of wheat co-products from flour milling in growing pigs. Journal of Animal Science, 91 (E-Suppl. 2):676 (abstract # 696).
  64. T. A. Woyengo, R. Jha, E. Beltranena, and R. T. Zijlstra (2013). In vitro degradation and fermentation characteristics of expeller-pressed canola meal and cold-pressed canola cake simulating the pig intestine. Journal of Animal Science, 91 (E-Suppl. 2):634 (abstract # 585).
  65. T. A. Woyengo, R. Jha, E. Beltranena, A. Pharazyn, and R. T. Zijlstra (2013). Nutritional value of lentil and micronized full-fat soybean fed to growing pigs. Journal of Animal Science, 91 (E-Suppl. 2):26 (abstract # 80).
  66. R. Jha, P. Regmi, L. Wang, A. Pharazyn, and R. T. Zijlstra (2013). Nutrient profile and energy digestibility of wheat co-products from flour milling differ in growing pigs. Advances in Pork Production, 24 (abstract # 29).
  67. T. A. Woyengo, R. Jha, E. Beltranena, A. Pharazyn, and R. T. Zijlstra (2013). Nutritional value of lentil and micronized full-fat soybean fed to growing-finishing pigs. Advances in Pork Production, 24 (abstract # 21).
  68. R. Jha, P. Leterme, A. G. Van Kessel, and R. T. Zijlstra (2012). Fermentation characteristics of fibers in the matrix of cereals (barley and oats) or isolated from cereals in the pig intestine. Proceedings of Canadian Barley Symposium (July 8 - 10, 2012), Calgary, AB, Canada. pp. 17.
  69. R. Jha, J. Li, M. R. Bedford, C. R. Christensen, T. Vasanthan, and R. T. Zijlstra (2012). Microscopic matrix and in vitro pig model fermentation of wheat and corn distillers dried grains with solubles with supplemental carbohydrases and protease. Abstract for 12th International Symposium on Digestive Physiology of Pigs (May 29 - Jun 1, 2012), Keystone, CO, USA (abstract # 1122).
  70. R. Jha, A. Owusu-Asiedu, P. H. Simmins, A. Pharazyn, and R. T. Zijlstra (2012). Microscopic matrix and in vitro degradation and fermentation characteristics of wheat co-products from flour milling in the pig intestine. Abstract for 12th International Symposium on Digestive Physiology of Pigs (May 29 - Jun 1, 2012), Keystone, CO, USA (abstract # 1082).
  71. R. T. Zijlstra, R. Jha, A. D. Woodward, J. Fouhse, and T. A. T. G. van Kempen. 2012. Starch and fiber properties affect their kinetics of digestion and thereby digestive physiology in pigs. Abstract for 12th International Symposium on Digestive Physiology of Pigs (May 29 - Jun 1, 2012), Keystone, CO, USA (abstract # 1036).
  72. R. Jha, J. Li, M. R. Bedford, C. R. Christensen, T. Vasanthan, and R. T. Zijlstra (2012). In vitro fermentation and microscopic matrix of distillers dried grains with solubles following enzyme treatment. Journal of Animal Science, 90 (E-Suppl. 2):51 (abstract # 130).
  73. R. Jha, J. Li, M. R. Bedford, C. R. Christensen, T. Vasanthan, and R. T. Zijlstra (2012). Enzymes enhance degradation of DDGS, revealed by in vitro gas production and microscopic examination. Advances in Pork Production, 23 (abstract # 26).
  74. R. Jha and R. T. Zijlstra (2011). Evaluation of fermentation characteristics and volatile fatty acids production of unique fiber and starch sources using an in vitro model of the pig large intestine. Journal of Animal Science, 89 (E-Suppl. 2):129 (abstract # 251).
  75. R. Jha, J. K. Htoo, M. G. Young, E. Beltranena, and R. T. Zijlstra (2011). Dietary co-products enhance pork omega-3 fatty acid and reduce feed costs without affecting carcass quality and growth. Advances in Pork Production, 22 (abstract # 27).
  76. R. Jha, J. K. Htoo, M. G. Young, E. Beltranena, and R. T. Zijlstra (2011). Effects of dietary crude protein and co-product level on growth performance and carcass quality of grower-finisher pigs. Advances in Pork Production, 22 (abstract # 26).
  77. R. Jha, D. N. Overend, P. H. Simmins, D. Hickling, and R. T. Zijlstra (2011). Effect of Canadian wheat classes on growth performance and energy digestibility in weaned pigs fed in pelleted diets. Advances in Pork Production, 22 (abstract # 18).
  78. R. Jha and R. T. Zijlstra (2011). Fermentation characteristics of unique fiber and starch sources in the pig. Advances in Pork Production, 22 (abstract # 17).
  79. R. Jha, J. K. Htoo, M. G. Young, E. Beltranena, and R. T. Zijlstra (2010). Co-products inclusion in grower-finisher pig diets enhances carcass characteristics and reduces feed costs without affecting growth performance. Proceedings of Western Nutrition Conference (Sept 21-23, 2010), Saskatoon, SK, Canada. pp. 318.
  80. K. Kandel, R. Jha, E. Beltranena, and R. T. Zijlstra (2010). Effects of different sources of distillers dried grains with solubles on energy and protein digestibility and volatile fatty acids production in grower-finisher pigs. Proceedings of Western Nutrition Conference (Sept 21-23, 2010), Saskatoon, SK, Canada. pp. 316.
  81. R. Jha, J. K. Htoo, M. G. Young, E. Beltranena, and R. T. Zijlstra (2010). Effects of co-products inclusion on growth performance and carcass characteristics of grower-finisher pigs. Journal of Animal Science, 88 (E-Suppl. 2):553-554 (abstract # 677).
  82. R. T. Zijlstra, R. Jha, M. G. Young, J. F. Patience, E. Beltranena, and J. K. Htoo (2010). Effects of dietary crude protein and inclusion of co-products on growth performance and carcass characteristics of grower-finisher pigs. Journal of Animal Science, 88 (E-Suppl. 2):554 (abstract # 678).
  83. R. Jha, J. Bindelle, B. Rossnagel, A. Van Kessel, and P. Leterme (2009). In vitro fibre fermentation characteristics of specialty ingredients with varying NSP levels. Proceedings of Western Nutrition Conference (Sept 23-24, 2009), Winnipeg, MB, Canada. pp. 308.
  84. R. Jha, J. Bindelle, B. Rossnagel, A. Van Kessel, and P. Leterme (2009). Fermentation characteristics in the pig intestines of hulless barleys differing in beta-glucan content. Proceedings of 11th International Symposium on Digestive Physiology of Pigs (May 20-22, 2009), Montbrio del camp, Spain (abstract # 209).
  85. R. Jha, J. Bindelle, B. Rossnagel, A. Van Kessel, and P. Leterme (2009). In vitro evaluation of the fermentation characteristics in the pig intestines of hulless barleys differing in beta-glucan content. Journal of Animal Science, 87 (E-Suppl. 3):103 (abstract # 210).
  86. R. Jha, P. Kish, A. Van Kessel, and P. Leterme (2009). Feed ingredients differing in fermentable fibre content affect nitrogen excretion and fermentation metabolites in weaned pigs. Advances in Pork Production, 20 (abstract # 8).
  87. R. Pieper, R. Jha, P. Leterme, B. Rossnagel, W. Souffrant, and A. Van Kessel (2008). Effect of hulless barley varieties with different beta-glucan content on intestinal microbiota in pigs. Proceedings of the Society of Nutrition Physiology (1-3 April, 2008), Gottingen, Germany. 17:102.
  88. R. Jha, R. Pieper, B. Rossnagel, A. Van Kessel, and P. Leterme (2008). Digestibility and fermentation parameters of barleys and oats differing in beta-glucan content in the pig intestines. Journal of Animal Science, 86 (E-Suppl. 3):66 (abstract # 96).
  89. R. Pieper, R. Jha, P. Leterme, B. Rossnagel, W. Souffrant, and A. Van Kessel (2008). Effect of barley and oats beta-glucans on intestinal microbiota in the pig. Journal of Animal Science, 86 (E-Suppl. 3):104 (abstract # 217).
  90. R. Jha, R. Pieper, B. Rossnagel, A. Van Kessel, and P. Leterme (2008). Effect of oats and hulless barleys differing in beta-glucan content on digestibility and intestinal fermentation parameters in weaned pigs. Advances in Pork Production, 19 (abstract # 13).
  91. R. Pieper, R. Jha, A. Van Kessel, B. Rossnagel, W. Souffrant, and P. Leterme (2008). Effect of hulless barleys differing in beta-glucan content on the intestinal ecology of weaned pigs. Advances in Pork Production, 19 (abstract # 12).
  92. A. K. Mai, R. Jha, R. P. Kwakkel, A. F. B. van der Poel, and M. W. A. Verstegen (2006). Effect of diet structure, conformation and acidification on performance of broilers. Proceedings of 31st Annual Meeting of Dutch Speaking Nutritionists (Apr 7, 2006), Rotterdam, The Netherlands. pp. 56-57.
  93. R. Jha, G. N. Gongal, and S. N. Mahato (1999). A retrospective study of animal rabies in Nepal. Proceedings of 6th National Veterinary Conference (Sept 22-24, 1999), Kathmandu, Nepal.Papers in Peer-Reviewed Journals:

In media / popular press:

  1. Study reveals differences in feral, commercial chicken gut. WATTPoultry. July 7, 2021.[Web Source]
  2. Feral chicken gut holds clues to improving health. Big Island Gazette. June 23, 2021.[Web Source]
  3. Fibrous feeds prove beneficial for livestock gut health. Farms.com. May 4, 2021.[Web Source]
  4. Macadamia nut cakes as an alternative protein for broilers. All About Feed. Mar 8, 2021.[Web Source]
  5. Workshop on Safe Poultry Meat and Egg Production at BAU, Mymensingh, Bangladesh. April 13, 2019.[Web Source]
  6. Oahu's $4 million food fight. Civil Beat, Honolulu. June 7, 2018.[Web source]
  7. UH study offers clue about groups of honu. Star Advertiser, Honolulu. April 28, 2018.[Web source]
  8. Better feed builds a better bird. Star Advertiser, Honolulu. March 21, 2018.[Web source]
  9. Impact beyond expectations: Myanmar pig farmer's AI startup. Jan 4, 2018.[Web source]
  10. Growing chickpeas in Hawaii. Hawaii Magazine, Honolulu. Feb 17, 2017.[Web source]

If you require information in an Alternative format, please contact us at:  rjha@hawaii.edu