nr |
titel |
auteur |
tijdschrift |
jaar |
jaarg. |
afl. |
pagina('s) |
type |
1 |
68. ABSTRACT REMOVED
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13 |
4 |
p. 591 |
artikel |
2 |
Acknowledgement to Reviewers
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13 |
4 |
p. v |
artikel |
3 |
48. A conceptual agent-based model for the prediction of optimal nutrient utilization during the grow-finish phase for precision feeding of swine
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Kaniyamattam, K. |
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13 |
4 |
p. 568-569 |
artikel |
4 |
59. Additive bayesian network for systems-oriented meta-analysis
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dos Reis, B.R. |
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13 |
4 |
p. 580-581 |
artikel |
5 |
46. A linear flock-crop optimization model for dairy sheep farms
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Sechi, G.S. |
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13 |
4 |
p. 565-566 |
artikel |
6 |
22. A mechanistic model to predict post-ruminal flow of cobalamin
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Brisson, V. |
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13 |
4 |
p. 535-536 |
artikel |
7 |
50. A mechanistic model to simulate the growth and requirements of broilers
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Reis, M.P. |
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13 |
4 |
p. 570-571 |
artikel |
8 |
80. An agricultural perspective of what does a healthy diet mean
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Vargas-Villamil, L.M. |
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13 |
4 |
p. 603-604 |
artikel |
9 |
36. An operational thinking approach to model heat stress accumulation in dairy cows during a heatwave event
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Cresci, R. |
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13 |
4 |
p. 552-553 |
artikel |
10 |
10. Application of feeding behavior as a method to predict individual steer feed intake
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Harrison, M.A. |
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13 |
4 |
p. 521-522 |
artikel |
11 |
8. A revised model of heat production by growing sheep
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Dougherty, H.C |
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13 |
4 |
p. 518-519 |
artikel |
12 |
73. Beef cattle carbon footprint: Italian grass-fed farm as a case study
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Muscau, F. |
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13 |
4 |
p. 596-597 |
artikel |
13 |
15. Behavioural analysis of the fasting substrate conversion for energy utilization in growing pigs using within-day kinetics in the DyNAMPig model
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Rijpert, J.H.M. |
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13 |
4 |
p. 526-527 |
artikel |
14 |
25. Between-cow response variation to methane mitigation feeding strategies
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Giagnoni, G. |
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13 |
4 |
p. 538-539 |
artikel |
15 |
64. Between-individual variability on reticulorumen digesta passage rate in goats
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Teixeira, I.A.M.A. |
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13 |
4 |
p. 587-588 |
artikel |
16 |
34. Building mathematical models with confidence by choosing the appropriate modeling paradigm
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Tedeschi, L.O. |
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13 |
4 |
p. 549-550 |
artikel |
17 |
82. Cattle animal model of fetal programming to study effects of early gestation nutrient restriction on growth performance, intake, and behavior of pre-weaned calves
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Edache, D. |
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13 |
4 |
p. 606-607 |
artikel |
18 |
75. Combining precision technology and dynamic modeling to enhance the assessment of the beef water footprint on extensive rangelands
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Menendez III, H.M. |
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13 |
4 |
p. 598-599 |
artikel |
19 |
76. Comparison of enteric methane emission of lactating dairy cattle using Tier 3 methodology for the UK and the Netherlands national GHG inventories
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Crompton, L.A. |
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13 |
4 |
p. 599-600 |
artikel |
20 |
35. Comparison of imputation methods for missing production data in dairy cattle
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You, J. |
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13 |
4 |
p. 551-552 |
artikel |
21 |
88. Credibility, evaluation, and testing of dynamic simulation models: tools and examples for feedback loop analysis
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Atamer Balkan, B. |
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13 |
4 |
p. 615 |
artikel |
22 |
58. Diurnal variation in water-soluble carbohydrate contents of pasture affects milk production of dairy cattle: a simulation approach
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Menegazzi, G. |
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13 |
4 |
p. 579-580 |
artikel |
23 |
Editorial Board / Aims and Scope
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13 |
4 |
p. i |
artikel |
24 |
65. Effect of environmental temperature and feathering covering on the energy requirement for maintenance
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Horna, F.A. |
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13 |
4 |
p. 588-589 |
artikel |
25 |
41. Effects of breed, growth rate and dietary lipid concentration on lipophilic contaminant accumulation into growing cattle: insight from a physiologically-based toxicokinetic model
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Albechaalany, J. |
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13 |
4 |
p. 559-560 |
artikel |
26 |
56. Effects of varying starch and rumen degraded protein on glucose blood appearance rates in lactating dairy cows
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Hruby, A.C. |
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13 |
4 |
p. 577-578 |
artikel |
27 |
61. Estimation of digestible organic matter intake through purine derivatives from sheep fed warm-season forages
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Abdalla, A.L. |
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13 |
4 |
p. 583-584 |
artikel |
28 |
43. Evaluating models that utilize ear tag accelerometer measurements to predict dry matter intake in lactating dairy cows
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Prestegaard-Wilson, J.M. |
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13 |
4 |
p. 562-563 |
artikel |
29 |
51. Evaluation of an Egg Production Model in three scenarios of dietary protein
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Sakomura, N.K. |
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13 |
4 |
p. 571-572 |
artikel |
30 |
42. Evaluation of a revised model of body composition in sheep
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Dougherty, H.C. |
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13 |
4 |
p. 561-562 |
artikel |
31 |
32. Evaluation of low crude protein diets for fattening pigs using two life cycle assessment modelling approaches
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Cappelaere, L. |
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13 |
4 |
p. 547-548 |
artikel |
32 |
3. Evaluation of NASEM 2021 model predictions of dry matter intake and performance of dairy cows consuming fresh ryegrass-based diets
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Morales, A.G. |
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13 |
4 |
p. 513-514 |
artikel |
33 |
63. Evaluation of prediction models of voluntary dry matter intake of Sarda ewes in the transition stage: early lactation
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Sini, M. |
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13 |
4 |
p. 586-587 |
artikel |
34 |
62. Evaluation of prediction models of voluntary dry matter intake of Sarda ewes in the transition stage: late pregnancy
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Sini, M. |
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13 |
4 |
p. 585-586 |
artikel |
35 |
67. Evaluation of the efficacy of different methionine sources in weaning piglets: A meta-analysis and meta-regression approach
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Souza, V.C. |
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13 |
4 |
p. 590-591 |
artikel |
36 |
12. Evaluation of the NASEM 2021 dairy nutrient requirements model in lactating dairy cows fed diets with differing predicted absorbed amino acid efficiencies
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Prestegaard-Wilson, J.M. |
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13 |
4 |
p. 523-524 |
artikel |
37 |
33. Feeding growing pigs for maximum profit does not always minimize green house gases
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Morel, P.C.H. |
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13 |
4 |
p. 548-549 |
artikel |
38 |
5. Future directions: An overview of data-driven and mechanistic modelling approaches of performance and sustainability in poultry
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Leishman, E.M. |
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13 |
4 |
p. 515-516 |
artikel |
39 |
27. Global sensitivity analysis of empirical enteric methane emissions models for silvopastoral systems
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Santos, A.R.M. |
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13 |
4 |
p. 541-542 |
artikel |
40 |
85. HerDairy model: mapping dynamics of dairy farms to support herd management
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Atamer Balkan, B. |
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13 |
4 |
p. 611-612 |
artikel |
41 |
19. Implementation of a synchrony index in Cornell Net Carbohydrates and Protein System for diet evaluation in lactating cows
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Raffrenato, E. |
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13 |
4 |
p. 531-532 |
artikel |
42 |
6. Infection by Eimeria maxima changes the efficiency of utilization but not the maintenance requirement of broiler chickens fed balanced protein diets from 14 to 28 days of age
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Freitas, L.F.V. |
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13 |
4 |
p. 516-517 |
artikel |
43 |
31. Integration of life cycle assessment into a mechanistic pig growth model to determine on-farm environmental footprint
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Ferguson, N.S. |
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13 |
4 |
p. 546-547 |
artikel |
44 |
52. Integration of microbial time series into a mechanistic model of the rumen microbiome under the Rusitec condition
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Davoudkhani, M. |
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13 |
4 |
p. 572-573 |
artikel |
45 |
2. Lessons from the development of the NASEM 2021 dairy protein model
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Hanigan, M.D. |
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13 |
4 |
p. 511-512 |
artikel |
46 |
83. Live animal predictions of carcass components in Angus steers
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McPhee, M.J. |
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13 |
4 |
p. 608-609 |
artikel |
47 |
16. Mechanistic modelling of turkey growth in response to genotype and nutrition using Michaelis-Menten kinetics
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Maraj, A. |
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13 |
4 |
p. 527-528 |
artikel |
48 |
17. Mechanistic model of the fate of dietary phosphorus and calcium in growing broilers
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Reis, M.P. |
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13 |
4 |
p. 529-530 |
artikel |
49 |
78. Methane emissions in small ruminants: effect of dry matter intake estimated from a meta-analysis
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Lamore, A.A. |
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13 |
4 |
p. 602-603 |
artikel |
50 |
39. Milk losses due to mastitis in Holstein dairy cows: a modeling approach
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Marcondes, M.I. |
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13 |
4 |
p. 556-557 |
artikel |
51 |
9. Modeling feed intake and milk yield depression in dairy cows under heat stress
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Souza, V.C. |
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13 |
4 |
p. 520-521 |
artikel |
52 |
84. Modeling the impact of the physiological, muscular, and sensory characteristics to evaluate beef quality
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Albechaalany, J. |
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13 |
4 |
p. 609-610 |
artikel |
53 |
66. Modelling Japanese quail egg production responses to arginine intake by different mathematical functions: A factorial approach
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Sousa, M.G.B.L. |
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13 |
4 |
p. 589-590 |
artikel |
54 |
69. Modelling lysine requirement depending on protein deposition, maintenance requirement and dietary efficiency of utilisation for Japanese quail breeder
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Carvalho, L.C. |
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13 |
4 |
p. 591-592 |
artikel |
55 |
30. Modelling nutrition and management in swine production systems to reduce their environmental impacts: a life cycle perspective
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Garcia-Launay, F. |
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13 |
4 |
p. 545-546 |
artikel |
56 |
45. Modelling precision feeding records to improve feed efficiency in Sarda lactating ewes
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Ledda, A. |
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13 |
4 |
p. 564-565 |
artikel |
57 |
70. Modelling the methionine + cystine partition for maintenance and efficiency of utilisation for laying hens using dilution and supplementation techniques
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Mani, T.S.A. |
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13 |
4 |
p. 592-593 |
artikel |
58 |
37. Modelling the response of milk yield and milk composition to dietary changes in dairy cows using a machine learning algorithm
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Powell, C.D. |
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13 |
4 |
p. 553-554 |
artikel |
59 |
49. Modelling tool to enhance static nutritional tables
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Ferreira, N.T. |
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13 |
4 |
p. 569-570 |
artikel |
60 |
26. Models of enteric methane emission and nitrogen excretion by sheep and cattle: recommendations for the UK national greenhouse gas inventory
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Crompton, L.A. |
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13 |
4 |
p. 540-541 |
artikel |
61 |
28. Modifying the Molly rumen model to study lipid and nitrate supplementation impacts on enteric methane in sheep
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Vetharaniam, I. |
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13 |
4 |
p. 542-543 |
artikel |
62 |
2022 MODNUT Committees
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13 |
4 |
p. iv |
artikel |
63 |
74. Monitoring suckling behaviour of beef calves under pastoral conditions: A review
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Khater, S. |
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13 |
4 |
p. 597-598 |
artikel |
64 |
53. Nonlinearities in intake and fecal output of major nutrients as functions of fiber intake rate in steers fed on corn silage-based diets
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Virginio Júnior, G.F. |
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13 |
4 |
p. 573-574 |
artikel |
65 |
89. Nonlinear parameter estimation: theory and application with SAS and R
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Vieira, R.A.M. |
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13 |
4 |
p. 615-616 |
artikel |
66 |
87. Non-linear thinking: from mental models to mathematical models in animal science
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Atzori, A.S. |
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13 |
4 |
p. 614 |
artikel |
67 |
38. Nutritional protocols to increase marbling precursors in Nellore cattle: effects on ruminal fermentation and blood metabolites
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Squizatti, M.M. |
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13 |
4 |
p. 555-556 |
artikel |
68 |
47. Nutritional software for Nile Tilapia - partial results
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Fernandes, J.B.K. |
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13 |
4 |
p. 566-567 |
artikel |
69 |
13. One size does not fit all: opportunities and challenges in models applied to sustainable pig precision nutrition
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Remus, A. |
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13 |
4 |
p. 524-525 |
artikel |
70 |
54. Optimizing diets for individual cows and clustering the results to derive individualized feeding solutions for auto feeders
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Ringer, H. |
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13 |
4 |
p. 574-575 |
artikel |
71 |
79. Peer Community In Animal Science: A free publication model for transparent and open science
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Muñoz-Tamayo, R. |
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13 |
4 |
p. 603 |
artikel |
72 |
71. Phosphorus and calcium requirements for bone mineralisation of growing broilers predicted by mechanistic modelling
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Reis, M.P. |
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13 |
4 |
p. 593-594 |
artikel |
73 |
11. Predicting dairy cow-pen dry matter intake distribution for precision nutrition modeling
|
Lucey, P.M. |
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13 |
4 |
p. 522-523 |
artikel |
74 |
23. Predicting fiber digestibility in Holstein dairy cows fed dry-hay based rations
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Cavallini, D. |
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13 |
4 |
p. 536-537 |
artikel |
75 |
81. Predicting pellet quality of pelleted feed using ensemble learning models
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You, J. |
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13 |
4 |
p. 605-606 |
artikel |
76 |
21. Prediction models of reticulorumen kinetics of particles and solutes in goats
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Gindri, M. |
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13 |
4 |
p. 534-535 |
artikel |
77 |
57. Prediction of total dry matter intake in lactating dairy cows: model performance
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Mehaba, N. |
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13 |
4 |
p. 578-579 |
artikel |
78 |
4. Predictions of body mineral content in gilts from mating to first parturition: evaluation of different requirement models
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Heurtault, J. |
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13 |
4 |
p. 514-515 |
artikel |
79 |
40. Predictive equations to detect incidence of feedlot bloat in finishing cattle in individual cattle management systems
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Macias Franco, A. |
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13 |
4 |
p. 558-559 |
artikel |
80 |
Preface
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13 |
4 |
p. iii |
artikel |
81 |
77. Respiration rate as marker of heat stress in dairy sheep
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Fulghesu, F. |
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13 |
4 |
p. 600-601 |
artikel |
82 |
20. Sensitivity analysis of a mechanistic model of the rumen in-vitro fermentation: Study of the impact of 3 sampling methods on Sobol indices of accuracy
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Blondiaux, P. |
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13 |
4 |
p. 532-533 |
artikel |
83 |
14. SNAPIG: a model to study nutrient digestion and absorption kinetics in growing pigs based on diet and ingredient properties
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Schop, M. |
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13 |
4 |
p. 525-526 |
artikel |
84 |
Sponsors of the 10th MODNUT Workshop
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13 |
4 |
p. vi |
artikel |
85 |
55. Studying the predictive ability of a dynamic mechanistic model to forecast the oscillatory feeding behaviour of lactating dairy cows
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Fiorbelli, E. |
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13 |
4 |
p. 575-576 |
artikel |
86 |
Table of Contents
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13 |
4 |
p. vii-xi |
artikel |
87 |
29. The competitiveness of bioenergy by-products in optimized livestock diet formulation
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Marques, J.G.O. |
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13 |
4 |
p. 543-544 |
artikel |
88 |
1. The past, present, and future of agriculture and life on earth: adaptive planning and robust pathways towards desirable sustainable futures
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Pruyt, E. |
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13 |
4 |
p. 511 |
artikel |
89 |
24. The Ruminant Farm Systems project: building a next generation model for interdisciplinary research and decision support
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Reed, K.F. |
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13 |
4 |
p. 537-538 |
artikel |
90 |
86. Time-series assessment of rumen fermentation from meal-fed sheep
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Sujani, S. |
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13 |
4 |
p. 612-613 |
artikel |
91 |
Title Page
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13 |
4 |
p. ii |
artikel |
92 |
18. Towards the next-generation models of the rumen microbiome for enhancing predictive power and guiding sustainable production strategies
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Muñoz-Tamayo, R. |
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13 |
4 |
p. 530-531 |
artikel |
93 |
44. Use of a linear programming model for optimizing allocation of nutritional resources in a dairy herd under three different market scenarios
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Gallo, A. |
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13 |
4 |
p. 563-564 |
artikel |
94 |
7. Using segmentation techniques to determine changing points in animal requirements during the fattening period to improve feed efficiency of dairy crossbred beef bulls
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Guarnido-Lopez, P. |
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13 |
4 |
p. 517-518 |
artikel |
95 |
72. Using system thinking to gain insight into social, economic, and environmental aspects of sustainability for food production
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Said, M. |
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13 |
4 |
p. 594-595 |
artikel |
96 |
60. Water intake in hair lambs raised in tropical areas
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Herbster, C.J.L. |
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13 |
4 |
p. 582-583 |
artikel |