Effect of dietary roughage level on chewing activity, ruminal pH, and saliva secretion in lactating Holstein cows

Jiang, Fugui; Lin, Xueyan; Yan, Zhiying; Hu, Zhiyong; Liu, G.M.; Sun, Yong; Liu, X.W.; Wang, Z.H.

doi:10.3168/jds.2016-11559

Cited by 49 publications

(53 citation statements)

References 37 publications

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“…Similar effects of forage particle size on eating and ruminating time were reported by others (Yang et al, 2001b;Kowsar et al, 2008;Akbari-Afjani et al, 2014;Alamouti et al, 2014). However, increased eating time does not always eliminate the need for longer rumination time per kilogram of DM when intake of long forage particles is increased through increased F:C ratio (Jiang et al, 2017) or particle size (Zhang et al, 2010;Kammes and Allen, 2012). For example, Jiang et al (2017) fed dairy cows 4 diets that ranged from 40 to 70% forage.…”

Section: Chemical and Physical Characteristics Of The Dietsupporting

confidence: 57%

“…However, increased eating time does not always eliminate the need for longer rumination time per kilogram of DM when intake of long forage particles is increased through increased F:C ratio (Jiang et al, 2017) or particle size (Zhang et al, 2010;Kammes and Allen, 2012). For example, Jiang et al (2017) fed dairy cows 4 diets that ranged from 40 to 70% forage. Eating time increased (min/d, min/kg of DM, min/kg of NDF) with increasing F:C ratio of the diet.…”

Section: Chemical and Physical Characteristics Of The Dietmentioning

confidence: 99%

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Invited review: Current perspectives on eating and rumination activity in dairy cows

Beauchemin

2018

Journal of Dairy Science

257

219

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Many early studies laid the foundation for our understanding of the mechanics of chewing, the physiological role of chewing for the cow, and how chewing behavior is affected by dietary characteristics. However, the dairy cow has changed significantly over the past decades, as have the types of diets fed and the production systems used. The plethora of literature published in recent years provides new insights on eating and ruminating activity of dairy cows. Lactating dairy cows spend about 4.5 h/d eating (range: 2.4-8.5 h/d) and 7 h/d ruminating (range: 2.5-10.5 h/d), with a maximum total chewing time of 16 h/d. Chewing time is affected by many factors, most importantly whether access to feed is restricted, intake of neutral detergent fiber from forages, and mean particle size of the diet. Feed restriction and long particles (≥19 mm) have a greater effect on eating time, whereas intake of forage neutral detergent fiber and medium particles (4-19 mm) affects rumination time. It is well entrenched in the literature that promoting chewing increases salivary secretion of dairy cows, which helps reduce the risk of acidosis. However, the net effect of a change in chewing time on rumen buffing is likely rather small; therefore, acidosis prevention strategies need to be broad. Damage to plant tissues during mastication creates sites that provide access to fungi, adhesion of bacteria, and formation of biofilms that progressively degrade carbohydrates. Rumination and eating are the main ways in which feed is reduced in particle size. Contractions of the rumen increase during eating and ruminating activity and help move small particles to the escapable pool and into the omasum. Use of recently developed low-cost sensors that monitor chewing activity of dairy cows in commercial facilities can provide information that is helpful in management decisions, especially when combined with other criteria. Although accuracy and precision can be somewhat variable depending on sensor and conditions of use, relative changes in cow behavior, such as a marked decrease in rumination time of a cow or sustained low rumination time compared with a contemporary group of cows, can be used to help detect estrus, parturition, and some illnesses. This review provides a comprehensive understanding of the dietary, animal, and management factors that affect eating and ruminating behavior in dairy cows and presents an overview of the physiological importance of chewing with emphasis on recent developments and practical implications for feeding and managing the modern housed dairy cow.

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Section: Chemical and Physical Characteristics Of The Dietsupporting

confidence: 57%

Section: Chemical and Physical Characteristics Of The Dietmentioning

confidence: 99%

Invited review: Current perspectives on eating and rumination activity in dairy cows

Beauchemin

2018

Journal of Dairy Science

257

219

View full text Add to dashboard Cite

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“…Consistent with the unchanged ruminating periods and time length per period, daily ruminating time was not affected by treatment. The constant eating and periods of rumination were consistent with previous studies (Jiang et al., ; Kononoff & Heinrichs, ; Krause & Combs, ), except for the study by Krause, Combs, and Beauchemin (), which reported that daily meals and periods decreased when FPS was reduced. These differences might be attributable to a lower forage level (39.3%) and NDF content (24%), resulting in SARA.…”

Section: Discussionsupporting

confidence: 90%

“…Consistent with previous studies (Jiang et al, 2017;Yang & Beauchemin, 2009), daily variations in ruminal pH for all diets peaked just before the 05:30 and 17:30 hr feedings (Figure 1), which may be attributable to limited feed intake and less eating activity during several hours preceding the measurements. Consistent with the higher DM effective degradability of oaten hay than that of wild-rye hay (49.5 vs. 34.0%), the DMI increased from 21.1 to 22.2 kg/day when FPS was reduced.…”

Section: )supporting

confidence: 90%

“…As it was not possible to measure rate of saliva secretion during rumination, we assumed that eating and ruminating saliva secretion was similar. The assumption has been used by other authors previously (Bowman et al., ; Maekawa et al., ; Seth, Rai, Yadav, Pandey, & Rawat, ) and my previous study (Jiang et al., ). There were reports that saliva secretion rates during rumination was 1.8 times that of resting (Cassida & Stokes, ) and eating saliva secretion was 1.3–2.0 times that of resting (Beauchemin, Eriksen, Nørgaard, & Rode, ).…”

Section: Discussionmentioning

confidence: 99%

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Effects of forage source and particle size on chewing activity, ruminal pH, and saliva secretion in lactating Holstein cows

Jiang

Lin

Yan

et al. 2019

Animal Science Journal

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The present study investigated the effects of dietary forage source (quality) and particle size on chewing activity, saliva secretion, and ruminal pH. Twelve multiparous lactating Holstein cows, four of which were ruminally cannulated, were used in a replicated 4 × 4 Latin square experimental design with a 2 × 2 factorial arrangement of treatments. Cows fed wild‐rye hay diets had longer daily eating times than cows fed oaten hay diets. Treatments had no effect on ruminating time; therefore, resting time varied inversely to eating time. Neither the rate nor the amount of saliva secretion while eating, ruminating, or resting was affected by diet, resulting in similar total daily saliva secretions across treatments (231 L/day). Total volatile fatty acids (VFAs) in the ruminal fluid from animals fed oaten hay diets were higher than those from animals fed wild‐rye hay diets; further, VFAs increased with decreasing forage particle size (FPS). Consistent with elevated VFA concentrations, reducing FPS and including oaten hay in the diet decreased mean ruminal pH and increased the daily time of ruminal pH under 5.8. Results of this study suggest that forage source and particle size affect ruminal pH might be via variations in VFA production rather than increased salivary recycling of buffering substrates.

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Evaluating the effects of direct‐fed microbial supplementation on the performance, milk quality and fatty acid of mid‐lactating dairy cows

Asil,

Mohammadabadi,

Chaji

et al. 2023

Veterinary Medicine & Sci

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BackgroundThe objective of the experiment was to investigate the effect of a mixture of direct‐fed microbial (DFM) on feed intake, nutrient digestibility, milk yield and composition, milk fatty acid and blood parameter in crossbred mid‐lactating cows.MethodsTwenty‐four crossbred Holstein cows (body weight = 650±15 kg; days in milk = 100±20; daily milk yield = 25±3 kg) were used in a completely randomized design with three treatments: (1) CON, without DFM; (2) LS, inoculation with Lactobacillus fermentum (4.5 × 108 CFU/day) plus Saccharomyces cerevisiae (1.4×1010 CFU/day); and (3) LSM, inoculation with LS plus Megasphaera elsdenii (4.5 × 108 CFU/day). All animals received the same ration with 45.7% forage and 54.3% concentrate.ResultsResults showed that the highest feed intake was observed in treatments LS and LSM (p = 0.02). Compared with the CON, milk production, 4% fat‐corrected milk, energy‐corrected milk, fat (kg/day), protein (kg/day) and lactose (kg/day), FE and percent of fat were increased (p<0.05) by LSM, but unaffected by LS. Also, compared with the CON, both LS and LSM increased antioxidant activity (p<0.05). The concentration of C18:2c n‐6 increased significantly in treatment LSM compared with the CON (p = 0.003). The concentration of C20:0 increased significantly in treatment LS compared with the CON (p = 0.004). The highest concentrations of insulin, glucose, triglyceride and cholesterol were observed by LSM (p<0.05). Compared with the CON, both LS and LSM increased blood monocyte, neutrophil, eosinophil and basophil (p<0.05), and blood lymphocyte was increased (p = 0.02) only by LSM.ConclusionsThe results of the research showed that the use of DFMs had no effect on the digestibility, microbial load and the major part of fatty acids in milk. However, it improved feed intake, milk yield and antioxidant activity of milk and also increased the milk concentration of C18:2 n‐6.

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Effect of dietary roughage level on chewing activity, ruminal pH, and saliva secretion in lactating Holstein cows

Cited by 49 publications

References 37 publications

Invited review: Current perspectives on eating and rumination activity in dairy cows

Invited review: Current perspectives on eating and rumination activity in dairy cows

Effects of forage source and particle size on chewing activity, ruminal pH, and saliva secretion in lactating Holstein cows

Evaluating the effects of direct‐fed microbial supplementation on the performance, milk quality and fatty acid of mid‐lactating dairy cows

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