F.A. Martz scite author profile

In a 13-wk trial Holstein cows in mid-lactation were fed four diets containing natural selenium alone or supplemented with .1, .2, or .5 mg of inorganic selenium per kilogram of diet. Dietary selenium concentration averaged .334, .385, .456, and .772 mg/kg. Selenium plasma in wk 7 averaged .112 mu/ml with no differences among treatments; milk selenium ranged from .040 to .046 mu/ml and was higher in the two higher selenium diets. In wk 13 selenium in plasma and milk averaged .119 and .054 with no treatment differences. The 7 and 13 wk concentrations were higher than pretrial .084 and .033 mu/ml for plasma and milk during which time dietary selenium concentration was .254 mg/kg. Selenium concentration increased linearly from about .08 to .120 mu/ml of plasma and about .030 to .055 mu/ml of milk as intake of selenium increased from about 2 to 6 mg/day. Increase in selenium intake from 6 to 12 mg/day resulted in little change in plasma and milk selenium. Moderate concentrations of dietary selenium (.3 to .7 mg/kg) do not result in toxic amounts of selenium in milk.

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Effect of Diet and Ambient Temperature-Humidity on Ruminal pH, Oxidation Reduction Potential, Ammonia and Lactic Acid in Lactating Cows2

Mishra

Martz

Stanley

et al. 1970

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Role of Particle Size and Forage Quality in Digestion and Passage by Cattle and Sheep

Martz

Belyea

1986

Journal of Dairy Science

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Diminution of forage particles includes mastication, chewing, and digestion. In rumen of cattle and sheep fed all forage diets, particle size can range from 200 to over 1200 microns. Particle size reduction to about less than 1200 microns must occur before passage. Dietary particle size may influence rumen particle size, but mastication and rumination minimizes differences among diets. Ruminants expend considerable effort to move digesta. Density, cell wall percentage, osmotic pressure, and pH may affect propulsion. Dense particles may sink to the bottom and resist escape. Cell wall may reduce digestion and passage. Osmotic pressure or pH may affect digestive efficiency and rhythm of intestinal tract muscles. Chewing, exercise, physiological functions, and body size may also affect the reduction of forage particle size. More effort is necessary to chew high than low fiber diets. Young cattle (less than 225 kg) lack rumination capability and body size to process forage particles efficiently. Exercised sheep (26,400 kg-m/d) ate less forage and ruminated less than controls. Other body functions, such as lactation, appear to influence chewing patterns and rumination. These relationships are poorly understood at best and need additional intensive examination.

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Digestibility and Rate of Passage by Steers Fed Tall Fescue, Alfalfa and Orchardgrass Hay in 18 and 32 C Ambient Temperatures1

Warren

Martz

Asay

et al. 1974

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F.A. Martz

Image texture features as indicators of beef tenderness

Relationship of Dietary Selenium to Selenium in Plasma and Milk from Dairy Cows

Effect of Diet and Ambient Temperature-Humidity on Ruminal pH, Oxidation Reduction Potential, Ammonia and Lactic Acid in Lactating Cows2

Role of Particle Size and Forage Quality in Digestion and Passage by Cattle and Sheep

Digestibility and Rate of Passage by Steers Fed Tall Fescue, Alfalfa and Orchardgrass Hay in 18 and 32 C Ambient Temperatures1

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