The effect of steam processing on the digestibility of barley and the effect of fine grinding, steam processing, and pressure cooking on the digestibility of milo by steers

Mehen, Stephen Mills, 1939-

January 1966

No description available.

Cattle -- Feeding and feeds.

Barley as feed.

Milo.

In vitro digestion of milo and barley starch by rumen microorganisms

Vargas Lechuga, Cesar Augusto, 1939-

January 1964

No description available.

Cattle -- Feeding and feeds.

Carbohydrates -- Metabolism.

Milo.

Barley.

The rate of utilization of the phosphorus of algal cells by barley plants

Robers, Raymond Newton, 1927-

January 1951

No description available.

Barley -- Metabolism.

Algae.

Aquatic plants as fertilizer.

Seeding Rates for Small Grains in Arizona

Ottman, Michael

03 1900

3 pp. / The influence of crop species, seed size, seed viability, seed depth,irrigation practices,stand establishment and uniformity, seeding equipment, planting date, crop variety, and planting configuration on optimum seeding rate for small grains is discussed.

Seed

stand

planting date

wheat

barley

durum

Effects of CaCO3 silicate and organic residues on polyphosphate retention and hydrolysis in soils, and P uptake by barley (Hordeum vulgare L.)

Mkneni, P. N. S. (Pearson Nyari Stephen)

January 1983

No description available.

Barley.

Polyphosphates.

Phosphatic fertilizers.

Soils -- Phosphorus content.

Antioxidant peptides and biodegradable films derived from barley proteins

Xia, Yichen

Unknown Date

No description available.

barley protein

antioxidant activities

protein film conformation

Physiological Effects of Barley: Examining the Effects of Cultivar, Processing and Food Form on Glycemia, Glycemic Index, Satiety and the Physico-chemical Properties of β-glucan

Aldughpassi, Ahmed

08 January 2014

Barley has been receiving increased attention as a human food due to the health benefits associated with β-glucan fiber and its potential as a low glycemic index (GI) functional food. Research has shown a relationship between the physico-chemical properties of β-glucan and the physiological effects, which may be altered by processing. However, it is not known if the physiological effects of consuming barley are affected by variations in chemical composition among cultivars or by common processing methods such as pearling or milling. The primary objective of this thesis was to characterize the effects of differences in cultivar starch and fibre content, level of pearling and milling on the GI, satiety and the physico-chemical properties of β-glucan. Nine barley cultivars varying in starch-type and β-glucan content were studied in three experiments in separate groups of ten healthy participants. Blood glucose and satiety ratings were measured and the GI was calculated. Total starch, total fibre, β-glucan, molecular weight (MW), solubility and β-glucan viscosity were determined in vitro. Results showed that GI varied by cultivar (CDC-Fibar, 26 ± 3 vs. AC-Parkhill, 35 ± 4, P < 0.05) and pearling (WG, 26 ± 4 vs. WP 35 ± 3, P < 0.05). When two cultivars were milled and processed to wet pasta the GI increased by 184% (P < 0.05). The pearled wet pasta had a significantly lower GI compared to the whole grain (P < 0.05). Boiled barley kernels tended to elicit greater satiety than white bread, but the difference was not significant. In both the boiled barley kernels and the wet pasta, pearling did not affect the MW, viscosity and solubility. MW did not significantly differ between cultivars but solubility and viscosity did (P < 0.05). The wet pasta had significantly lower MW, solubility, viscosity but not β-glucan content than the boiled barley kernels (P < 0.05). In conclusion, pearling did not have an effect but milling and extruding resulted in significant reduction in MW, solubility and viscosity. The GI of barley is influenced significantly by cultivar, pearling and milling. Further studies are required to determine the effect on satiety.

Carbohydrates

glycemic index

Barley

beta-glucan

0570

Physiological Effects of Barley: Examining the Effects of Cultivar, Processing and Food Form on Glycemia, Glycemic Index, Satiety and the Physico-chemical Properties of β-glucan

Aldughpassi, Ahmed

08 January 2014

Barley has been receiving increased attention as a human food due to the health benefits associated with β-glucan fiber and its potential as a low glycemic index (GI) functional food. Research has shown a relationship between the physico-chemical properties of β-glucan and the physiological effects, which may be altered by processing. However, it is not known if the physiological effects of consuming barley are affected by variations in chemical composition among cultivars or by common processing methods such as pearling or milling. The primary objective of this thesis was to characterize the effects of differences in cultivar starch and fibre content, level of pearling and milling on the GI, satiety and the physico-chemical properties of β-glucan. Nine barley cultivars varying in starch-type and β-glucan content were studied in three experiments in separate groups of ten healthy participants. Blood glucose and satiety ratings were measured and the GI was calculated. Total starch, total fibre, β-glucan, molecular weight (MW), solubility and β-glucan viscosity were determined in vitro. Results showed that GI varied by cultivar (CDC-Fibar, 26 ± 3 vs. AC-Parkhill, 35 ± 4, P < 0.05) and pearling (WG, 26 ± 4 vs. WP 35 ± 3, P < 0.05). When two cultivars were milled and processed to wet pasta the GI increased by 184% (P < 0.05). The pearled wet pasta had a significantly lower GI compared to the whole grain (P < 0.05). Boiled barley kernels tended to elicit greater satiety than white bread, but the difference was not significant. In both the boiled barley kernels and the wet pasta, pearling did not affect the MW, viscosity and solubility. MW did not significantly differ between cultivars but solubility and viscosity did (P < 0.05). The wet pasta had significantly lower MW, solubility, viscosity but not β-glucan content than the boiled barley kernels (P < 0.05). In conclusion, pearling did not have an effect but milling and extruding resulted in significant reduction in MW, solubility and viscosity. The GI of barley is influenced significantly by cultivar, pearling and milling. Further studies are required to determine the effect on satiety.

Carbohydrates

glycemic index

Barley

beta-glucan

0570

Changes in storage proteins and nucleic acids during development of barley endosperm

Hasell, Yvonne P. C. (Yvonne Paulene Claudette)

January 1975

No description available.

Plant proteins.

Nucleic acids.

Barley -- Breeding.

A Genetic Study of Linkage and Inheritance in Barley

Oldham, Jerald Dean

01 January 1962

No description available.

Genetic Study

Linkage

Inheritance

Barley

Plant Sciences