D.M. Shepherd scite author profile

D.M. Shepherd

4Publications

96Citation Statements Received

96Citation Statements Given

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115

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Affiliations

The Ohio State University, Virginia Tech, Blackstone (United States)

Publications

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Use of algae or algal oil rich in n-3 fatty acids as a feed supplement for dairy cattle

Stamey

Shepherd

Veth³

et al. 2012

Journal of Dairy Science

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Fish oil is used as a ration additive to provide n-3 fatty acids to dairy cows. Fish do not synthesize n-3 fatty acids; they must consume microscopic algae or other algae-consuming fish. New technology allows for the production of algal biomass for use as a ration supplement for dairy cattle. Lipid encapsulation of the algal biomass protects n-3 fatty acids from biohydrogenation in the rumen and allows them to be available for absorption and utilization in the small intestine. Our objective was to examine the use of algal products as a source for n-3 fatty acids in milk. Four mid-lactation Holsteins were assigned to a 4×4 Latin square design. Their rations were supplemented with 1× or 0.5× rumen-protected (RP) algal biomass supplement, 1× RP algal oil supplement, or no supplement for 7 d. Supplements were lipid encapsulated (Balchem Corp., New Hampton, NY). The 1× supplements provided 29 g/d of docosahexaenoic acid (DHA), and 0.5× provided half of this amount. Treatments were analyzed by orthogonal contrasts. Supplementing dairy rations with rumen-protected algal products did not affect feed intake, milk yield, or milk component yield. Short- and medium-chain fatty acid yields in milk were not influenced by supplements. Both 0.5× and 1× RP algae supplements increased daily milk fat yield of DHA (0.5 and 0.6±0.10 g/d, respectively) compared with 1× RP oil (0.3±0.10 g/d), but all supplements resulted in milk fat yields greater than that of the control (0.1±0.10g/d). Yield of trans-18:1 fatty acids in milk fat was also increased by supplementation. Trans-11 18:1 yield (13, 20, 27, and 15±3.0 g/d for control, 0.5× RP algae, 1× RP algae, and 1× RP oil, respectively) was greater for supplements than for control. Concentration of DHA in the plasma lipid fraction on d 7 showed that the DHA concentration was greatest in plasma phospholipid. Rumen-protected algal biomass provided better DHA yield than algal oil. Feeding lipid-encapsulated algae supplements may increase n-3 content in milk fat without adversely affecting milk fat yield; however, preferential esterification of DHA into plasma phospholipid may limit its incorporation into milk fat.

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Seasonal and Diurnal Changes in Starch Content and Sugar Profiles of Bermudagrass in the Piedmont Region of the United States

Kagan

Kirch

Thatcher

et al. 2011

Journal of Equine Veterinary Science

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Chewing, rumen pool characteristics, and lactation performance of dairy cows fed 2 concentrations of a corn wet-milling coproduct with different forage sources

Shepherd

Firkins

VonBehren

2014

Journal of Dairy Science

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We used a novel corn wet-milling coproduct [CMP; approximately 70% dry matter, 28% crude protein, 36% neutral detergent fiber (NDF), and 18% nonstructural carbohydrates] in diets formulated to contain 18.4% forage NDF, 17.4% crude protein, 20.2% starch, and 3.7% sugar. Six primiparous, rumen-cannulated Jersey cows were assigned to a 6 × 6 Latin square design with a 2 × 3 factorial arrangement of treatments. Diets were formulated to contain 20 and 30% CMP with 3 forage sources [corn silage (CS) and 40.5% NDF, CS replaced with 10% alfalfa hay (AH) and 45.0% NDF, or CS replaced with 7% grass hay (GH) and 67.4% NDF], with each providing 18.4% forage NDF in the diet. Total-tract digestibilities of NDF, N, and organic matter were not affected by treatment. Similarly, no treatment effects were detected for kinetics of NDF disappearance in situ from CMP or respective forage source or for N disappearance in situ from CMP. Grass hay increased total and liquid pool size of rumen contents compared with AH (by 3.2 and 3.0kg, respectively). Total time spent chewing increased in cows fed GH by over 35min compared with those fed AH, partially due to a trend for increased minutes spent ruminating. Mean particle size of rumen contents also tended to be higher in the GH (0.55mm) than AH (0.69mm) diets. No effects on production of milk or milk components were detected, but dry matter intake (DMI) tended to decrease when CMP increased from 20 to 30%. Gross feed efficiency (fat-corrected milk/DMI) tended to be greater when cows were fed AH and GH compared with CS and was greater for AH than GH diets. In diets containing low starch, increasing CMP from 20 to 30% potentially maintained similar fat-corrected milk production with lower DMI. However, more consideration also should be given to interactions among forages with respect to fill, digestion, and passage of fiber with increased inclusion rates of CMP.

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Use of omega‐3 fatty acid rich algae and their oil as a feed supplement for dairy cattle

Stamey

Shepherd

Veth³

et al. 2011

The FASEB Journal

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Our objective was to examine use of algal biomass as an omega‐3 fatty acid‐enriched ration supplement for dairy cattle. Rations of four lactating cows were supplemented with 1X or 0.5X rumen protected (RP) algal biomass supplement, 1X RP algal oil supplement, or no supplement in a 4×4 Latin Square design. Supplements were lipid encapsulated (Balchem Corp., New Hampton, NY). 1X supplements provided 29 g/d docosahexaenoic acid (DHA). Supplementing dairy rations with rumen protected algal supplements did not affect feed intake, milk yield, or milk composition (P>0.05). Both 0.5X and 1X RP algae supplements increased (P<0.01) daily milk fat yield of DHA (0.5 and 0.6±0.10 g/d, respectively) compared to 1X RP oil (0.3±0.10 g/d), but all supplements were greater (P<0.01) than control (0.1±0.10 g/d). Yield of trans‐18:1 fatty acids in milk fat was also increased by supplementation, suggesting supplements may have influenced rumen microflora. Trans‐11 18:1 yield (13, 20, 27, and 15±3.0 g/d for control, 0.5X RP algae, 1X RP algae, and 1X RP oil, respectively) was greater for supplements than control (P=0.05). Rumen protected algal biomass provided better DHA yield than algal oil.

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D.M. Shepherd

Use of algae or algal oil rich in n-3 fatty acids as a feed supplement for dairy cattle

Seasonal and Diurnal Changes in Starch Content and Sugar Profiles of Bermudagrass in the Piedmont Region of the United States

Chewing, rumen pool characteristics, and lactation performance of dairy cows fed 2 concentrations of a corn wet-milling coproduct with different forage sources

Use of omega‐3 fatty acid rich algae and their oil as a feed supplement for dairy cattle

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