Off-campus UNL users: To download campus access dissertations, please use the following link to log into our proxy server with your NU ID and password. When you are done browsing please remember to return to this page and log out.

Non-UNL users: Please talk to your librarian about requesting this dissertation through interlibrary loan.

D(-)LACTATE METABOLISM IN BEEF CATTLE

DAVID L HARMON, University of Nebraska - Lincoln

Abstract

These experiments were conducted to evaluate the role of D(-)lactate in digestive disturbances and elucidate the metabolic potential for D(-)lactate elimination by the bovine. In experiment one eight Hereford heifers (302 kg) were fed alfalfa hay (R) or a 90% concentrate diet (C) for 28 days. Intakes of metabolizable energy were equal for both diets. Glucose turnover rates were 143.3 and 154.3 mmol/h for R and C respectively. Turnover rates for D(-)lactate were .67 mmol/h for R and .57 mmol/h for C. Rates of oxidation and gluconeogenesis from D(-)lactate were .61 and .22 mmol/h for R and .55 and .16 mmol/h for C. Recovery of ('14)C in urine and expired CO(,2) accounted for 3.73 and 44.3% for R and 2.13 and 43.5% for C. The rate of oxidation and gluconeogenesis from D(-) and L(+)lactate were determined in slices of kidney cortex, liver, heart and sternomandibularis muscle from cattle. Rates of oxidation were similar for both isomers (P < .05) at .1 and 1 mM for kidney and for gluconeogenesis at .1 mM for kidney and liver. Oxidation of D(-)lactate declined to 43, 39, 24 and 25 percent of the rate of L(+)lactate as the lactate concentration increased to 50 mM for liver, kidney, heart and muscle respectively. A third experiment utilized 5 crossbred steers (347 kg) surgically fitted with rumen fistulae, hepatic portal, abdominal aortic and mesenteric venous catheters to quantify acid absorption from the gut. Treatments were glucose (12 g/kg) dosed intraruminally (G) or a 70% concentrate diet ad libitum (A). Samples were taken at time 0 then every 2 hrs for 48 hrs. Blood pH and HCO(,3)('-) were only slightly depressed for G despite peak rumen levels of 47 and 77 mM for D(-) and L(+)lactate respectively. Mean rates of net portal absorption were 10.5 and 96.6 mmol/h for A and 71.4 and 164.4 mmol/h for G for D(-) and L(+)lactate respectively. Volatile fatty acid absorption was 4.4, 4.1, 5.7, 5.4 and 13.3 times greater for A than G for acetate, propionate, butyrate, isobutyrate and isovalerate respectively.

Subject Area

Livestock

Recommended Citation

HARMON, DAVID L, "D(-)LACTATE METABOLISM IN BEEF CATTLE" (1983). ETD collection for University of Nebraska-Lincoln. AAI8318658.
https://digitalcommons.unl.edu/dissertations/AAI8318658

Share

COinS