Technical note: A simple model to estimate changes in dietary composition of strip-grazed cattle during progressive pasture defoliations

• Published in: Journal of dairy science Vol. 93; no. 7; pp. 3074 - 3078
• Main Authors: Romera, A.J., Gregorini, P., Beukes, P.C.
• Format: Journal Article
• Language: English
• Published: New York, NY Elsevier Inc 01.07.2010; Elsevier; American Dairy Science Association
• Subjects: Animal Feed - analysis; Animal Feed - standards; Animal productions; Animals; Biological and medical sciences; cattle; Cattle - physiology; dairy cow; defoliation; Diet - veterinary; diet composition; Eating - physiology; feed intake; Feeding. Feeding behavior; Female; Fundamental and applied biological sciences. Psychology; grazing; Models, Biological; nutritional adequacy; pastures; Poaceae - metabolism; progressive pasture defoliations; strip grazing; strip-grazed cattle; Terrestrial animal productions; Vertebrates; Vertebrates: anatomy and physiology, studies on body, several organs or systems; strip grazing; diet composition; dairy cow; Farming animal; Dairy cattle; Grazing; Vertebrata; Mammalia; Diet; Pasture; Dairy industry; Livestock; Chemical composition; Models; Artiodactyla; Ungulata
• ISSN: 0022-0302; 1525-3198
• DOI: 10.3168/jds.2009-2846

Methodological problems occur in measuring herbage intake and diet quality during short-term (4–24h) progressive defoliations by grazing. Several models were developed to describe pasture component selection by grazing ruminants, particularly sheep. These models contain empirical coefficients to determine preferences that require laborious and data-demanding calibration. The objective was to develop a simple and practical model of changes in diet composition (green:dead) of pastures strip-grazed by dairy cows. The model was based on 3 premises when cows are strip-grazed in relatively homogeneous swards: 1) cows eat dead material only when green leaf and uncontaminated material have been removed; 2) dead material increases toward the bottom of the sward canopy; and 3) cows progressively defoliate pasture in layers. The main simplification in this model was assuming a linear decrease of green mass from the top to the bottom of the sward canopy. Thus, the proportion of green mass in the stratum eaten depended on the proportion of green in the entire sward canopy and its vertical profile. The model offers a simple solution to estimate changes in dietary compositions in pastures strip-grazed by dairy cattle during progressive pasture defoliations. It uses 2 inputs, the green mass proportion of the total herbage mass and the proportion of total herbage mass eaten during grazing. This can be optionally complemented with inputs of herbage chemical composition. The main outputs of the model are the proportions of green and dead herbage mass in the diet. For example, if the green proportion in the sward was 0.5 and the proportion of herbage mass eaten was 0.5, then the diet would be 0.75 green:0.25 dead; assuming 0.8 and 0.4 digestibility for green and dead material, respectively, the diet digestibility would be 0.7.