Your search keyword '"Intake rate"' showing total 6 results

1. Can animal performance be predicted from short-term grazing processes?

Author

Carvalho, P. C. F., Bremm, C., Mezzalira, J. C., Fonseca, L., da Trindade, J. K., Bonnet, O. J. F., Tischler, M., Genro, T. C. M., Nabinger, C., and Laca, E. A.

Subjects

*FORAGING behavior, *RUMINANTS, *HERBIVORES, *GRASSLANDS, *LANDSCAPES, *ECOLOGY

Abstract

Despite all the biotic and abiotic factors affecting foraging by ruminants, there is a common and fundamental process, which is bite gathering. We hypothesised that because the mechanics of bite formation dominate the foraging process, changes in short-term bite mass are reflected in longer-term animal performance across a wide range of sward conditions. We focus at the meal level of foraging, using experiments in which the effect of abiotic factors and digestive constrains are minimised, making intake rate the main currency. We estimated bite mass across a wide range of structural challenges to large-herbivore foraging in a long-term experiment with heterogeneous native grasslands. A conceptual model was developed for average daily gain, where energy gain and energy costs were proximate causal variables. Energy gain was a function of diet quality and components of daily intake rate, where bite mass was the main component estimated. In turn, components of intake rate were determined by sward structure and bodyweight. Energy costs were a function of bodyweight and abiotic conditions. Finally, sward structure, bodyweight and abiotic conditions were determined by experimental treatments, seasons and years. Then, the conceptual model was translated into statistical models that included variables measured or estimated, and coefficients representing all links in the conceptual model. Weight gain was a function of bite mass, forage characteristics, and animal and abiotic conditions. Models were set up to test whether forage and stocking conditions affected monthly gain beyond the effects through bite mass, after correcting for abiotic factors. Forage mass, height and disappearance did help predict monthly gain after bite mass was included in the model, which supported our hypothesis. However, stocking treatments and season had significant effects not incorporated in bite mass. Although the model explained 77.9% of liveweight gain variation, only 35.2% was due to fixed effects, with 10.8% accounted by bite mass and its interactions. Concomitant experiments showed that sward structure (first with sward height and the second with tussock cover) does determine bite mass and short-term intake rate in the complex native grasslands we studied. Yet, other temporal varying components of monthly gain not correlated with bite mass, temperature or wind, added most of the observed variation in monthly animal performance. Part of the model failure to account for variation in performance may be related to a significant and temporally variable grazing of tussocks. We used a bite mass model that assumed no tussock grazing. In light of these results and a parallel experiment, we conclude that tussock grazing must be incorporated in future versions of the model. We investigated whether longer-term animal performance can be explained by changes in short-term grazing processes in a heterogeneous native grassland. Although bite mass and its interactions accounted for 10.8% of the variation in average daily gain, stocking treatments and season had significant effects not incorporated in bite mass. We conclude that a large portion of the variation in performance may be related to temporally variable grazing of tussocks and changes in diet quality not contemplated in the model. [ABSTRACT FROM AUTHOR]

Published

2015

2. Continuous bite monitoring: a method to assess the foraging dynamics of herbivores in natural grazing conditions.

Author

Bonnet, Olivier J. F., Meuret, Michel, Tischler, Marcelo R., Cezimbra, Ian M., Azambuja, Julio C. R., and Carvalho, Paulo C. F.

Subjects

*GRAZING, *HERBIVORES, *ANIMAL feeding, *HABITATS, *FORAGING behavior, *CATTLE

Abstract

Accurate estimates of bite mass and variations in the short-term intake rate of grazing herbivores has been historically considered as a fundamental methodological difficulty, a difficulty that increases with the complexity of the feeding environment. Improving these methodologies will help understand foraging behaviours in natural grazing conditions, where habitat structure and interactions among different forages influence feeding decisions and patterns. During the past 30 years, we have been developing the 'continuous bite-monitoring' method, an observational method that allows continuous assessment of foraging behaviours, including bite mass, instantaneous intake rate and food selection, in simple to complex feeding environments. The centrepiece of the method is a 'bite-coding grid' where bites are categorised by structural attributes of the forage to reflect differences in bite masses. Over the years, we have been using this method with goats, sheep, llamas and cattle across a range of different habitats. After reviewing the development of the method, we detail its planning and execution in the field. We illustrate the method with a study from southern Brazilian native Pampa grassland, showing how changes in the forages consumed by heifers strongly affect short-term intake rate during meals. Finally, we emphasise the importance of studying animals grazing in their natural environments to first identify the relevant processes that can later be tested in controlled experiments. In heterogeneous feeding environments, herbivores constantly modify their foraging behaviour to cope with variations in the external environment and to account for changes of their internal milieu. Assessing the variation of these behaviours, particularly the intake rate of food, has long been considered challenging. We present a methodology based on continuous bite monitoring through direct observation that help address this difficulty and facilitates the study of the foraging strategies of herbivores under natural grazing conditions. [ABSTRACT FROM AUTHOR]

Published

2015

3. Behavioural adaptation of grazing dairy cows to changes in feeding management: do they follow a predictable pattern?

Author

Chilibroste, P., Gibb, M. J., Soca, P., and Mattiauda, D. A.

Subjects

*GRAZING, *FEED research, *DAIRY farming, *GRASSLAND animals, *PASTURE ecology

Abstract

Research conducted over recent decades to improve understanding of the functional responses among sward characteristics, intake rate and grazing behaviour has been reviewed. The opportunities to modify grazing pattern by changes in feeding management are discussed and the implications for dairy-farm feeding strategies are highlighted. Progress in the understanding of the functional responses between sward characteristics and intake rate and their main components (bite mass, bite area, bite depth and bite rates) has been substantial. However, progress in understanding the factors that mediate the initiation and the end of individual meals has been poorer and requires further study. Much of the research has been conducted using short-term experiments with a limited number of experimental animals and mostly conducted on mono-specific uniform swards. The physiological state of the animal as well as the maintenance energy associated with grazing strategies have received very little, if any, attention. More integrated (sward, animal, management) and long-term basic research is required to improve feeding practices at the farm level and the design of farms for the new generation of grassland-based dairy-production systems. The results of studies examining interactions between sward state, grazing behaviour and intake are reviewed, and their validity and application in commercial dairy herds to improve feeding management are discussed. The shortcomings of such research are examined with a view to identifying future research strategies required for future grassland-based dairy enterprises. [ABSTRACT FROM AUTHOR]

Published

2015

4. Behavioural adaptation of grazing dairy cows to changes in feeding management: do they follow a predictable pattern?

Author

M. J. Gibb, D. A. Mattiauda, P. Soca, and Pablo Chilibroste

Subjects

Integrated pest management, Intake rate, business.industry, Biology, Animal science, Farm level, Agronomy, Agriculture, Grazing, Environmental management system, Animal Science and Zoology, Adaptation, business, Dairy farming, Food Science

Abstract

Research conducted over recent decades to improve understanding of the functional responses among sward characteristics, intake rate and grazing behaviour has been reviewed. The opportunities to modify grazing pattern by changes in feeding management are discussed and the implications for dairy-farm feeding strategies are highlighted. Progress in the understanding of the functional responses between sward characteristics and intake rate and their main components (bite mass, bite area, bite depth and bite rates) has been substantial. However, progress in understanding the factors that mediate the initiation and the end of individual meals has been poorer and requires further study. Much of the research has been conducted using short-term experiments with a limited number of experimental animals and mostly conducted on mono-specific uniform swards. The physiological state of the animal as well as the maintenance energy associated with grazing strategies have received very little, if any, attention. More integrated (sward, animal, management) and long-term basic research is required to improve feeding practices at the farm level and the design of farms for the new generation of grassland-based dairy-production systems.

Published

2015

5. Continuous bite monitoring: a method to assess the foraging dynamics of herbivores in natural grazing conditions

Author

Julio C. R. Azambuja, Marcelo Ritzel Tischler, Olivier Jean François Bonnet, Paulo César de Faccio Carvalho, Ian M. Cezimbra, Michel Meuret, Universidade Federal do Rio Grande do Sul (UFRGS), Systèmes d'élevage méditerranéens et tropicaux (UMR SELMET), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut National de la Recherche Agronomique (INRA)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), and Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)

Subjects

2. Zero hunger, geography, Herbivore, geography.geographical_feature_category, Ecology, [SDV]Life Sciences [q-bio], Foraging, Biodiversity, foraging strategy, Forage, Biology, rangelands, Grassland, [SHS]Humanities and Social Sciences, Observational method, bite mass, direct observation, Habitat, Grazing, intake rate, [INFO]Computer Science [cs], Animal Science and Zoology, Food Science

Abstract

International audience; Accurate estimates of bite mass and variations in the short-term intake rate of grazing herbivores has been historically considered as a fundamental methodological difficulty, a difficulty that increases with the complexity of the feeding environment. Improving these methodologies will help understand foraging behaviours in natural grazing conditions, where habitat structure and interactions among different forages influence feeding decisions and patterns. During the past 30 years, we have been developing the ‘continuous bite-monitoring’ method, an observational method that allows continuous assessment of foraging behaviours, including bite mass, instantaneous intake rate and food selection, in simple to complex feeding environments. The centrepiece of the method is a ‘bite-coding grid’ where bites are categorised by structural attributes of the forage to reflect differences in bite masses. Over the years, we have been using this method with goats, sheep, llamas and cattle across a range of different habitats. After reviewing the development of the method, we detail its planning and execution in the field. We illustrate the method with a study from southern Brazilian native Pampa grassland, showing how changes in the forages consumed by heifers strongly affect short-term intake rate during meals. Finally, we emphasise the importance of studying animals grazing in their natural environments to first identify the relevant processes that can later be tested in controlled experiments.

Published

2015

6. The Relation Between the Responses of Wool Growth and Body Weight to Changes in Feed Intake

Author

KA Ferguson

Subjects

Chemistry, Intake rate, media_common.quotation_subject, Appetite, General Medicine, Body weight, Endocrinology, Reproductive Medicine, Wool, Genetics, General Materials Science, Animal Science and Zoology, sense organs, Growth rate, Food science, skin and connective tissue diseases, Molecular Biology, Biological sciences, Developmental Biology, Biotechnology, media_common

Abstract

The wool growth responses to changes in feed intake are related to the changes produced in body weight. The relation is expressed by the equation W = Ei-kG, where W = wool growth rate, i = feed intake rate, G = rate of body weight change, and E and k are constants. The ratio of E to k in sheep of different productive efficiency was found to be constant.

Published

1962