Your search keyword '"Cowley, Frances"' showing total 6 results

1. The role of leucaena in cattle fattening and breeding production systems in eastern Indonesia.

Author

IRAWAN, FAHRUL, DAHLANUDDIN, HALLIDAY, MICHAEL J., HEGARTY, ROGER S., and COWLEY, FRANCES C.

Subjects

CATTLE breeds, CATTLE breeding, CATTLE feeding & feeds, SALIVATION, COWS, BEEF cattle, BALDNESS, FARMERS

Abstract

Copyright of Tropical Grasslands / Forrajes Tropicales is the property of International Centre for Tropical Agriculture - CIAT and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

2. Feedlot Factors Influencing the Incidence of Dark Cutting in Australian Grain-Fed Beef.

Author

Steel, Cameron C., Lees, Angela M., Tarr, Garth, Dunshea, Frank R., Bowler, Des, Cowley, Frances, Warner, Robyn D., and McGilchrist, Peter

Subjects

FACTORS of production, SOLAR radiation, RAINFALL, WIND speed, BEEF cattle, HEALTH of cattle, LIVESTOCK

Abstract

Simple Summary: This study was conducted to investigate feedlot factors that influence the incidence of dark cutting in Australian grain-fed beef. Awareness of factors influencing dark cutting within the supply chain will enable the implementation of management strategies to manage dark cutting risk and reduce incidence. The reduction of dark cutting incidence will increase feedlot productivity as well as profitability across the entire supply chain. It has been well-established that dark cutting (DC) is a multifactorial issue that is associated with numerous animal and management factors. However, there is limited understanding of the feedlot-based factors that contribute to the influence of DC. The aim of this study was to evaluate the effect of climate, animal, and feedlot factors on the incidence of pH non-compliance in Australian grain-fed cattle. For this study, feedlot and abattoir records from 142,228 individual cattle over a 1-year period were investigated. These data incorporated records from seven feedlots that consigned cattle to three abattoirs. The average incidence of DC in these carcasses was 2.8%. The production factors that were associated with increased risk of DC included feedlot, sex, hormone growth promotants (HGP), cattle health, and days on feed (DOF). Additionally, DC also increased by reduced solar radiation (SR, W/m2), lower wind speeds (WS, m/s), increased ambient temperature (TA, °C), higher rainfall, a higher average temperature–humidity index (THI), and increased duration of time above heat-load-index threshold of 86 (HLI ≥ 86) during the 7 days prior to feedlot departure. This study identified the feedlot factors that increase the risk of DC from a feedlot-management perspective. [ABSTRACT FROM AUTHOR]

Published

2022

3. Intake and liveweight gain of fattening cattle is depressed at high levels of cassava bagasse inclusion in a quadratic dose-response relationship.

Author

Cowley, Frances C., Huda, Asri N., Kusmartono, Soetanto, Hendrawan, Marsetyo, and Poppi, Dennis P.

Subjects

*CASSAVA, *BAGASSE, *RUMINANTS, *CATTLE, *ZEBUS, *CENCHRUS purpureus, *CATTLE showing

Abstract

Context: Cassava bagasse is readily available in tropical countries as an energy source for ruminant diets, but previous research has shown low cattle performance at high inclusion rates. Aims: The nature of the dose–response relationship between increasing inclusion rate of cassava (Manihot esculenta Crantz) bagasse (CB), substituting for protein meals in diets of fattening cattle, was used to evaluate the reduced animal performance at high inclusion rates. Methods: Thirty growing Madura (Bos indicus × javanicus) bulls were fed concentrate-based diets with five levels of CB inclusion at 20 g dry matter (DM)/kg liveweight and elephant grass (Pennesetum purpureum) separately at 5 g DM/kg liveweight. The five tested CB inclusion rates into the offered diet were 30, 40, 50, 60 and 70% of total dry matter. Lines of best fit were used to describe the relationships between animal performance and CB inclusion rate. Key results: Intake of dry matter and concentrate both demonstrated a quadratic relationship with increasing CB inclusion, both maximised at 46–47% CB inclusion in the offered diet or a CB intake of ~9.7 g CB/kg liveweight. Liveweight gain and change in body condition score both demonstrated a quadratic dose–response relationship with increasing CB inclusion, with maximal performance achieved at 34–38% inclusion of CB. Although protein content at the highest level of CB inclusion was low (68 g/kg DM), modelling of predicted liveweight gain indicated that this was most constrained by energy intake (as a function of concentrate intake), rather than crude protein. Conclusions: Inclusion of CB up to ~45% of the diet, substituting for protein meals, does not improve, but has no detrimental effect, on liveweight gain. The plateauing of CB intake above 50% inclusion in in the offered diet suggests that cattle were eating to a maximal CB intake. Several hypotheses for reduced intake of concentrate at high levels of CB inclusion were proposed, including low protein content and hydrogen cyanide content of the CB, none of which satisfactorily explained why intake of concentrate was depressed above 50% CB inclusion of the diet on offer. Implications: Rations should be formulated to contain no more than 50% CB for maximal cattle performance. Further research is required to understand the causes of depressed intake at high inclusion rates of CB. Cassava bagasse is a by-product feedstuff with potential as a ruminant feed in tropical environments, but there is poor understanding regarding production responses from its inclusion in cattle diets. We found that when cassava bagasse inclusion in a concentrate mix was increased, cattle intake of the concentrate mix increased, but in a curvilinear fashion. We suggest that cattle will eat no more than a maximal limit of cassava bagasse intake, although the reasons why are not clear. [ABSTRACT FROM AUTHOR]

Published

2021

4. Recent advances to improve nitrogen efficiency of grain-finishing cattle in North American and Australian feedlots.

Author

Cowley, Frances, Jennings, Jenny, Cole, Andy, and Beauchemin, Karen

Subjects

*FEEDLOTS, *HEALTH of cattle, *BEEF cattle, *CATTLE, *WATER pollution, *NITROUS oxide, *CATTLE feeding & feeds

Abstract

Formulating diets conservatively for minimum crude-protein (CP) requirements and overfeeding nitrogen (N) is commonplace in grain finishing rations in USA, Canada and Australia. Overfeeding N is considered to be a low-cost and low-risk (to cattle production and health) strategy and is becoming more commonplace in the US with the use of high-N ethanol by-products in finishing diets. However, loss of N from feedlot manure in the form of volatilised ammonia and nitrous oxide, and nitrate contamination of water are of significant environmental concern. Thus, there is a need to improve N-use efficiency of beef cattle production and reduce losses of N to the environment. The most effective approach is to lower N intake of animals through precision feeding, and the application of the metabolisable protein system, including its recent updates to estimation of N supply and recycling. Precision feeding of protein needs to account for variations in the production system, e.g. grain type, liveweight, maturity, use of hormonal growth promotants and β agonists. Opportunities to reduce total N fed to finishing cattle include oscillating supply of dietary CP and reducing supply of CP to better meet cattle requirements (phase feeding). Overfeeding of nitrogen (N) to feedlot cattle is considered low risk (in terms of cost and effects on production), but excreted excess dietary N is of significant environmental concern. Our ability to formulate the protein content of grain-finishing rations is becoming more precise but there are still barriers to adoption on-farm. Precision feeding of protein needs to account for variations in production system, and will enable us to improve N-use efficiency, and reduce N intake and wastage in the feedlot. [ABSTRACT FROM AUTHOR]

Published

2019

5. A Pilot Study Using Accelerometers to Characterise the Licking Behaviour of Penned Cattle at a Mineral Block Supplement.

Author

Simanungkalit, Gamaliel, Barwick, Jamie, Cowley, Frances, Dobos, Robin, and Hegarty, Roger

Subjects

MINERAL supplements, BEEF cattle, CATTLE, SUPPORT vector machines, HEADPHONES, ACCELEROMETERS, RANDOM forest algorithms, PILOT projects

Abstract

Simple Summary: Quantifying mineral block supplement intake by individual beef cattle is a challenging task but may enable improved efficiency of supplement use particularly in a grazed system. Estimating time spent licking when cattle access the mineral block supplement can be useful for predicting intake on an individual basis. The advancement of sensor technology has facilitated collection of individual data associated with ingestive behaviours such as feeding and licking duration. This experiment was intended to investigate the effectiveness of wearable tri-axial accelerometers fitted on both neck-collar and ear-tag to identify the licking behaviour of beef cattle by distinguishing it from eating, standing and lying behaviours. The capability of tri-axial accelerometers to classify licking behaviour in beef cattle revealed in this study would offer the possibility of measuring time spent licking and further developing a practical method of estimating mineral block supplement intake by individual grazing cattle. Identifying the licking behaviour in beef cattle may provide a means to measure time spent licking for estimating individual block supplement intake. This study aimed to determine the effectiveness of tri-axial accelerometers deployed in a neck-collar and an ear-tag, to characterise the licking behaviour of beef cattle in individual pens. Four, 2-year-old Angus steers weighing 368 ± 9.3 kg (mean ± SD) were used in a 14-day study. Four machine learning (ML) algorithms (decision trees [DT], random forest [RF], support vector machine [SVM] and k-nearest neighbour [kNN]) were employed to develop behaviour classification models using three different ethograms: (1) licking vs. eating vs. standing vs. lying; (2) licking vs. eating vs. inactive; and (3) licking vs. non-licking. Activities were video-recorded from 1000 to 1600 h daily when access to supplement was provided. The RF algorithm exhibited a superior performance in all ethograms across the two deployment modes with an overall accuracy ranging from 88% to 98%. The neck-collar accelerometers had a better performance than the ear-tag accelerometers across all ethograms with sensitivity and positive predictive value (PPV) ranging from 95% to 99% and 91% to 96%, respectively. Overall, the tri-axial accelerometer was capable of identifying licking behaviour of beef cattle in a controlled environment. Further research is required to test the model under actual grazing conditions. [ABSTRACT FROM AUTHOR]

Published

2021

6. Abattoir Factors Influencing the Incidence of Dark Cutting in Australian Grain-Fed Beef.

Author

Steel, Cameron C., Lees, Angela. M., Bowler, D., Gonzalez-Rivas, P. A., Tarr, G., Warner, R. D., Dunshea, F. R., Cowley, Frances C., McGilchrist, P., and Álvarez-Rodríguez, Javier

Subjects

SLAUGHTERING, BEEF cattle, WHITE adipose tissue, HUMIDITY, WIND speed, BEEF

Abstract

Simple Summary: This study was conducted to generate a greater understanding of the abattoir factors that influence the incidence of dark cutting in Australian grain-fed beef. Elucidation of the factors that are associated with an increased risk of dark cutting will allow for the development of effective management strategies to be implemented to reduce dark cutting in feedlot cattle. This will increase profitability across the supply chain for both producers and abattoirs, whom need to collaborate for the minimization of dark cutting. The aim of this study was to evaluate the effect of carcass traits, lairage time and weather conditions during lairage and abattoir factors that impact the incidence of dark cutting in 142,228 grain-fed carcasses, as defined by Meat Standards Australia (MSA) guidelines. This study was conducted over a 12-month period analysing data from cattle that were supplied from seven feedlots and processed at three abattoirs. Abattoir data indicated that the average incidence of dark cutting within the study was 2.8%. Increased wind speeds (WSs) and rain during lairage at the abattoir was associated with an increased risk of dark cutting, whereas variation in ambient temperature and/or relative humidity did not influence dark cutting. Heavier carcasses with whiter fat, larger hump heights, more rib fat, higher marble scores and lower ossification had lower incidences of dark cutting. The factors abattoir, time in lairage, time to grading and grader within Abattoir had significant effects on the incidence of dark cutting. The results from this study suggest that reducing the time in lairage and increasing the time between slaughter and grading are the two major ways to reduce dark cutting in MSA carcasses. [ABSTRACT FROM AUTHOR]

Published

2021