Abstract
Simple SummaryNatural agents ensuring the biosecurity of poultry production and the high quality of meat have again gained increasing interest. Natural zeolites absorb toxic gases and can also stimulate digestion and improve the physicochemical parameters of meat, which is important from the consumer’s point of view. The aim of the study was to assess the effect of a diet with a 4% inclusion of zeolite on the growth, the meat quality, and the strength of the bones and jejunum of Orvia and Cherry Valley ducks of different age and sex. The addition of zeolite was associated with reduced body weight gains and an increased feed conversion ratio, but with a higher water-holding capacity of breast muscles in seven-week-old ducks, and with a higher yellowness and water-holding capacity of leg muscles in six-week-old ducks. Interactions were found between long-term factors (age, sex, and origin) and the addition of zeolite. The results are inconclusive and indicate a need for further research, testing different doses of zeolite in different forms. Studies on the use of zeolite may help reduce the negative impact of poultry production on the environment, and ensure its safety and profitability.The safety of production and the high quality of meat are important aspects of rearing poultry, especially when natural solutions are used. Because of the increasing popularity of duck meat, the aim of the present study was to assess the effect of a diet with an inclusion of zeolite on the growth performance, meat quality, and strength of the bones and jejunum in ducks of different origin, sex, and age at slaughter. The study was conducted on 320 Orvia and Cherry Valley ducks. Birds were allocated to eight groups, according to their sex and origin. Half of the birds received feed with a 4% inclusion of zeolite. Body weight gain, feed intake, and feed conversion ratio per kilogram of gain were calculated. After six or seven weeks, five birds from each group were selected and slaughtered. After dissection, meat quality (pH, water-holding capacity, colour) and the strength of the bones and gut were analysed. The analysis revealed that zeolite was associated with reduced body weight gains and increased feed conversion ratio, but with a higher water-holding capacity of breast muscles in seven-week-old ducks, and with a higher yellowness and water-holding capacity of leg muscles in six-week-old ducks. A positive effect of long-term factors (age, sex, origin) and the interaction with zeolite was found for most of the analysed traits. Findings on the effect of 4% inclusion of zeolite in duck diet were inconclusive. The study implies the need for further research, since zeolite has potential as a natural sanitizing agent and can improve the quality of produced duck meat.
Highlights
The dynamic growth and advances in poultry production bring benefits, and challenges to growers associated with the cost-effectiveness of production as well as the quality and safety of meat [1]
The mortality rate in the flock did not exceed 2%, and deaths were related to the culling of the weak ducklings, which was recorded in the first days of rearing
The feed conversion ratio per kg of weight gain (FCR) was significantly higher in the group of ducks on a diet with zeolite in the first period of rearing (Days 0–21), and this resulted in a significant difference for the whole period of 0–49 days, where FCR was lower in ducks on a diet without zeolite (p < 0.05)
Summary
The dynamic growth and advances in poultry production bring benefits, and challenges to growers associated with the cost-effectiveness of production as well as the quality and safety of meat [1]. Aluminosilicates, including zeolite, are becoming increasingly popular natural minerals that can influence the health of birds and other farm animals [2]. In a study by Papaioannou et al [7], natural and synthetic zeolites were mainly used in the diet of farm animals to improve their performance traits. Zeolite has been used as a feed additive for broiler chickens [8,9,10] and had positive effects on performance traits, and similar results were found in laying hens [11]. Previous studies have focused on the effect of different aluminosilicates, such as bentonite, kaolin, and zeolite, on meat quality in broiler chickens [10,12], including the chemical composition of meat [13]. Meat quality is determined by a number of parameters, such as the content of intramuscular fat, water-holding capacity, and colour, indicating the suitability of meat for processing and driving consumer choices [14]
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