Selle Peter H, Cantor David I, McQuade Leon R, McInerney Bernard V, de Paula Dorigam Juliano Cesar, Macelline Shemil P, Chrystal Peter V, Liu Sonia Y
Poultry Research Foundation within The University of Sydney, Camden, NSW 2570, Australia.
Sydney School of Veterinary Science, The University of Sydney, Sydney, NSW 2006, Australia.
Anim Nutr. 2021 Dec;7(4):939-946. doi: 10.1016/j.aninu.2021.03.011. Epub 2021 Sep 6.
In a previous experiment, male Ross 308 broiler chickens were offered dietary treatments with 3 levels of crude protein (222, 193, 165 g/kg) and 3 feed grains (ground maize, ground wheat, whole wheat) from 7 to 35 d post-hatch. Maize-based diets supported superior growth performance in comparison to wheat-based diets. Uric acid concentrations in excreta were retrospectively determined and related to total nitrogen (N) excreta concentrations. Uric acid concentrations ranged from 28.5 to 69.4 mg/g and proportions of uric acid-N to total excreta-N ranged from 27.4% to 42.6% in broiler chickens offered the 3 × 3 factorial array of dietary treatments. Proportions of uric acid-N to total N in excreta in birds offered the 165 g/kg CP, maize-based diet were significantly lower by 10.6 percentage units (27.4% versus 38.0%; = 0.00057) than their wheat-based counterparts. Total excreta analysed had been collected from 35 to 37 d post-hatch when feed intakes and excreta outputs were monitored. There were linear relationships between proportions of uric acid-N to total N in excreta in birds offered the three 165 g/kg CP diets with weight gain ( = -0.587; = 0.010), feed intake ( = -0.526; = 0.025) and feed conversion ratios ( = 0.635; = 0.005). The possibility that increasing uric acid-N proportions in excreta is indicative of excessive ammonia accumulations compromising growth performance is discussed. The mean proportion of dietary glycine involved in uric acid excretion was 49.2% across all dietary treatments but ranged from 25.0% to 80.9%. Thus, the appropriate amount of dietary glycine is variable and largely dependent on the volume of uric acid synthesised and excreted.
在之前的一项实验中,对雄性罗斯308肉鸡从孵化后7日龄至35日龄给予含有3种粗蛋白水平(222、193、165克/千克)和3种饲料谷物(玉米粉、小麦粉、全麦)的日粮处理。与以小麦为基础的日粮相比,以玉米为基础的日粮能支持更好的生长性能。对排泄物中的尿酸浓度进行了回顾性测定,并将其与排泄物中的总氮(N)浓度相关联。在给予3×3析因日粮处理组合的肉鸡中,尿酸浓度范围为28.5至69.4毫克/克,尿酸氮占排泄物总氮的比例范围为27.4%至42.6%。给予165克/千克粗蛋白、以玉米为基础日粮的鸡,其排泄物中尿酸氮占总氮的比例比以小麦为基础日粮的鸡显著低10.6个百分点(27.4%对38.0%;P = 0.00057)。所分析的总排泄物是在孵化后35至37日龄收集的,此时监测了采食量和排泄物产量。在给予三种165克/千克粗蛋白日粮的鸡中,排泄物中尿酸氮占总氮的比例与体重增加(r = -0.587;P = 0.010)、采食量(r = -0.526;P = 0.025)和饲料转化率(r = 0.635;P = 0.005)之间存在线性关系。讨论了排泄物中尿酸氮比例增加是否表明过量氨积累会损害生长性能的可能性。在所有日粮处理中,参与尿酸排泄的日粮甘氨酸平均比例为49.2%,但范围为25.0%至80.9%。因此,日粮甘氨酸的适宜量是可变的,并且很大程度上取决于合成和排泄的尿酸量。