Ponnampalam Eric N, Knight Matthew I, Moate Peter J, Jacobs Joe L
Animal Production Sciences, Agriculture Victoria Research, Department of Jobs, Precincts and Regions, Bundoora, VIC 3083 Australia.
Animal Production Sciences, Agriculture Victoria Research, Department of Jobs, Precincts and Regions, Hamilton, VIC 3300 Australia.
J Anim Sci Biotechnol. 2020 Jul 15;11:83. doi: 10.1186/s40104-020-00472-z. eCollection 2020.
A pelleted diet containing camelina hay (CAMH) or camelina meal (CAMM) as a supplement along with a control pellet (CONT) diet formulated with commonly available feeds during summer was used to investigate an alternative pathway for sustainable meat production. Sustainable meat production was based on a simple estimation of income from meat produced versus feed costs if animals were fed for an extended period over summer compared to early slaughter at the beginning of summer. Eighty maternal composite wether lambs (Composite) based on Coopworth genetics and 80 pure Merino wether yearlings were divided into 10 groups within breed ( = 8) using stratified randomisation based on liveweights. Following 1 week of adaptation to experimental diets, animals were fed experimental diets for up to10 weeks.
Animals were slaughtered after either 8, 9 or 10 weeks of full feeding when the average liveweight of diet/genetic combination reached a weight appropriate for either 'heavy lamb' or 'heavy hogget' production, which occurred between 8 and 10 weeks of full feeding. There was no diet × breed interactions except for dressing percentage (DP), where Composite lambs fed the CAMH diet had the greatest DP (48.1 ± 0.35) and the Merino yearlings fed the CAMM diet the lowest DP (45.8 ± 0.33). Composite lambs gained 17.6-20.3 kg and Merino yearlings gained 10.7-12.9 kg liveweight. Based on their DP, this resulted in the production of approximately 8.3-9.5 kg additional carcass weight in Composites and 4.9-5.7 kg in Merinos, which in turn produced greater profit per Composite lamb and a small profit per Merino yearling.
Composite lambs fed CAMM and CAMH had 5% greater carcass weights at slaughter compared to the CONT group, but dietary treatments did not change carcass weight of Merino yearlings at slaughter. The extended feeding approach offered the producer an estimated economic gain of AUD $20.00 to $25.00 when yearly average prices were used (Method 1) and AUD $40.00 to $47.70 when pre- and post-summer average prices were used (Method 2) per Composite lambs, but extra carcass gain did not result in the same profit per Merino yearling. Among the Composites, the profit for animals fed the CAMH and CAMM were AUD $2.75 to $4.50 greater than CONT group when full year average prices were applied while AUD $3.50 to $5.50 greater than CONT group when pre- and post-summer average prices were applied. However, we acknowledge a combination approach of extended feeding for a portion of animals already on ground and selling the remaining animals pre-summer with joining of additional ewes is the most likely strategy. Considering the scenario of extended feeding for 3 weeks, based on the growth rates observed for Composite lambs, if an additional 2 kg carcass weight per animal can be gained for 50% of the 22 million lambs slaughtered in Australia (= 11 million animals), it would potentially supply an additional 22 million kg of lamb carcasses produced per annum. This is equivalent to producing an extra 1 million lamb carcasses per annum weighing 22 kg each. Feeding Composite lambs for an extended period and selling Merino yearlings pre-summer may be a good option due to faster growth rate of Composites that may help quick turn-over to market.
在夏季,使用一种含有亚麻荠干草(CAMH)或亚麻荠粕(CAMM)作为补充剂的颗粒饲料,以及一种用常见饲料配制的对照颗粒饲料(CONT),来研究可持续肉类生产的替代途径。可持续肉类生产基于一个简单的估算:如果动物在夏季延长饲养期,与初夏提前屠宰相比,所产肉类的收入与饲料成本的对比。基于库普沃思(Coopworth)基因的80只母系复合阉羔羊(Composite)和80只纯种美利奴阉一岁羊,根据体重采用分层随机化方法在品种内分为10组(每组8只)。在适应实验饲料1周后,动物被喂食实验饲料长达10周。
当饲料/基因组合的平均体重达到适合“肥羔”或“肥育羊”生产的重量时,动物在完全喂食8、9或10周后被屠宰,这一重量在完全喂食的8至10周之间达到。除屠宰率(DP)外,不存在饲料×品种的交互作用,其中喂食CAMH饲料的复合羔羊屠宰率最高(48.1±0.35),喂食CAMM饲料的美利奴一岁羊屠宰率最低(45.8±0.33)。复合羔羊增重17.6 - 20.3千克,美利奴一岁羊增重10.7 - 12.9千克。基于它们的屠宰率,这使得复合羔羊的胴体重增加约8.3 - 9.5千克,美利奴羊增加4.9 - 5.7千克,进而使得每只复合羔羊的利润更高,每只美利奴一岁羊有少量利润。
与CONT组相比,喂食CAMM和CAMH的复合羔羊在屠宰时胴体重高5%,但饲料处理并未改变美利奴一岁羊在屠宰时的胴体重。当使用年平均价格时(方法1),这种延长饲养方法为生产者带来的估计经济收益为每只复合羔羊20.00至25.00澳元,当使用夏前和夏后平均价格时(方法2)为40.00至47.70澳元,但额外的胴体增重并未给每只美利奴一岁羊带来相同的利润。在复合羔羊中,当应用全年平均价格时,喂食CAMH和CAMM的动物利润比CONT组高2.75至4.50澳元,当应用夏前和夏后平均价格时比CONT组高3.50至5.50澳元。然而,我们承认,一种结合的方法是对一部分已有的动物延长饲养,在初夏前出售其余动物并加入额外的母羊,这是最有可能的策略。考虑到延长饲养3周的情况,根据复合羔羊观察到的生长速度,如果在澳大利亚每年屠宰的2200万只羔羊中的50%(即1100万只动物)每只动物能够额外增加2千克胴体重,那么每年可能会额外供应2200万千克的羔羊肉胴体。这相当于每年额外生产100万只体重为22千克的羔羊肉胴体。由于复合羔羊生长速度较快,可能有助于快速周转上市,延长喂养复合羔羊并在初夏前出售美利奴一岁羊可能是一个不错的选择。
