The UWA Institute of Agriculture and UWA School of Agriculture and Environment, The University of Western Australia, Crawley, WA, Australia.
The University of Queensland, Queensland Alliance for Agricultural and Food Innovation, Carmody Road, St Lucia, Qld, 4072, Australia.
Theriogenology. 2024 Dec;230:174-182. doi: 10.1016/j.theriogenology.2024.09.017. Epub 2024 Sep 18.
We offer a perspective on the major challenges that are confronting the management of reproduction in sheep and cattle in Australia and New Zealand, over the next two decades. An important context is the dominance of grazing systems in which large flocks or herds are managed over large areas where it is challenging to manage reproduction with precision. Consequently, the variable forage supply usually dominates reproductive outcomes, a problem that will be exacerbated by global heating. Thus, in extensive grazing systems, there is a great need for technological solutions to improve the management of nutrition. Global heating will also exert direct effects on reproductive function. Therefore, for the foreseeable future, reproduction will remain a focus for industry. In addition, as the industries develop, we foresee continued societal pressure to reduce medication, mitigate environmental damage, and improve animal well-being. Management solutions for extensive grazing systems must involve minimal interventions with the animals and be applicable to diverse genotypes and environments. Clearly, genetics and breeding will be at the heart of solutions and elegant strategies will be needed that focus on developing animals that are robust, if perhaps a little less productive. A high rate of genetic gain is the main reason for pursuing reproductive technologies, but highly advanced reproductive technology is not likely to be the best fit in extensive management systems. Even for AI, the simplest technology, uptake is limited and lateral thinking is needed to find ways to improve the rates of genetic gain. We conclude that there are many opportunities for improving reproductive performance in sheep and cattle in Australia and New Zealand. As we gain deeper understanding of the processes involved, we should be able to make progress in fertility and fecundity, embryo survival, and postnatal survival. Improvements in reproductive performance will increase productivity, and should also be associated with significantly improved animal well-being and a reduction in methane emissions intensity. To capture these benefits, the development of new management options will require lateral thinking about reproductive technology for extensive grazing systems, and a transdisciplinary approach that brings together the systems biology of grazing animals with an understanding of the barriers to adoption by farmers.
我们提供了一个视角,来看待未来二十年澳大利亚和新西兰在绵羊和牛的繁殖管理方面所面临的主要挑战。一个重要的背景是放牧系统的主导地位,在这种系统中,大型羊群或牛群在大面积的土地上进行管理,很难精确管理繁殖。因此,可变的饲料供应通常主导着繁殖结果,这个问题将因全球变暖而加剧。因此,在广泛的放牧系统中,非常需要技术解决方案来改善营养管理。全球变暖也将对繁殖功能产生直接影响。因此,在可预见的未来,繁殖仍将是行业的焦点。此外,随着这些行业的发展,我们预计社会将继续施加压力,要求减少用药、减轻环境破坏和改善动物福利。广泛放牧系统的管理解决方案必须涉及对动物的最小干预,并适用于不同的基因型和环境。显然,遗传学和育种将是解决方案的核心,需要采取优雅的策略,专注于培育健壮的动物,尽管它们的生产力可能稍低一些。遗传进展的高速度是追求繁殖技术的主要原因,但高度先进的繁殖技术可能不太适合广泛的管理系统。即使是 AI 这种最简单的技术,其应用也受到限制,需要创造性思维来提高遗传进展的速度。我们的结论是,澳大利亚和新西兰有许多机会可以提高绵羊和牛的繁殖性能。随着我们对所涉及的过程有了更深入的了解,我们应该能够在生育力和繁殖力、胚胎存活率和产后存活率方面取得进展。繁殖性能的提高将提高生产力,并且还应该与动物福利的显著改善和甲烷排放强度的降低相关。为了获得这些好处,新管理方案的发展需要对广泛放牧系统的繁殖技术进行创造性思维,以及采用跨学科方法,将放牧动物的系统生物学与农民采用的障碍结合起来。
