Popis: |
Loss of mobility in rangeland use has emerged as a dominant theory to explain ecosystem degradation in the research area of rangeland ecology. The loss of mobility in rangeland use in China resulted from multiple interacting natural and social factors as well as policy changes. Re-establi-shing mobility in rangeland use is critical to rangeland restoration and sustainable management in China. However, the recovery of rangeland might be difficult through simply reverting to traditional rotational grazing. Alternatively, we explored various state-of-the-art rangeland management techniques, including smart fence, intelligent wearables for livestock, and rapid forage biomass measurement using drones. Such novel rangeland management techniques could be used in different regions with different climate and vegetation in China to re-establish mobility in rangeland utilization. Paired with these advanced techniques, new rotational high-mobility grazing systems could further integrate with other essential measures of grass-livestock husbandry in China, such as balancing of forage production and livestock grazing, supplemental forage of livestock, and replenishment of soil nutrients in rangeland. All these practices would ensure a more sustainable and effective utilization of rangeland in China.草地利用移动性的丧失导致生态系统退化,是草地放牧生态学领域兴起的主导性学说。在我国,草地利用移动性的丧失不仅是政策变化导致的,更是众多自然和社会因素叠加演进的结果。草地利用移动性的重建对于中国草地恢复和可持续性管理具有重要意义,但是很难通过恢复传统或季节性轮牧的途径实现。我们可以依托智能围栏、牲畜智能可穿戴设备以及草地生产力无人机快测等新型放牧管理技术,在我国不同气候区域、不同类型草地,因地制宜地发展新型草地移动性管理模式,进而重建“草地利用的移动性”。新型轮牧模式还应与草畜平衡、牲畜补饲以及土壤养分补充等重要生态草牧业措施结合,确保我国草地资源的高效可持续利用。. |