Sustainability of Inner Mongolian grasslands: application of the Savanna model

L. Christensen, M. Coughenour, J. Ellis, Zuozhong Chen
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引用次数: 48

Abstract

The sustainability and resilience of an Asian typical steppe grazing ecosystem was assessed by determining thresholds and stable states with an ecosystem simulation model. This analysis used the Savanna model to simulate spatial climate, vegetation, and livestock grazing dynamics, at 14 different stocking rates (5.5-59.8 AUY km-2). Grazing effects on vegetation were assessed, including effects on primary production, vegetation composition, and root biomass. Simulations were run for 100 years: 50 years to examine sustainability and 50 years to examine resilience of the system. Results showed that a grazing intensity (1-g/u; g = biomass in grazed area, u = biomass in ungrazed area) of 0.49 was sustainable for this particular system. This region was resilient to grazing up to the intensity of 0.49, where the system remained dominated by herbaceous production. Grazing intensities higher than 0.49, in combination with low precipitation events, resulted in decreased herbaceous net primary production and root biomass, and increased shrub net primary production and root biomass. Herbaceous vegetation was unable to gain a competitive advantage over shrubs in areas where grazing intensities were above 0.49; consequently, the system shifted to a stable shrub-dominated state that could not return its original composition even without further grazing. DOI:10.2458/azu_jrm_v56i4_christensen
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内蒙古草原可持续性:稀树草原模型的应用
利用生态系统模拟模型确定阈值和稳定状态,评价了亚洲典型草原放牧生态系统的可持续性和恢复力。利用热带稀树草原模型模拟了14种不同载畜率(5.5 ~ 59.8 AUY km-2)下的空间气候、植被和牲畜放牧动态。评估了放牧对植被的影响,包括对初级生产、植被组成和根系生物量的影响。模拟运行了100年:50年检查系统的可持续性,50年检查系统的恢复能力。结果表明:放牧强度(1 g/u;G =放牧区生物量,u =未放牧区生物量)为0.49。该区域对放牧的适应强度为0.49,以草本植物为主。放牧强度大于0.49,加之降水少,导致草本净初级生产量和根系生物量减少,灌木净初级生产量和根系生物量增加。在放牧强度大于0.49的地区,草本植被无法获得相对于灌木的竞争优势;因此,该系统转变为稳定的以灌木为主的状态,即使没有进一步的放牧也无法恢复其原始组成。DOI: 10.2458 / azu_jrm_v56i4_christensen
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