Abstract
Due to increasing population and the recent implementation of policies to intensify the use of land and water resources, the transhumant pastoral systems in the Chinese-Mongolian Altay-Dzungarian region are rapidly changing, leading to modifications of herd size, herd composition and spatial distribution of livestock grazing. This may have major consequences for the supply and quality of rangeland biomass. Despite similar topographic settings, the socio-political framework for Chinese and Mongolian pastoralists differs significantly, leading to differences in rangeland utilization. To substantiate these claims, the long-distance transhumance routes, frequency of pasture changes, daily grazing itineraries and size of pastures were recorded by means of GPS tracking of cattle and goats on 1,535 (China) and 1,396 (Mongolia) observation days. The status quo of the main seasonal pastures was captured by measuring the herbage offer and its nutritive value in 869 sampling spots. In the Altay-Dzungarian region, small ruminant herds covered up to 412 km (Mongolia) and grazed on up to nine pastures per year (China). In Mongolia, the herds’ average duration of stay at an individual pasture was longer than in China, particularly in spring and autumn. Herbage allowance at the onset of a grazing period (kg dry matter per sheep unit and day) ranged from 34/17 to 91/95 (China/Mongolia). Comparing crude protein and phosphorous concentrations of herbage, in China, the highest concentrations were measured for spring and summer pastures, whereas in Mongolia, the highest concentrations were determined for autumn and winter pastures. Based on our data, we conclude that regulation of animal numbers and access to pastures seemingly maintained pasture productivity in China, especially at high altitudes. However, this policy may prohibit flexible adaptation to sudden environmental constraints. In contrast, high stocking densities and grazing of pastures before flowering of herbaceous plants negatively affected rangeland productivity in Mongolia, especially for spring and summer pastures.
Highlights
Seasonal herd movements and pasture utilization The altitude range captured within the seasonal transhumance movement varied between 1,031 and 2,943 m (China) and between 1,122 and 3,097 m (Mongolia)
The overall annual distances covered by seasonal movements were similar between the countries whereas across countries differences were observed between cattle and small ruminant herds due to different management practices
The average (2012 to 2015) annual length of transhumance routes serving the movements between the seasonal pastures of cattle amounted to 219 km (SD 5.1, n = 29, cattle remained in the vicinity of villages (China)) and 244 km (SD 10.4, n = 8, Mongolia), whereas small ruminants covered a transhumance distance of 395 km (SD 136.2, n = 28, China) and 412 km (SD 97.0, n = 23, Mongolia)
Summary
During the last decades in the Chinese part of the AltayDzungarian region, laws and policies were implemented to intensify livestock production while reducing the rate of land degradation (Brown et al 2008; Conte and Tilt 2014; Gongbuzeren et al 2015; Hua and Squires 2015). Other political programmes aimed at the settlement of pastoralists (Harris 2010; Hua and Squires 2015). Besides such planned interventions in the transhumance system, increasing urban expansion, intensified cropping and local mining activities progressively hamper the accessibility of rangeland (Squires et al 2009; Kreutzmann 2013a; Conte and Tilt 2014; Liao et al 2014b). Informal/ traditional norms allow Mongolian pastoralists to use pastures flexibly to cope with climate hazards (Upton 2010; Fernández-Giménez et al 2011; Addison et al 2013; Saizen 2013)
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