Titlebook: Landscape and Ecosystem Diversity, Dynamics and Management in the Yellow River Source Zone; Gary John Brierley,Xilai Li,Jay Gao Book 2016

OVERT

Geomorphic Diversity of Rivers in the Upper Yellow River Basin,esponse to tectonic uplift and incision. This chapter documents a ‘journey along the Upper Yellow River’, providing an account of river diversity and assessing controls upon the pattern of river types. Valley gradient and confinement are the primary controls on river diversity and evolution in this

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Hillslope Stability in the Yellow River Source Zone,y) and freeze-thaw processes are shown to be key drivers of patterns and rates of grassland degradation. Human activities and climate change are key agents of landscape change. The influence of vegetation management upon hillslope stability and in reducing geological disasters is demonstrated. Veget

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Understanding Alpine Meadow Ecosystems,ase productivity and boost a higher above- and below-ground biomass input, prospectively enhancing long-term soil carbon storage. However, such measures may cause severe soil organic carbon and nitrogen loss.

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,Modelling Vegetation–Erosion Dynamics in the Mugetan Desert, Yellow River Source Zone,fication area. In this instance, the vegetation–aeolian sand erosion chart has a relatively large Zone C, indicating that once the vegetation coverage reaches a certain value, the capacity for self-improvement is high.

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Wetland Ecosystems of the Yellow River Source Zone,. Wetland degradation is affected by both global climate warming and human activities (especially construction of artificial ditches). The second half of this chapter uses field and laboratory analyses of benthic macroinvertebrates as indicators to assess the status of aquatic ecosystems in the regi

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Wetland and Its Degradation in the Yellow River Source Zone,s considered irreversible in that external intervention is essential to rehabilitate the degraded system via minimizing human disturbance, and even engineering work may be needed. Both the process and the severity of degradation can be considerably accelerated by the joint effect of multiple degrada

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GRUEL

,Climate, Vegetation and Human Land-Use Interactions on the Qinghai–Tibet Plateau Through the Holoceikely that long-term grazing activities have brought about a pronounced transition to grazing-adapted ecosystems in many grassland areas across the region. An overview of the human settlement history includes assessment of Dadiwan, Yangshao, Majiayao and Qijia cultures, and their associated agricult