Abstract
The planting of sand-binding vegetation in the Qinghai Lake watershed at the northeastern edge of the Qinghai–Tibet Plateau began in 1980. For this paper, we took the desert on the eastern shore of Qinghai Lake as the study area. We analyzed a variety of aged Hippophae rhamnoides communities and aeolian activities, and we discuss the relationship between them. The main conclusions are as follows: (1) With an increasing number of binding years, the species composition became more abundant, natural vegetation began to recover, and biodiversity increased year by year. At the same time, plant height, canopy width, and community coverage increased, but H. rhamnoides coverage was reduced to 36.70% as coverage of Artemisia desertorum increased to 25.67% after 10 years of fixing. The biomass of H. rhamnoides increased significantly, especially the underground biomass. For example, the biomass of area 15a was about 10 to 30 times that of area 1a. (2) Plants are a useful obstacle to aeolian activity. The presence of plants reduced the wind flow in the upper parts of the plants, but it did not have obvious regular characteristics. The longer the fixation term, the lower the surface sediment transport. It is significant that the sediment transport amount in winter was four times that in the summer. After 15 years of binding, H. rhamnoides grows well, and the community is still stable in the study area.
Highlights
Desertification is one of the world’s most serious environmental problems and has attracted worldwide attention [1,2]
It is necessary to carry out research on the relationship between sand-binding shrubs and aeolian activities in alpine areas so that artificial plant communities can gradually evolve into stable natural plant communities, achieving long-term ecosystem effects
Qinghai Lake is one of the typical ecologically fragile areas of the Qinghai–Tibet Plateau, and H. rhamnoides has been planted in the Qinghai Lake watershed for more than 30 years, the research on this vegetation restoration is extremely lacking, especially the relationship between the plant community and aeolian activity
Summary
Desertification is one of the world’s most serious environmental problems and has attracted worldwide attention [1,2]. It is necessary to carry out research on the relationship between sand-binding shrubs and aeolian activities in alpine areas so that artificial plant communities can gradually evolve into stable natural plant communities, achieving long-term ecosystem effects. The study of the response mechanism of desert plants to wind-blown hazards lacks practical guidance for desertification control work, and field observation experiments are needed to guide suitable site conditions, afforestation structures, and methods or species allocation for artificial sand-binding plants. Qinghai Lake is one of the typical ecologically fragile areas of the Qinghai–Tibet Plateau, and H. rhamnoides has been planted in the Qinghai Lake watershed for more than 30 years, the research on this vegetation restoration is extremely lacking, especially the relationship between the plant community and aeolian activity.
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