Effect of change of plant community composition along degradation gradients on water con-ditions in an alpine swamp wetland on the Qinghai-Tibetan Plateau of China

Asymmetrical warming between elevations is a common phenomenon and warming magnitude increases with increasing elevations on the Tibetan Plateau, which in turn may reduce temperature differences between elevations. However, it is still unclear how such phenomenon will affect plant community composition in alpine grasslands on the Tibetan Plateau. Therefore, in this study, we performed an experiment at three elevations (i.e., 4,300 m, 4,500 m, and 4,700 m) in alpine grasslands, the Northern Tibetan Plateau since May, 2010. Open top chambers were established at the elevations 4,500 m and 4,700 m. Plant species and phylogenetic composition were investigated in August, 2011–2019. There were no significant differences in plant species and phylogenetic composition, environmental temperature and moisture conditions between the elevation 4,300 m under non-warming conditions and the elevation 4,500 m under warming conditions in 2019. There were also no significant differences in plant species composition, environmental temperature and moisture conditions between the elevation 4,500 m under non-warming conditions and the elevation 4,700 m under warming conditions in 2019. Therefore, the narrowing temperature differences between elevations may result in plant community composition between elevations tending to be similar in alpine grasslands on the Tibetan Plateau under future elevational asymmetrical warming.

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Above-and below-ground trait linkages of dominant species shape responses of alpine steppe composition to precipitation changes in the Tibetan Plateau

Journal of Plant Ecology ◽

10.1093/jpe/rtab011 ◽

2021 ◽

Author(s):

Zhi Zheng ◽

Yue Zhang ◽

Shihu Zhang ◽

Qun Ma ◽

Dajie Gong ◽

...

Keyword(s):

Tibetan Plateau ◽

Community Composition ◽

Plant Community ◽

Dominant Species ◽

The Tibetan Plateau ◽

Plant Community Composition ◽

Alpine Steppe ◽

Precipitation Regimes ◽

Below Ground ◽

Precipitation Changes

Abstract Aims Human activities and global changes have led to alterations in global and regional precipitation regimes. Despite extensive studies on the effects of changes in precipitation regimes on plant community composition across different types of grassland world-wide, few studies have specifically focused on the effects of precipitation changes on high-altitude alpine steppe at community and plant species levels in the Tibetan Plateau. Methods We investigated the effects of growing-season precipitation changes (reduced precipitation by 50%; ambient precipitation; enhanced precipitation by 50%) for 6 years on plant community composition in an alpine steppe of Tibetan Plateau by linking above-ground to below-ground traits of dominant species. Important Findings We found that reduced precipitation shifted community composition from dominance by bunchgrass (primarily Stipa purpurea) to dominance by rhizomatous grass (primarily Leymus secalinus). Roots and leaf traits of L. secalinus and S. purpurea differed in their responses to reduced precipitation. Reduced precipitation enhanced root vertical length and carbon (C) allocation to deep soil layers, and decreased the leaf width in L. secalinus, but it did not change the traits in S. purpurea. Moreover, reduced precipitation significantly enhanced rhizome biomass, length, diameter and adventitious root at the rhizome nodes in L. secalinus. These changes in traits may render rhizomatous grass greater competitive during drought stress. Therefore, our findings highlight important roles of above-ground and below-ground traits of dominant species in plant community composition of alpine steppe under precipitation change.

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