Abstract
Alpine plant communities are highly sensitive to global warming. One of the consequences of the warming is encroachment by herbaceous plants from forests at low elevations into alpine ecosystems. In the Changbai Mountains, narrowleaf small reed (Deyeuxia angustifolia (Kom.) Y. L. Chang) from mountain birch forests encroached upward into alpine tundra, gradually replacing native tundra shrubs such as Rhododendron (Rhododendron aureum Georgi). How encroaching plants affect native plant communities is not fully understood. In this study, we analyzed above- and belowground biomass of alpine plant communities at five encroachment levels to investigate how biomass allocation changed at species and community scales. Our research showed that native plants are forced to change their morphology to cope with competition, at both above- and belowground levels, from encroaching plants. We found that (1) R. aureum increased the shoot height and leaf area in order to compete with D. angustifolia; (2) above- and belowground biomass of D. angustifolia increased while above- and belowground biomass of R. aureum decreased with increasing levels of encroachment; and (3) D. angustifolia encroachment reduced the total biomass of alpine tundra. Encroachment by herbaceous plants has a long-term negative impact on the ability of tundra plants to sequester carbon in the alpine tundra of the Changbai Mountains.
Highlights
Alpine tundra is a fragile ecosystem that is very sensitive to environmental change [1]
As encroachment levels increased in the alpine tundra of the Changbai Mountains, the biomass of D. angustifolia gradually increased while the biomass of R. aureum declined
Our study revealed that herbaceous encroachment in alpine tundra altered biomass allocation of native plant communities through above- and belowground competition
Summary
Alpine tundra is a fragile ecosystem that is very sensitive to environmental change [1]. Alpine tundra is typically covered by snow for most of the year and the period for plant growth is limited to the short summer season. The poor soil, strong winds, and high ultraviolet radiation make establishment and growth difficult for most native alpine tundra plant species. Rapid changes in plant communities in alpine and arctic tundra have been observed over the past few decades. Some plant species from low elevations have expanded to high elevations in accordance with climate warming in alpine ecosystems [2]. Among these plant species 24.6% of the non-native species were herbaceous [2]. In the central Andes, the diversity and cover of non-native plants including some herbs have been found increasing in high elevations in past decades [3,4,5]
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