Mobile dune fixation by a fast-growing clonal plant: a full life-cycle analysis
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Publication date
2015
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Abstract
Desertification is a global environmental problem, and arid dunes with sparse vegetation are especially vulnerable to desertification. One way to combat desertification is to increase vegetation cover by planting plant species that can realize fast population expansion, even in harsh environments. To evaluate the success of planted species and provide guidance for selecting proper species to stabilize active dunes, demographic studies in natural habitats are essential. We studied the life history traits and population dynamics of a dominant clonal shrub Hedysarum laeve in Inner-Mongolia, northern China. Vital rates of 19057 ramets were recorded during three annual censuses (2007-2009) and used to parameterize Integral Projection Models to analyse population dynamics. The life history of H. laeve was characterized by high ramet turnover and population recruitment entirely depended on clonal propagation. Stochastic population growth rate was 1.32, suggesting that the populations were experiencing rapid expansion. Elasticity analysis revealed that clonal propagation was the key contributor to population growth. The capacity of high clonal propagation and rapid population expansion in mobile dunes makes H. laeve a suitable species to combat desertification. Species with similar life-history traits to H. laeve are likely to offer good opportunities for stabilizing active dunes in arid inland ecosystems.
Keywords
China, Ecosystem, Life Cycle Stages, Plants, Population Dynamics, SDG 12 - Responsible Consumption and Production, SDG 15 - Life on Land
Citation
Li, S-L, Yu, F-H, Werger, M J A, Dong, M, During, H J & Zuidema, P A 2015, 'Mobile dune fixation by a fast-growing clonal plant : a full life-cycle analysis', Scientific Reports, vol. 5, 8935. https://doi.org/10.1038/srep08935