Species-dependent responses of root growth of herbaceous plants to snow cover changes in a temperate desert, Northwest China

Background and aims Changes in snow cover can influence root growth and distribution of herbaceous species in water limiting desert ecosystems. However, how the growth of root systems of herbaceous species responds to snow cover changes remains unclear. Thus, the present study was aimed to examine t...

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Bibliographic Details
Published in:Plant and soil 2021-02, Vol.459 (1/2), p.249-260
Main Authors: Jinfei, Yin, Xiaobing, Zhou, Benfeng, Yin, Yonggang, Li, Yuanming, Zhang
Format: Article
Language:English
Subjects:
Biomass
Biomedical and Life Sciences
Community structure
Desert flora
Deserts
Distribution
Ecological function
Ecology
Ecosystems
Environmental aspects
Geographical distribution
Growing season
Growth
Herbs
Life Sciences
Physiological aspects
Plant communities
Plant growth
Plant Physiology
Plant Sciences
Regular Article
REGULAR ARTICLES
Roots (Botany)
Snow
Snow cover
Snow depth
Snow removal
Soil Science & Conservation
Species
Structure-function relationships
Temperate climates
Winter
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Summary:Background and aims Changes in snow cover can influence root growth and distribution of herbaceous species in water limiting desert ecosystems. However, how the growth of root systems of herbaceous species responds to snow cover changes remains unclear. Thus, the present study was aimed to examine the influence of snow cover changes on root growth of herbaceous species in a temperate desert of central Asia. Methods Plots with four snow cover depth treatments in winter were investigated in the Gurbantunggut Desert. The four treatments were snow removal (− S), ambient snow, double snow (+ S), and triple snow (+ 2S). We examined the root growth of two typical herbaceous species: one ephemeral species, Erodium oxyrhinchum , and one annual species, Ceratocarpus arenarius . Result The root length of the annual plant was significantly reduced by snow removal compared with the ambient treatment. The specific root length and specific surface area of the ephemeral plants increased with increasing snow depth, whereas the annual plants showed the opposite trends. Snow removal significantly increased the root–shoot ratio of the annual plants, with no effects found in the ephemeral plants. The individual root biomass and total underground biomass of the two species had similar responses to the snow depth treatments, with the highest values found with the ambient treatment. Conclusions These results can contribute to explaining to changing winter snow cover depth can alter plant growth, community structure, and ecosystem function in the growing season in temperate desert ecosystems.
ISSN:0032-079X
1573-5036
DOI:10.1007/s11104-020-04756-1