Increased soil moisture aggravated the competitive effects of the invasive tree Rhus typhina on the native tree Cotinus coggygria

Xiao Guo; Zhen-Wei Xu; Ming-Yan Li; Xiao-Huang Ren; Jian Liu; Wei-Hua Guo

doi:10.1186/s12898-020-00284-9

BMC Ecology (Mar 2020)

Increased soil moisture aggravated the competitive effects of the invasive tree Rhus typhina on the native tree Cotinus coggygria

Xiao Guo,
Zhen-Wei Xu,
Ming-Yan Li,
Xiao-Huang Ren,
Jian Liu,
Wei-Hua Guo

Affiliations

Xiao Guo: College of Landscape Architecture and Forestry, Qingdao Agricultural University
Zhen-Wei Xu: Institute of Ecology and Biodiversity, College of Life Sciences, Shandong University
Ming-Yan Li: College of Landscape Architecture and Forestry, Qingdao Agricultural University
Xiao-Huang Ren: Institute of Ecology and Biodiversity, College of Life Sciences, Shandong University
Jian Liu: Institute of Environmental Research, Shandong University
Wei-Hua Guo: Institute of Ecology and Biodiversity, College of Life Sciences, Shandong University

DOI: https://doi.org/10.1186/s12898-020-00284-9
Journal volume & issue: Vol. 20, no. 1
pp. 1 – 13

Abstract

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Abstract Background Invasive exotic species have caused significant problems, and the effects of extreme precipitation and drought, which might occur more frequently under the global climate change scenarios, on interspecific relationship between invasive and native species remain unclear. Results We conducted a greenhouse experiment with three soil water levels (30–40%, 50–60%, and 70–80% of field capacity) and two cultivation treatments (monoculture pots, one seedling of either species and mixture pots, one seedling of each species) to investigate soil water content effects on the relationship between invasive Rhus typhina and native Cotinus coggygria. Rhus typhina had lower height but bigger crown area than C. coggygria in the monoculture treatment. Rhus typhina had higher height, bigger crown area and total biomass than C. coggygria in the mixture treatment. Drought decreased the growth parameters, total chlorophyll concentration, and leaf biomass, but did not change gas exchange and other biomass parameters in R. typhina. The growth parameters, leaf area index, biomass parameters, total chlorophyll concentration, and net photosynthetic rate of C. coggygria decreased under drought conditions. The log response ratio (lnRR), calculated as ln (total biomass of a target plant grown in monoculture/total biomass of a target plant grown in mixed culture), of R. typhina was lower than that of C. coggygria. The lnRR of R. typhina and C. coggygria decreased and increased with increase in soil water content, respectively. Conclusions Rhus typhina has greater capacity to relatively stable growth to the drought condition than C. coggygria and has strong competition advantages in the mixture with C. coggygria, especially in the drought condition. Our study will help understand the causes of invasiveness and wide distribution of R. typhina under various moisture conditions and predict its expansion under climate change scenarios.

Published in BMC Ecology

ISSN: 1472-6785 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General): Ecology
Website: https://bmcecol.biomedcentral.com

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