Invasive alien clonal plants are competitively superior over co-occurring native clonal plants
•Invasive clonal plants grew better than natives and benefited more from added N.•Invasive clonal plants grew better with inter- than with intraspecific competition.•The reverse was true for native clonal plants.•Invasive clonal plants in China are competitively superior over natives. Alien plant in...
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| Published in | Perspectives in plant ecology, evolution and systematics Vol. 40; p. 125484 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier GmbH
01.10.2019
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| Subjects | |
| Online Access | Get full text |
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| Abstract | •Invasive clonal plants grew better than natives and benefited more from added N.•Invasive clonal plants grew better with inter- than with intraspecific competition.•The reverse was true for native clonal plants.•Invasive clonal plants in China are competitively superior over natives.
Alien plant invasions are a major component of global change, and can severely threaten local floras and global biodiversity. A striking pattern of invasive floras is that many of the world’s worst invasive plants are clonal species. However, it is still unclear whether invasive clonal plant species are in general competitively superior over native clonal plant species and whether this pattern can be affected by environmental conditions. To test whether nitrogen (N) availability and suppression of enemies can alter the competitive outcome between invasive alien and resident native clonal plants, we selected five pairs of invasive alien and co-occurring native clonal plant species in China. We grew them both in monocultures (i.e. with intraspecific competition) and in two-species mixtures (i.e. with interspecific competition) with or without N addition, and with or without suppression of enemies (using insecticide and fungicide application). Overall, invasive alien clonal plants produced significantly more biomass than native clonal plants, and took more advantage of N addition. Invasive clonal plants tended to grow better with interspecific than with intraspecific competition, whereas the reverse was true for native clonal plants. This species-origin-by-competition interaction, however, was weaker with than without N addition. Without enemy suppression, native clonal plants experienced more leaf damage than invasive aliens when they grew in interspecific competition with each other, but only in the absence of N addition. Nevertheless, enemy suppression benefited growth of invasive alien and native clonal plants to similar degrees. Our results show that already under strongly N-limited conditions, invasive clonal plants in China are competitively superior over natives, and that this competitive superiority of invasive clonal plants becomes even stronger after N addition. This implies that the ongoing eutrophication of many habitats is likely to further stimulate invasions by clonal plants. |
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| AbstractList | Alien plant invasions are a major component of global change, and can severely threaten local floras and global biodiversity. A striking pattern of invasive floras is that many of the world’s worst invasive plants are clonal species. However, it is still unclear whether invasive clonal plant species are in general competitively superior over native clonal plant species and whether this pattern can be affected by environmental conditions. To test whether nitrogen (N) availability and suppression of enemies can alter the competitive outcome between invasive alien and resident native clonal plants, we selected five pairs of invasive alien and co-occurring native clonal plant species in China. We grew them both in monocultures (i.e. with intraspecific competition) and in two-species mixtures (i.e. with interspecific competition) with or without N addition, and with or without suppression of enemies (using insecticide and fungicide application). Overall, invasive alien clonal plants produced significantly more biomass than native clonal plants, and took more advantage of N addition. Invasive clonal plants tended to grow better with interspecific than with intraspecific competition, whereas the reverse was true for native clonal plants. This species-origin-by-competition interaction, however, was weaker with than without N addition. Without enemy suppression, native clonal plants experienced more leaf damage than invasive aliens when they grew in interspecific competition with each other, but only in the absence of N addition. Nevertheless, enemy suppression benefited growth of invasive alien and native clonal plants to similar degrees. Our results show that already under strongly N-limited conditions, invasive clonal plants in China are competitively superior over natives, and that this competitive superiority of invasive clonal plants becomes even stronger after N addition. This implies that the ongoing eutrophication of many habitats is likely to further stimulate invasions by clonal plants. •Invasive clonal plants grew better than natives and benefited more from added N.•Invasive clonal plants grew better with inter- than with intraspecific competition.•The reverse was true for native clonal plants.•Invasive clonal plants in China are competitively superior over natives. Alien plant invasions are a major component of global change, and can severely threaten local floras and global biodiversity. A striking pattern of invasive floras is that many of the world’s worst invasive plants are clonal species. However, it is still unclear whether invasive clonal plant species are in general competitively superior over native clonal plant species and whether this pattern can be affected by environmental conditions. To test whether nitrogen (N) availability and suppression of enemies can alter the competitive outcome between invasive alien and resident native clonal plants, we selected five pairs of invasive alien and co-occurring native clonal plant species in China. We grew them both in monocultures (i.e. with intraspecific competition) and in two-species mixtures (i.e. with interspecific competition) with or without N addition, and with or without suppression of enemies (using insecticide and fungicide application). Overall, invasive alien clonal plants produced significantly more biomass than native clonal plants, and took more advantage of N addition. Invasive clonal plants tended to grow better with interspecific than with intraspecific competition, whereas the reverse was true for native clonal plants. This species-origin-by-competition interaction, however, was weaker with than without N addition. Without enemy suppression, native clonal plants experienced more leaf damage than invasive aliens when they grew in interspecific competition with each other, but only in the absence of N addition. Nevertheless, enemy suppression benefited growth of invasive alien and native clonal plants to similar degrees. Our results show that already under strongly N-limited conditions, invasive clonal plants in China are competitively superior over natives, and that this competitive superiority of invasive clonal plants becomes even stronger after N addition. This implies that the ongoing eutrophication of many habitats is likely to further stimulate invasions by clonal plants. |
| ArticleNumber | 125484 |
| Author | van Kleunen, Mark Yan, Rong Wang, Yong-Jian Yu, Fei-Hai Chen, Duo |
| Author_xml | – sequence: 1 givenname: Yong-Jian surname: Wang fullname: Wang, Yong-Jian organization: Hubei Engineering Technology Research Center for Forestry Information / College of Horticulture & Forestry Sciences, Huazhong Agricultural University, Wuhan 430070, China – sequence: 2 givenname: Duo surname: Chen fullname: Chen, Duo organization: Hubei Engineering Technology Research Center for Forestry Information / College of Horticulture & Forestry Sciences, Huazhong Agricultural University, Wuhan 430070, China – sequence: 3 givenname: Rong surname: Yan fullname: Yan, Rong organization: Hubei Engineering Technology Research Center for Forestry Information / College of Horticulture & Forestry Sciences, Huazhong Agricultural University, Wuhan 430070, China – sequence: 4 givenname: Fei-Hai orcidid: 0000-0001-5007-1745 surname: Yu fullname: Yu, Fei-Hai email: feihaiyu@126.com organization: Institute of Wetland Ecology & Clone Ecology / Zhejiang Provincial Key Laboratory of Plant Evolutionary Ecology and Conservation, Taizhou University, Taizhou 318000, China – sequence: 5 givenname: Mark surname: van Kleunen fullname: van Kleunen, Mark organization: Ecology, Department of Biology, University of Konstanz, Universitätsstrasse 10, D-78457 Konstanz, Germany |
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| Keywords | Competition Multi-species comparison Clonal growth Exotic plants Enemy release hypothesis Invasiveness |
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| Snippet | •Invasive clonal plants grew better than natives and benefited more from added N.•Invasive clonal plants grew better with inter- than with intraspecific... Alien plant invasions are a major component of global change, and can severely threaten local floras and global biodiversity. A striking pattern of invasive... |
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| SubjectTerms | biodiversity biomass China Clonal growth Competition ecological invasion Enemy release hypothesis environmental factors eutrophication Exotic plants fungicides global change habitats insecticides intraspecific competition introduced plants invasive species Invasiveness leaves Multi-species comparison nitrogen pesticide application |
| Title | Invasive alien clonal plants are competitively superior over co-occurring native clonal plants |
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