Invasive Eichhornia crassipes Affects the Capacity of Submerged Macrophytes to Utilize Nutrients

Zhou, Jian; Pan, Xu; Xu, Hang; Wang, Qi

doi:10.3390/su9040565

Cited by 9 publications

(6 citation statements)

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“…The highly competitive ability of E. crassipes (Ruiz Téllez et al, ), for example, may enhance its negative effects on species without an evolutionary history with this invader (Callaway & Aschehoug, ). For example, the nutrient acquisition rates of the species from the introduced range may be slower (Zhou, Pan, Xu, Wang, & Cui, ), whereas the native species at the E. crassipes native range may present similar nutrient acquisition rates of this species as they have competed throughout their evolutionary history. In addition, the release of allelopathic compounds produced by this invasive species may have a negative effect on the species from the introduced range of E. crassipes occurrence (Gul et al, ; Pei et al, ).…”

Section: Discussionmentioning

confidence: 99%

“…In addition to the biotic interactions in the introduced range, several inherent ecological features of E. crassipes can offer a great invasive potential leading to a lower biotic resistance of native communities and, as a consequence to higher impacts on native communities. The invasion potential enhances, for example, in response to phenotypic plasticity (Center & Spencer, ; Fleming & Dibble, ; Zhang, Zhang, & Barrett, ), high relative growth rates (Cook, ; Ruiz Téllez et al, ), rapid nutrient acquisition, efficient use of resources related to other natives (Fan, Liu, Yu, & Xie, ; Zhou et al, ) and high propagation capacity of propagules (Downing‐Kunz & Stacey, ). All combined, these factors allow E. crassipes to spread rapidly by decreasing the space available to other species (Stiers et al, ).…”

Section: Discussionmentioning

confidence: 99%

“…and Myriophyllum sp. By being submerged, these species are suppressed due to the shading provided by floating macrophytes (Brendonck et al, ; Khanna, Santos, Hestir, & Ustin, ; Scheffer et al, ; Strange et al, ) due to the use of resources by E. crassipes (Zhou et al, ) or could even not establish in places where the invader had a biomass above 205 g DM m −2 . This elimination of submerged species in plots dominated by E. crassipes is in accordance with the previous conclusion showing negative effect of invasive abundance over species richness.…”

Section: Discussionmentioning

confidence: 99%

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Negative correlations between native macrophyte diversity and water hyacinth abundance are stronger in its introduced than in its native range

Lolis

Alves

Fan

et al. 2020

Diversity and Distributions

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Aim:We tested the hypothesis that the diversity and abundance of aquatic macrophytes are negatively related with Eichhornia crassipes abundance in its introduced range, but not in its native range.Location: Upper Paraná River Floodplain, Brazil and Southeast China. Methods:We sampled aquatic macrophytes patches in Brazil (native range) andChina (introduced range) along a biomass gradient of E. crassipes. For each patch, we obtained values of species richness and aquatic macrophytes percentage cover, as response variables in regression models. We also used species accumulation curves to quantify the total plot diversity in dominated and non-dominated plots for both countries. Finally, we compared the influence of E. crassipes dominance on community composition and beta diversity with Permanova and Permdisp, respectively. Results:The regression analyses revealed a negative correlation between macrophyte richness and cover and E. crassipes biomass only in the introduced range. The cumulative number of species decreased at a higher extent in plots dominated by E. crassipes in China, compared with Brazil. Also, species composition changed and beta diversity decreased in the dominated plots in China, but not in Brazil. Main Conclusions:The reduction of all diversity attributes related to E. crassipes probably results from its engineer species role, which decreases littoral region habitat heterogeneity and affects rare species in the introduced range. Differences between countries may be associated with impacts of water hyacinth on native macrophytes as this plant grows very fast and is highly competitive. Although less probable, biotic resistance at the establishment phase of water hyacinth in sites with higher number of native species is also a possibility. Regardless of the main mechanism explaining our patterns, it is suggested that invasion by water hyacinth is a cause for concern for its higher impacts in the introduced ranges than the native ranges. | 243LOLIS et aL.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Negative correlations between native macrophyte diversity and water hyacinth abundance are stronger in its introduced than in its native range

Lolis

Alves

Fan

et al. 2020

Diversity and Distributions

View full text Add to dashboard Cite

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“…Eichhornia crassipes (Mart.) Solms is a major threat to the biodiversity and sustainability of aquatic ecosystems in Dianchi Lake (Zhou et al ., ). Therefore, in addition to existing invasive plants, predicting which exotic plant species exhibit risk of becoming invasive would be cost‐effective and important for preventing new invaders and for managing high‐risk species already present.…”

Section: Introductionmentioning

confidence: 97%

Outbreak of a new alien invasive plant Salvia reflexa in north‐east China

et al. 2019

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Summary The establishment of invasive species is widely recognised as a pivotal issue in the preservation of biodiversity. Salvia reflexa, a species native to the south‐central United States and Mexico, has been widely introduced in Argentina, Australia, New Zealand and Japan. In China, the first population of this plant was found growing adjacent to a grain depot in Shahai village, Jianping County, Liaoning Province, on 25 July 2007. Since the grain depot imported foodstuffs from regions where the plant is native, we infer that S. reflexa was introduced into China via imported foodstuff in the early to mid‐2000s. Based on field observations, at least seven populations of this plant were observed in north‐east China. The plants displayed vigorous growth in midsummer and produced prolific seeds to overcome the cold environment in winter. Salvia reflexa occurred in both dense monocultures and in mixed stands with native plants. In order to validate a system for recognising and categorising non‐native plants in China, the Australian Weed Risk Assessment system was used to assess the invasiveness status of 19 exotic and 16 native plants in north‐east China. Salvia reflexa exhibited a high score of 10, suggesting it is a potentially pernicious alien invasive plant. Although the current distribution of S. reflexa is restricted to Liaoning province and thus far has limited impact on local environments, local regulatory authorities should pay close attention to this plant and take measures to stop its expansion. This is the first time that an invasive plant from the Lamiaceae (mint family) has been documented from cold environments in China.

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“…For example, Eichhornia crassipes (Mart.) Solms, native to South America has been cultivated in China as feed for livestock, but has now become major threat to the biodiversity and sustainability of aquatic ecosystems in Dianchi Lake [ 19 ]. Similarly, Ageratina adenophora (Spreng.)…”

Section: Introductionmentioning

confidence: 99%

Defensive functions of volatile organic compounds and essential oils from northern white-cedar in China

et al. 2020

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Background Plants are known to emit diverse volatile organic compounds (VOCs), which may function as signaling substances in plant communication with other organisms. Thuja occidentalis, which is widely cultivated throughout China, releases aromatic VOCs into the air in winter and early spring. The relationship of this cultivated plant with its neighboring plants is necessary for the conservation of biodiversity. Results (−)-α-thujone (60.34 ± 5.58%) was found to be the major component in VOCs from the Shenyang population. The essential oils (EOs) from the Kunming and Shenyang populations included the major components (−)-α-thujone, fenchone, (+)-β-thujone, and (+)-hibaene, identified using GC-MS analyses. (−)-α-thujone and (+)-hibaene were purified and identified by NMR identification. EOs and (−)-α-thujone exhibited valuable phytotoxic activities against seed germination and seedling growth of the plants Taraxacum mongolicum and Arabidopsis thaliana. Moreover, the EOs displayed potent inhibitory activity against pathogenic fungi of maize, including Fusarium graminearum, Curvularia lunata, and Bipolaris maydis, as well as one human fungal pathogen, Candida albicans. Quantitative analyses revealed high concentrations of (−)-α-thujone in the leaves of T. occidentalis individuals from both the Shenyang and Kunming populations. However, (−)-α-thujone (0.18 ± 0.17 μg/g) was only detected in the rhizosphere soil to a distance of 0.5 m from the plant. Conclusions Taken together, our results suggest that the phytotoxic effects and antifungal activities of the EOs and (−)-α-thujone in T. occidentalis certainly increased the adaptability of this plant to the environment. Nevertheless, low concentrations of released (−)-α-thujone indicated that reasonable distance of T. occidentalis with other plant species will impair the effects of allelochemical of T. occidentalis.

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Invasive Eichhornia crassipes Affects the Capacity of Submerged Macrophytes to Utilize Nutrients

Cited by 9 publications

References 44 publications

Negative correlations between native macrophyte diversity and water hyacinth abundance are stronger in its introduced than in its native range

Negative correlations between native macrophyte diversity and water hyacinth abundance are stronger in its introduced than in its native range

Outbreak of a new alien invasive plant Salvia reflexa in north‐east China

Defensive functions of volatile organic compounds and essential oils from northern white-cedar in China

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