High phosphorus availability and low light intensity reduce the competitive ability of the invasive plant Chromolaena odorata in tropical coral islands

Huang, Luping; Liao, Mengcheng; Liao, Huixuan; Liu, Zhanfeng; Cai, Hongyue; Zhou, Wanmin; Xu, Zhanhui; Ouyang, Kangting; Yang, Wenyun; Jian, Shuguang

doi:10.1007/s10530-023-03186-1

Cited by 3 publications

(1 citation statement)

References 55 publications

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“…It requires less labor for land preparation and weeding (Goodall & Erasmus, 1996) with concomitant increase in soil fertility (Kassi et al, 2017). Invasive-native interaction studies in tropical coral islands revealed that invasive spread of C. odorata can be contained by reducing its competitive ability through sustenance of intact native diversity, high soil phosphorous content, and maintenance of shade or low light intensity (Huang et al, 2023).…”

Section: Unveiling the Mechanisms Of Invasionmentioning

confidence: 99%

Ecological insights and environmental threats of invasive alien plantChromolaena odorata: Prospects for sustainable management

Rai,

Singh

2024

Weed Biology and Management

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The Anthropocene witnessed the landscape spread of several invasive alien plants which can remarkably influence the ecosystem services and environmental sustainability. To this end, Chromolaena odorata (Asteraceae) is widely identified among top hundred pervasive invaders in view of its adverse influence on environment, agriculture, and wildlife. The adverse effects of C. odorata can further be exacerbated under the event of invasion interaction with other anthropogenic stressors such as climate change. Nevertheless, there exists dearth of pragmatic studies on invasion ecology, socio‐economic impacts, ecological economics, and sustainable management prospects of C. odorata. The present review discusses the invasion ecology, distribution, mechanisms, impacts, and management strategies of C. odorata invasion. The side‐effects and unsustainable use of traditional control measures (e.g., controlled fire and chemical herbicides) of C. odorata paves the way to biological control methods (e.g., gall fly). However, the control measures of C. odorata need to be assessed for their long‐term ecosystem level effects to mitigate the possible adverse environmental responses. The wise application of C. odorata biomass in marginal lands for soil fertility restoration, biosorption, biorefinery, bio‐medicine, and bioenergy in conjunction with ecological control measures can cover economic incentive to facilitate sustainable management of C. odorata in forestry/agroforestry systems. Nevertheless, the use of weed biomass as feedstock in biorefinery and ethno‐medicine may be inadequate in reducing its invasion. Future studies should explicitly elucidate the ecological mechanisms of C. odorata in concert with the quest for its field‐scale application in biorefinery to augment sustainable management.

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Section: Unveiling the Mechanisms Of Invasionmentioning

confidence: 99%

Ecological insights and environmental threats of invasive alien plantChromolaena odorata: Prospects for sustainable management

Rai,

Singh

2024

Weed Biology and Management

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Chromolaena odorata affects soil nitrogen transformations and competition in tropical coral islands by altering soil ammonia oxidizing microbes

Yuan,

Gao,

Huang

et al. 2024

Science of The Total Environment

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Nitrogen and phosphorus addition promote invasion success of invasive species via increased growth and nutrient accumulation under elevated CO2

Zhang,

Luo,

Zhang

et al. 2023

Tree Physiology

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In the context of the resource allocation hypothesis regarding the trade-off between growth and defence, compared with native species, invasive species generally allocate more energy to growth and less to defence. However, it remains unclear how global change and nutrient enrichment will influence competition between invasive species and co-occurring native species. Here, we tested whether: nitrogen (N) and phosphorus (P) addition under elevated CO2 cause invasive species (Mikania micrantha and Chromolaena odorata) to produce greater biomass, higher growth-related compounds, and lower defence-related compounds than native plants (Paederia scandens and Eupatorium chinense). We grew these native and invasive species with similar morphology with the addition of N and P under elevated CO2 in open-top chambers. The addition of N alone increased the relative growth rate (RGR) by 5.4% in invasive species, and its combination with P addition or elevated CO2 significantly increased the RGR of invasive species by 7.5% or 8.1%, respectively, and to a level higher than that of native species (by 14.4%, P < 0.01). Combined N + P addition under elevated CO2 decreased the amount of defence-related compounds in the leaf, including lipids (by 17.7%) and total structural carbohydrates (TSC, by 29.0%), whereas increased growth-related compounds in the leaf, including proteins (by 75.7%), minerals (by 9.6%), and total non-structural cabohydrates (TNC, by 8.5%). The increased concentrations of growth-related compounds were possibly associated with the increase in Rubisco content and mineral nutrition (magnesium, iron, and calcium), all of which were higher in invasive species than in native species. These results suggest that rising atmospheric CO2 concentration and N deposition combined with nutrient enrichment will increase the growth of invasive species more than that of native species. Our result also suggest that invasive species respond more readily to produce growth-related compounds under increased soil nutrient availability and elevated CO2.

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High phosphorus availability and low light intensity reduce the competitive ability of the invasive plant Chromolaena odorata in tropical coral islands

Cited by 3 publications

References 55 publications

Ecological insights and environmental threats of invasive alien plantChromolaena odorata: Prospects for sustainable management

Ecological insights and environmental threats of invasive alien plantChromolaena odorata: Prospects for sustainable management

Chromolaena odorata affects soil nitrogen transformations and competition in tropical coral islands by altering soil ammonia oxidizing microbes

Nitrogen and phosphorus addition promote invasion success of invasive species via increased growth and nutrient accumulation under elevated CO2

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