Abstract
AbstractAimMany studies show that increase in ground‐level ozone (O3) has adverse effects on plant growth. Due to high phenotypic plasticity, invasive species is considered to be more adaptable to elevated O3 than native species. This idea is only tested by the very limited studies comparing invasive weeds with crops. However, whether it holds remains unclear when comparing invasive species with their co‐occurring native species in natural systems.LocationChina.MethodsWe performed an open‐top chamber experiment growing six congeneric pairs of invasive and native species with and without competition under ambient (approximately 43 ppb) and elevated O3 (approximately 89 ppb) concentrations to test whether the growth responses to elevated O3 concentrations differ between invasive and native species.ResultsOur results revealed that elevated O3 had a significant negative effect on both invasive and native species. In particular, elevated O3 reduced the aboveground biomass and damaged the leaves of invasive species significantly more than those of native species.Main conclusionsOur study indicates that elevated O3 concentration has a stronger adverse effect on invasive species than on native species. Therefore, increasing O3 pollution might suppress plant invasion, and thus invasive species might expand their distribution more easily to the area with lower O3 pollution in the future.
Highlights
Ground-level ozone (O3) is one of the most threatening components of global change that causes more damage to plants than any other air pollutant (Atkinson & Arey, 2003; IPCC, 2014; Krupa & Kickert, 1989)
Elevated O3 treatment reduced the aboveground biomass of invasive species (−33.2%) significantly more than that of native species (−17.6%) (Significant interaction of status × O3, Table 1; Figure 1)
We found there was no significant differ on the production of aboveground biomass between invasive and native species, invasive species reduced significantly more aboveground biomass than native species in response to elevated O3
Summary
Ground-level ozone (O3) is one of the most threatening components of global change that causes more damage to plants than any other air pollutant (Atkinson & Arey, 2003; IPCC, 2014; Krupa & Kickert, 1989). Ozone can enter into plant via the stomata and react with unsaturated biomolecules to form reactive oxygen species initially causing programmed cell death and visible injury (Vainonen & Kangasjärvi, 2015). Such visible foliar O3 injury is an unequivocal sign of phytotoxic O3 levels (Paoletti et al, 2019), and is the only indicator of adverse effects of O3 that can be used for routine field surveys (Sicard et al, 2016). Few studies have focused on studying the potential influence of O3 on other important ecological processes that occur frequently in non-management regions, such as plant invasion
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