Nitrogen Uptake and Use Efficiency of Invasive <i>Spartina alterniflora</i> and Native <i>Phragmites australis</i>: Effect of Nitrogen Supply

Qing, Hua; Cai, Ying; Xiao, Yan; Yao, Yihan; An, Shuqing

doi:10.1002/clen.201300867

Cited by 7 publications

(3 citation statements)

References 51 publications

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“…Similarly, to its competitors, knotweed increased the nitrogen concentration in aboveground biomass where more nutrients were available, but it did so to a lesser extent. This finding corroborates evidence from several previous studies that found invaders to possess superior resource-use efficiency (Funk and Vitousek 2007;Shen et al 2011;Osone et al 2014;Ens et al 2015;Qing et al 2015). The ability to maintain a relatively higher nitrogen efficiency when more nitrogen is available-which is equivalent to producing more biomass with the same total amount of nitrogen-may be explained by a higher activity of the enzyme nitrate reductase as found by Chmura et al (2016).…”

Section: Discussionsupporting

confidence: 90%

“…In competition studies, stable isotopes allow researchers to track the partitioning of resources among different individuals or species, and thus to assess the intensity and asymmetry of competition (Kahmen et al 2006). However, so far, stable isotopes have been rarely used to study resource competition between invasive and native plants (but see Littschwager et al 2010;Werner et al 2010;Qing et al 2015;Huangfu et al 2016).…”

Section: Introductionmentioning

confidence: 99%

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Invasive knotweed has greater nitrogen-use efficiency than native plants: evidence from a 15N pulse-chasing experiment

et al. 2019

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Habitats with fluctuating resource conditions pose specific challenges to plants, and they often favor a small subset of species that includes exotic invaders. These species must possess a superior ability to capitalize on resource pulses through faster resource uptake or greater resource-use efficiency. We addressed this question in an experiment with invasive knotweed, a noxious invader of temperate ecosystems that is known to benefit from nutrient fluctuations. We used stable isotopes to track the uptake and use efficiency of a nitrogen pulse in competition pairs between knotweed and five native competitors. We found that nitrogen pulses indeed promoted knotweed invasion and that this is explained by a superior efficiency in turning the taken-up extra nitrogen into biomass, rather than capturing an overproportional share of the nitrogen. Thus, temporary increases in nutrient availability might help knotweed to invade natural environments, such as river banks or nitrogen-polluted margins and wastelands, where nutrient fluctuations occur. Our experiment shows that resource-use efficiency can drive invasion under fluctuating resource conditions, and that stable isotopes help to understand these processes.

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Section: Discussionsupporting

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Invasive knotweed has greater nitrogen-use efficiency than native plants: evidence from a 15N pulse-chasing experiment

et al. 2019

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“…It is noteworthy that the order of N-uptake rates by four species were inconsistent with their order of total biomass. This lack of association between N-uptake rate and biomass implies that the two invasive species had higher N-use efficiency than the native species, as is common in other invasive plants [34,35]. Higher N-use efficiency rather than faster N-uptake rate appears to be a strategy that enables these invasive species to be more competitive than the natives.…”

Section: Discussionmentioning

confidence: 97%

Plasticity of Plant N Uptake in Two Native Species in Response to Invasive Species

Zhou

Gao

et al. 2019

Forests

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Survival competition caused by limiting nutrients is often strong between invasive and native plant species. The effects of plant invasion on nutrient uptake in plant growth remain largely unclear. Clarifying how invasive plants affect N uptake by natives will provide a better understanding on mechanisms responsible for plant invasion. A 15N-labeling experiment was conducted using two common invasive species (Alternanthera philoxeroides (Mart.) Griseb. and Wedelia trilobata (L.) Hitchc.) and their native congeners (A. sessilis (L.) DC. and W. chinensis (Osbeck.) Merr.) to examine their growth and uptake of NH4+, NO3−, and glycine when grown in monocultures and mixed cultures. All plants were grown in a greenhouse for 70 days for labelling and biomass measurements. The main factor affecting N uptake by the four species was the form of N, rather than species identity. In all of the species, the most N was taken up in the form of NH4+, followed by NO3− and glycine. The two invasive species grew faster, with stable N-uptake patterns despite more moderate uptake rates of N than the native species. Native species were strongly affected by the invasive species. The presence of invasive species caused the N-uptake rates of the natives to be reduced, with altered N-uptake patterns, but did not substantially alter their growth rates. Native species reduced their N-uptake rates but increased N-use efficiency through altering N-uptake patterns in the presence of invasive plants. Such a flexible N-uptake pattern could be an important survival strategy for native plants in competition with invaders.

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High nitrogen uptake and utilization contribute to the dominance of invasive Spartina alterniflora over native Phragmites australis

Zhang

Jinfeng

et al. 2021

Biol Fertil Soils

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Nitrogen Uptake and Use Efficiency of Invasive Spartina alterniflora and Native Phragmites australis: Effect of Nitrogen Supply

Cited by 7 publications

References 51 publications

Invasive knotweed has greater nitrogen-use efficiency than native plants: evidence from a 15N pulse-chasing experiment

Invasive knotweed has greater nitrogen-use efficiency than native plants: evidence from a 15N pulse-chasing experiment

Plasticity of Plant N Uptake in Two Native Species in Response to Invasive Species

High nitrogen uptake and utilization contribute to the dominance of invasive Spartina alterniflora over native Phragmites australis

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