Abiotic constraints on the competitive ability of exotic and native grasses in a Pacific Northwest prairie

Pfeifer‐Meister, Laurel; Cole, Esther M.; Roy, Brad A.; Bridgham, Scott D.

doi:10.1007/s00442-007-0909-6

Cited by 33 publications

(21 citation statements)

References 24 publications

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“…Non-native plant species have been found to grow more rapidly than native plants and therefore have a high demand for soil N (Ehrenfeld 2003)leading to increased N uptake in high N environments Pfeifer-Meister et al 2008). Non-native species also have been shown to have high resourceuse efficiency, which could explain why they tolerate competition with native species in N-poor environments (Funk and Vitousek 2007;Johnson et al 2003;Pfeifer-Meister et al 2008).…”

Section: Introductionmentioning

confidence: 99%

The roles of biotic resistance and nitrogen deposition in regulating non-native understory plant diversity

Jones

Chapman

2011

Plant Soil

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Understanding the mechanisms that allow for plant invasions is important for both ecologists and land managers, due to both the environmental and economic impacts of native biodiversity losses. We conducted an observational field study in 2008 to examine the relationship between native and nonnative forest understory plant species and to investigate the influence of soil nitrogen (N) on plant community richness and diversity. In 2009, we conducted a companion fertilization experiment to investigate how various forms of N deposition (inorganic and organic) influenced native and non-native species richness and diversity. We found that native species richness and diversity were negatively correlated with 1) non-native species richness and diversity and 2) higher total soil inorganic N. In the deposition experiment, adding organic N fertilizers decreased native richness and diversity compared to inorganic N fertilizers. Together, these results indicate that increasing soil N can be detrimental to native species; however, native species richness and diversity may counteract the N-stimulation of non-native species. Furthermore, the negative effects of organic N deposition on native plants may be just as strong, if not stronger, than the effects of inorganic N deposition.

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Section: Introductionmentioning

confidence: 99%

The roles of biotic resistance and nitrogen deposition in regulating non-native understory plant diversity

Jones

Chapman

2011

Plant Soil

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“…Results from the field experiment show that when competition is removed, B. sylvaticum size increases, and it spreads out to fill available space. A recent study of several other grasses (Pfeifer-Meister et al 2008) documented a similar response to reductions in surrounding competition. Our greenhouse results indicate that competition with other species regulates the biomass of B. sylvaticum in the sun whereas competition with itself is more important in the shade.…”

Section: Prescriptionmentioning

confidence: 77%

“…where Y ij is the mean of B. sylvaticum grown with another species and Y i is the mean biomass of B. sylvaticum in monoculture for that treatment (Harper 1977;Wetzel and van der Valk 1998;Pfeifer-Meister et al 2008). In this analysis, a value of one is always obtained for the monoculture.…”

Section: Greenhouse Experimentsmentioning

confidence: 99%

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Context-dependent pattern and process: the distribution and competitive dynamics of an invasive grass, Brachypodium sylvaticum

et al. 2009

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Brachypodium sylvaticum, or false brome, a recent invader of North America, has spread rapidly following establishment in Oregon in 1939 and is now colonizing at least five US states. To understand how ecological processes and environmental context interact to facilitate invasion, we combined a GIS analysis of spatial patterns of invasion with a greenhouse competition experiment under two light and two nutrient levels, and a field competition-removal experiment. Brachypodium sylvaticum was concentrated along human-use corridors and in forests, where our experiments indicate it is a better competitor than co-occurring grasses. Forested areas near trails require the greatest focus for detection and control because the species' dual propensities to establish and thrive in these locations may make them key source areas for further invasion. Our methodology demonstrates how understanding both the patterns and processes of invasion enables the prescription of context-specific remedial actions.

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“…One of the most consistent findings of tests of this hypothesis has been that an increase in the availability of N can promote the spread of introduced species of plants in terrestrial habitats (Pfeifer-Meister et al 2008;Rao and Allen 2010;Dukes et al 2011;Li et al 2011;Mozdzer and Zieman 2010;Mozdzer and Megonigal 2012). This is of particular ecological interest because anthropogenic increases in N availability through aerial deposition and agricultural application of fertilizers are a major component of global change (Bobbink et al 2010;Henrys et al 2011;McClean et al 2011). Together, this previous work suggests that it would be useful and timely to test whether greater ability to increase performance in response to increase in N availability is associated with greater invasiveness in clonal plant species.…”

Section: Introductionmentioning

confidence: 93%

Responses to simulated nitrogen deposition in invasive and native or non-invasive clonal plants in China

Lei

Alpert³

et al. 2014

Plant Ecol

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Previous studies suggest that a disproportionately high number of invasive plant species are clonal, and that an increase in N availability often promotes the spread of introduced plants. We tested the hypothesis that greater ability to increase performance in response to the increase in N availability is associated with greater invasiveness in clonal plant species on a regional basis in China, where the potentials for new introductions and for N deposition are high. We compared growth, allocation of mass, morphology, and N use efficiency in six pairs of closely related, widespread species of clonal plants with and without N addition designed to simulate future N deposition of 15 g N m -2 year -1 . Within each pair, one species was introduced and invasive in China, and the other was native or in one case introduced but not invasive. Added N increased the final dry mass of species by 10-120 % and the final number of ramets by up to 300 %. However, responses to N did not differ consistently (P [ 0.05) between invasive and native or non-invasive species; increase in total mass with added N ranged from being 6 times greater in the invasive species to 3 times greater in the native species in a pair. Results suggest that increased N availability due to deposition in China will favor the spread of some but not all introduced, clonal plant species in China.

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Abiotic constraints on the competitive ability of exotic and native grasses in a Pacific Northwest prairie

Cited by 33 publications

References 24 publications

The roles of biotic resistance and nitrogen deposition in regulating non-native understory plant diversity

The roles of biotic resistance and nitrogen deposition in regulating non-native understory plant diversity

Context-dependent pattern and process: the distribution and competitive dynamics of an invasive grass, Brachypodium sylvaticum

Responses to simulated nitrogen deposition in invasive and native or non-invasive clonal plants in China

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