2010
DOI: 10.1007/s10530-010-9805-9
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Similar biotic factors affect early establishment and abundance of an invasive plant species across spatial scales

Abstract: Research in community invasibiliy has focused on biotic and abiotic factors that influence the establishment of invasive species and whether such factors vary with spatial scale. Here, we investigate the role of both biotic and abiotic factors associated with the initial establishment of Lespedeza cuneata (L. cuneata) and its abundance at three spatial scales: neighborhoods (9-m 2 plots), communities (50-m 2 transect) and old fields (5,000-70,000 m 2 ). We asked:(1) Do resource availability and community struc… Show more

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Cited by 16 publications
(18 citation statements)
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“…We added fertilizer as dry, slow-release pellets (nitrogen was added in the form of urea, N 2 H 4 CO, and phosphorus was added as triple super phosphate, P 2 O 5 ) which released nitrogen and phosphorus into the soil during rainfall events. These levels of enrichment have been shown to double nutrient availability in similar systems (Goldberg andMiller 1990, Sanders et al 2007) and are comparable to several local oldfield studies manipulating nutrients to examine effects on plant community dynamics (Sanders et al 2007, Blue et al 2011, Souza et al 2011a, as well as other studies examining nutrient enrichment effects on floral traits and pollinators (e.g., Campbell and Halama 1993, Asikainen and Mutikainen 2005, Munoz et al 2005, Burkle and Irwin 2009a, Burkle and Irwin 2010. We crossed Solidago altissima genotype identity and genotypic diversity with these nutrient treatments such that there were two monoculture plots of each v www.esajournals.org genotype for each nutrient treatment and three genotype mixture plots for each nutrient treatment.…”
Section: Study Site and Experimental Designsupporting
confidence: 54%
“…We added fertilizer as dry, slow-release pellets (nitrogen was added in the form of urea, N 2 H 4 CO, and phosphorus was added as triple super phosphate, P 2 O 5 ) which released nitrogen and phosphorus into the soil during rainfall events. These levels of enrichment have been shown to double nutrient availability in similar systems (Goldberg andMiller 1990, Sanders et al 2007) and are comparable to several local oldfield studies manipulating nutrients to examine effects on plant community dynamics (Sanders et al 2007, Blue et al 2011, Souza et al 2011a, as well as other studies examining nutrient enrichment effects on floral traits and pollinators (e.g., Campbell and Halama 1993, Asikainen and Mutikainen 2005, Munoz et al 2005, Burkle and Irwin 2009a, Burkle and Irwin 2010. We crossed Solidago altissima genotype identity and genotypic diversity with these nutrient treatments such that there were two monoculture plots of each v www.esajournals.org genotype for each nutrient treatment and three genotype mixture plots for each nutrient treatment.…”
Section: Study Site and Experimental Designsupporting
confidence: 54%
“… Lespedeza (L.) Cuneata is a long-lived perennial legume that has become a pervasive problem in old fields and prairies throughout parts of the United States [1][2][3][4][5][6]. For example, areas invaded by L. cuneate have lower plant and animal diversity than areas dominated by native grasses and forbs [5,7].…”
Section: Introductionmentioning
confidence: 99%
“…For example, the application of ammonium nitrate to provide nitrogen (N) has been shown to lower the competitive advantage of L. Cuneata by significantly reducing cover, stem density, and biomass [2,12]. Nitrogen applications have also been shown to have a detrimental effect on legume nodule formation and subsequent nitrogen uptake, as well as compensate for the negative effects of the allelopathic chemicals released by the plant [7,12].…”
Section: Introductionmentioning
confidence: 99%
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