Nutrient enrichment enhances hidden differences in phenotype to drive a cryptic plant invasion.

Many mechanisms of invasive species success have been elucidated, but those driving cryptic invasions of non-native genotypes remain least understood. In one of the most successful cryptic plant invasions in North America, we investigate the mechanisms underlying the displacement of native Phragmites australis by its Eurasian counterpart. Since invasive Phragmites ’ populations have been especially prolifi c along eutrophic shorelines, we conducted a two-year fi eld experiment involving native and invasive genotypes that manipulated nutrient level and competitor identity (inter- and intra-genotypic competition) to assess their relative importance in driving the loss of native Phragmites . Inter-genotypic competition suppressed aboveground biomass of both native and invasive plants regardless of nutrient treatment ( ∼ 27%), while nutrient addition disproportionately enhanced the aboveground biomass (by 67%) and lateral expansion (by 3 farther) of invasive Phragmites . Excavation of experimental plots indicated that nutrient addition generates these diff erences in aboveground growth by diff erentially aff ecting rhizome production in invasive vs native plants; invasive rhizome biomass and rhizome length increased by 595% and 32% with nutrient addition, respectively, while natives increased by only 278% and 15%. Regardless of nutrient level, native rhizomes produced twice as many roots compared to invasives, which fi eld surveys revealed are heavily infected with mycorrhizal symbionts . Th ese results suggest that native Phragmites competes well under nutrient-limited conditions because its rhizomes are laden with nutrient-harvesting roots and mycorrhizae. Invasive Phragmites ’ vigorous aboveground response to nutrients and scarcity of lateral roots , in contrast, may refl ect its historic distribution in eutrophic Eurasian wetlands and correspond to its prevalence in New England marshes characterized by elevated nutrient availability and relaxed nutrient competition. Th ese fi ndings reveal that discrete diff erences in phenotype can interact with anthropogenic modifi cation of environmental conditions to help explain the success of cryptic invaders.

• Publication year

  2010

• Venue

  Oikos

• Publication date

  2010-11-01

• Fields of study

  Biology, Environmental Science

• Identifiers
  DOI 10.1111/J.1600-0706.2010.18647.X
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar

• No claims are published for this paper.

• No concepts are published for this paper.

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