Salt tolerance underlies the cryptic invasion of North American salt marshes by an introduced haplotype of the common reed Phragmites australis (Poaceae)

Salt tolerance underlies the cryptic invasion of North American salt marshes by an introduced haplotype of the common reed Phragmites australis (Poaceae)

A distinct, non-native haplotype of the common reed Phragmites australis has become invasive in Atlantic coastal Spartina marshes. We compared the salt tolerance and other growth characteristics of the invasive M haplotype with 2 native haplotypes (F and AC) in greenhouse experiments. The M haplotyp...

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Bibliographic Details
Published in:Marine ecology. Progress series (Halstenbek) Vol. 298; pp. 1 - 8
Main Authors: VASQUEZ, Edward A, GLENN, Edward P, BROWN, J. Jed, GUNTENSPERGEN, Glenn R, NELSON, Stephen G
Format: Journal Article
Language:English
Published: Oldendorf Inter-Research 01-01-2005
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Fundamental and applied biological sciences. Psychology
Phragmites australis
Poaceae
Sea water ecosystems
Synecology
North America
America
ASW, USA
USA, East Coast
ANW, USA
Brackish water environment
Monocotyledones
Introduced species
Phragmites australis
Tolerance
Environmental factor
Invasion
Cryptic
Salinity
Marine environment
Salt marsh
Salt
Invasive species
Gramineae
Phragmites australis ,Salt marshes
Salinity tolerance,Invasive species
Angiospermae
Spermatophyta
Haplotype
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Summary:A distinct, non-native haplotype of the common reed Phragmites australis has become invasive in Atlantic coastal Spartina marshes. We compared the salt tolerance and other growth characteristics of the invasive M haplotype with 2 native haplotypes (F and AC) in greenhouse experiments. The M haplotype retained 50% of its growth potential up to 0.4 M NaCl, whereas the F and AC haplotypes did not grow above 0.1 M NaCl. The M haplotype produced more shoots per gram of rhizome tissue and had higher relative growth rates than the native haplotypes on both freshwater and saline water treatments. The M haplotype also differed from the native haplotypes in shoot water content and the biometrics of shoots and rhizomes. The results offer an explanation for how the M haplotype is able to spread in coastal salt marshes and support the conclusion of DNA analyses that the M haplotype is a distinct ecotype of P. australis.
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ISSN:0171-8630
1616-1599
DOI:10.3354/meps298001