Microsatellite DNA analysis of spatial and temporal population structuring of Phragmites australis along the Hudson River Estuary
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- 作者:Joseph Stabile ; Daniel Lipus ; Lorraine Maceda ; Michele Maltz…
- 刊名:Biological Invasions
- 出版年:2016
- 出版时间:September 2016
- 年:2016
- 卷:18
- 期:9
- 页码:2517-2529
- 全文大小:617 KB
- 刊物类别:Biomedical and Life Sciences
- 刊物主题:Life Sciences
Plant Sciences
Ecology
Hydrobiology
Zoology
Forestry - 出版者:Springer Netherlands
- ISSN:1573-1464
- 卷排序:18
文摘
Phragmites australis is a perennial grass that has invaded wetlands of the northeastern United States over the past century. The Hudson River Estuary and surrounding watersheds are no exception in that populations of P. australis have spread dramatically along its shores and tributaries in the past 40 years. Recent studies have shown that genetically variable populations of P. australis can spread by seed dispersal in addition to clonal mechanisms. It is important to characterize the genetic variation of Hudson River populations as part of a management strategy for this species to determine the mechanisms by which its spreads and colonizes new habitats, particularly those with frequent anthropogenic disturbances. The goals of this study were to quantify levels of genetic variation and structuring in Hudson River populations of P. australis using microsatellite DNA analysis. A total of 354 culms of P. australis were collected from nine locations ranging from Albany, New York to Staten Island, New York in the summers of 2004 (N = 174) and 2011 (N = 180). Microsatellite data from eight loci indicated that the Hudson River Estuary has some of the highest levels of genetic variation of all U. S. Atlantic Coast regions containing P. australis. Gene diversity (Hs) across all loci in the 2004 collection was 0.45 (±0.02) and that of the 2011 collection was 0.47 (±0.07). Patches within sample sites were rarely monoclonal and had multiple genetic phenotypes. Moran’s Identity tests indicated that individuals within a patch were closely related, whereas little genetic relatedness was evident among individuals from sample sites >1 km apart. Spatial structuring was also not evident in autospatial correlation and principle coordinate analyses. These findings suggest that genetic diversity is maintained within stands by sexual reproduction and that seeds are important in dispersal of P. australis across the Hudson River Estuary. Ample habitats are available for establishment of new Phragmites stands due to high levels of anthropogenic disturbance from populations living along the Estuary. Wildlife managers should focus on monitoring habitats that provide seedbed for Phragmites and promote land use practices that prevent soil disturbance and establishment of new stands.KeywordsPhragmites australisHudson River EstuaryGenetic structureSeed dispersalVegetative dispersalAnthropogenic disturbance