Description

Taxonomy

Kingdom	Phylum	Class	Order	Family	Genus
Plantae	Magnoliophyta	Magnoliopsida	Polygonales	Polygonaceae	Polygonum

Synonyms

Fallopia japonica; Pleuropterus cuspidatus; Pleuropterus zuccarinii; Polygonum zuccarinii; Reynoutria japonica

Invasion History

Chesapeake Bay Status

First Record	Population	Range	Introduction	Residency	Source Region	Native Region	Vectors
1916	Established	Expanding	Introduced	Boundary Resident	North America	East Asia	Ornamental(Garden Escape), Natural Dispersal(Natural Dispersal)

History of Spread

Polygonum cuspidatum (Japanese Knotweed) is native to East Asia. It was widely planted as an ornamental in the late 1800s, and by 1894 was established around Schenectady NY, Atlantic Highlands NJ, and Philadelphia PA. This plant proved to be a rapid spreader and extremely difficult to eradicate (Patterson 1976). It is now known from 40 states, including AK, and is listed as an invasive weed in many states and Europe (Natural Resources Conservation Service 2001; Washington Department of Ecology 2001).

While Polygonum cuspidatum (Japanese Knotweed) is often regarded as an upland plant, it is often especially abundant and invasive in riparian zones (Washington Department of Ecology 2001). It has been reported from tidal freshwater marshes of the Merrimack River MA (Caldwell and Crow 1992).

In the Chesapeake Bay watershed, P. cuspidatum was first collected in from culture from the 'Botanic Garden' in 1875, and first reported growing in the wild at Glen Echo Junction MD in 1916 (U.S. National Herbarium collections). In 1946, it was still listed as a 'waif' in the Baltimore-Washington area (Hermann 1946), but is now widespread in MD and VA (Brown and Brown 1984; Harvill et al. 1992). There are no published records of this plant in tidal wetlands in the Chesapeake Bay. However, a large colony of P. cuspidatum occurs in the intertidal zone, at Havre de Grace, adjacent to a boardwalk along the uppermost shores of the Bay. Numerous plants were found along the edge of the upper intertidal along the Susquehanna River, in Susquehanna State Park, along the nontidal and upper tidal Gunpowder River, an upper Bay tributary in 1998-2002 (Fofonoff, personal observations). Dense growths of P. cuspidatum were also found in the upper edges of a brackish tidal marsh south of Chesapeake Beach MD. The degree of immersion of this latter population is unknown (Fofonoff, personal observations).

In Europe, a biocontrol agent, a psyllid insect (plant louse), Aphalara itadori, has been researched in the United Kingdom, and found to be highly specific in its feeding. Releases are beginning in 2011 in England and may begin in the northeast US and Canada in 2012 (Carpenter 2011). References- Brown and Brown 1984; Caldwell and Crow 1992; Carpenter 2011; Fofonoff, personal observations; Harvill et al. 1992; Hermann 1946; Patterson 1976; Natural Resources Conservation Service 2001; Washington Department of Ecology 2001

Invasion Comments

Ecology

Environmental Tolerances

	For Survival		For Reproduction
	Minimum	Maximum	Minimum	Maximum
Temperature (ºC)
Salinity (‰)	0.0		0.0
Oxygen
pH
	Salinity Range	fresh-oligo

Age and Growth

	Male	Female
Minimum Adult Size (mm)
Typical Adult Size (mm)
Maximum Adult Size (mm)
Maximum Longevity (yrs)
Typical Longevity (yrs

Reproduction

	Start	Peak	End
Reproductive Season
Typical Number of Young Per Reproductive Event
Sexuality Mode(s)
Mode(s) of Asexual Reproduction
Fertilization Type(s)
More than One Reproduction Event per Year
Reproductive Startegy
Egg/Seed Form

Impacts

Economic Impacts in Chesapeake Bay

Polygonum cuspidatum (Japanese Knotweed) produces dense, monospecific thickets through clonal reproduction. These are usually regarded as esthetically unattractive, especially when occurring in parks and private property, and they are extremely difficult to eradicate (Virginia Department of Conservation and Recreation 1999; Washington Department of Ecology 2001).

At present, P. cuspidatum, though widespread in the watershed, seems to have very few colonies in tidal wetlands in Chesapeake Bay and has no reported economic impacts on the Bay proper.

References- Virginia Department of Conservation and Recreation 1999; Washington Department of Ecology 2001

Economic Impacts Outside of Chesapeake Bay

Polygonum cuspidatum (Japanese Knotweed) produces dense, monospecific thickets through clonal reproduction. These are extremely difficult to eradicate (Virginia Department of Conservation and Recreation 1999; Washington Department of Ecology 2001). This plant is widely regarded as a serious invader of natural areas, particularly riparian zones, in North America and Europe.

References- Virginia Department of Conservation and Recreation 1999; Washington Department of Ecology 2001

Ecological Impacts on Chesapeake Native Species

Polygonum cuspidatum (Japanese Knotweed) is regarded as an aggressive competitor, which produces dense, monospecific thickets through clonal reproduction (Washington Department of Ecology 2001). This plant is on state lists of invasive plants threatening natural habitats in DE, MD, and VA (Cooley 1993; Delaware Natural Heritage Program 1999; Virginia Department of Conservation and Recreation 2001), as well as many other regional and state lists. At present, P. cuspidatum seems to have very few colonies in tidal werlands in Chesapeake Bay, so that its impacts on native biota would be highly localized (Fofonoff, personal observation).

References- Cooley 1993; Delaware Natural Heritage Program 1999; Virginia Department of Conservation and Recreation 2001; Washington Department of Ecology 2001

Ecological Impacts on Other Chesapeake Non-Native Species

Polygonum cuspidatum (Japanese Knotweed) is regarded as an aggressive competitor, which produces dense, monospecific thickets through clonal reproduction (Washington Department of Ecology 2001). At present, P. cuspidatum seems to have very few colonies in tidal werlands in Chesapeake Bay, so that its impacts on exotic biota would be highly localized (Fofonoff, personal observation).

References- Washington Department of Ecology 2001

References

Atkinson, Robert B.; Bodkin, Norlyn L.; Perry, James E. (1990) New county records collected in tidal wetlands of four coastal plain counties along the James River, Virginia, Castanea 55: 56-64

Brown, Melvin L.; Brown, Russell G. (1984) Herbaceous Plants of Maryland, , College Park. Pp.

Caldwell, Fredericka Ann; Crow, Garrett E. (1992) A floristic and vegetation analysis of a freshwater tidal marsh on the Merrimack River, West Newbury, Massachusetts., Rhodora 94: 63-97

Carpenter, Jennifer (2011) Loosing the louse on Europe’s largest invasive pest, Science 332: 781

Cooley, Gene (1993) Invasive exotic plants that threaten native species and natural habitats in Maryland., , Annapolis MD. Pp.

1998 Non-native plant species in Delaware. http://www.dnrec.statede.us/iw/weeds.htm

Fernald, Merritt L. (1950) Gray's Manual of Botany, In: (Eds.) . , New York. Pp.

Gleason, Henry A. (1963) The new Britton and Brown illustrated flora of the northeastern United States and adjacent Canada, In: (Eds.) . , New York. Pp.

Gleason, Henry A.; Cronquist, Arthur (1991) Manual of vascular plants of northeastern United States and adjacent Canada, In: (Eds.) . , Bronx, New York. Pp.

Harvill, A. M.; Bradley, Ted R.; Stevens, Charles E.; Wieboldt, Thomas F.; Ware, Donna M. E.; Ogle, Douglas W.; Ramsey, Gwynn W.; Fleming, Gary P. (1992) Atlas of the Virginia Flora, , Burkeville, VA. Pp.

Hermann, Frederick J. (1946) A checklist of plants in the Washington-Baltimore area., , Washington, D.C.. Pp.

1997-2024 USDA PLANTS Database.. Onine databse

Patterson, David T. (1976) The history and distribution of five exotic weeds in North Carolina, Castanea 41: 177-180

Robinson, Benjamin Lincoln; Fernald, Merrit L. (1908) Gray's New Manual of Botany., , New York. Pp.

Tatnall, Robert R. (1946) Flora of Delaware and the Eastern Shore, , Wilmington. Pp.

1999 Invasive Alien Plant Species of Virginia. http://www.state.va.us/~dcr/dnh/invlist.htm

2024 Fanwort (Cabomba caroliniana).