Norway Maple
(Acer platanoides)
Biological Category
Plants
NY Legal Status
Regulated
Species Type
Tree
DESCRIPTION
Norway maple is a large deciduous tree that grows to 30 m with a broad crown. The leaves grow opposite of each other and consist of 5 sharply pointed lobes versus native sugar maple which has slightly more rounded tips of the leaves. The leaves are also usually darker green and larger than sugar maple, staying greener longer into the fall and leafing out earlier than native maples. The leaf stems exude a milky white sap when broken which is unlike native maples. Clustered flowers emerge in early spring and are light green to yellow. The fruits of Norway maple are a 2-chambered papery winged samara which are pinkish to yellow early in the season and can persist on the tree throughout the winter. The angle between the seed wings is close to 180 degrees and is flatter than sugar maple seeds.
Note: Research for these pages was generated from citations listed. References for specific statements available upon request.
Leaves: Large, dark green typically with 5-7 pointed lobes that stays green longer into fall and winter than native maples. Sap from the broken stem of a leaf is milky.
Seed: Fruit is a 2-seeded winged “helicopter” attached together at nearly a 180 degree angle. Resembles a coat hanger in shape.
Bark: Bark pattern is regular, deep furrows unlike sugar maple which is less patterned and irregular
Native to Europe and western Asia, Norway maple was introduced to North America in the mid- to late 1700s and continues to be planted as a street tree across the US. It has escaped and become invasive in many parts of the East, Midwest, and Pacific Northwest regions.
Norway maple grows best in forests with moist, deep, fertile soils. It is less successful in sites with dry or saturated, acidic, or low-nitrogen soils. It can successfully regenerate in a deeply-shaded forest understory, even in intact (relatively undisturbed) forest, and seems to have ecological requirements very similar to those of sugar maple. Soil disturbance promotes seed germination, and canopy gaps allow seedlings to quickly grow into mature trees. The main limits on abundance of Norway maple are the distance to a seed source and its slow growth in shaded understories. Roads are common corridors of dispersal.
Norway maple blooms in spring; its flowers are insect-pollinated and susceptible to late frost. The seeds mature in late summer and are wind-dispersed. Seeds have high germination rates compared to native trees, even under deep shade. Seedlings grow very slowly in low-light conditions but can persist at a small size for many years, forming a “seedling bank.” When a treefall gap or other disturbance increases light, seedlings can grow quickly, reaching the canopy in about half the time it would take native co-occurring trees.
Because generation times are long (30-40 years), Norway maple has spread relatively slowly so far. However, once established, Norway maple is a strong competitor in the forest understory, and can displace native shade-tolerant species such as sugar maple. Richness of understory plants is greatly reduced under Norway maple trees compared to native trees, replaced with dense Norway maple seedlings and saplings. Both saplings and mature trees negatively affect the growth of native tree saplings. Norway maple also increases nutrient availability and the rate of nutrient cycling in soils (especially on richer soils), which could possibly increase its competitive advantage and also favor some native trees over others. Overall, Norway maple appears to be a slow-moving but significant threat to the canopy and understory composition of mesic forests. Street or yard trees are only problematic because they produce seeds that allow the species to colonize forests.
Contact invasives@nynjtc.org with specific questions on chemical or biological control options.
Saplings and mature trees may be either cut or girdled, but they usually resprout from the stump. We recommend trying a type of girdling that has been used with success on tree-of heaven (Ailanthus altissima): In winter or early spring, partially girdle adult trees, by using a drawknife to remove approximately 12” of bark around the whole tree (but not the cambium underneath). This will kill the trees slowly, resulting in fewer stump sprouts. Decrowning (removing all branches from) a mature tree may also have this effect. Kill any sprouts at the end of the growing season, and annually thereafter.
For small trees, try the “cut and cover” method to prevent stump sprouts: cut several inches above ground level and cover the stump with something that completely blocks light for 1-2 years (e.g., a coffee can, or a heavy-duty black plastic bag zip-tied to the base of the stump).
Light gaps left by cut or girdled canopy trees may result in rapid growth of Norway maple seedlings or colonization by other invasive species. Monitor these gaps carefully and remove invasive species and/or plant native species to compete.
Once seed sources are removed, seedlings may either be monitored every few years to remove saplings, or hand-pulled annually until the seed bank is depleted. Soil disturbance from hand-pulling results in an increase in new Norway maple seedling density the following year, but the seed bank is short-lived.
Contact invasives@nynjtc.org with specific questions on chemical or biological control options.
Management Goals: Prevent or limit seed production by targeting mature trees. Prevent saplings from growing to maturity. Avoid soil disturbance, which promotes seed germination.
Munger, G.T. 2003. Acer platanoides. In: Fire Effects Information System. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory.
Bertin, R.I., M.E. Manner, B.F. Larrow, T.W. Cantwell, and E.M. Berstene. 2005. Norway maple (Acer platanoides) and other non-native trees in urban woodlands of central Massachusetts. Journal of the Torrey Botanical Society 132(2):225-235.
Martin, P.H., and P.L. Marks. 2006. Intact forests provide only weak resistance to a shade-tolerant invasive Norway maple (Acer platanoides L.). Journal of Ecology 94:1070-1079.
Wangen, S.R., and C.R. Webster. 2006. Potential for multiple lag phases during biotic invasions: Reconstructing an invasion of the exotic tree Acer platanoides. Journal of Applied Ecology 43:258-268.
Martin, P.H. 1999. Norway maple (Acer platanoides) invasion of a natural forest stand: understory consequence and regeneration pattern. Biological Invasions 1:215-222.
Galbraith-Kent, S., and S.N. Handel. 2008. Invasive Acer platanoides inhibits native sapling growth in forest understory communities. Journal of Ecology 9:293-302.
Gómez-Aparicio, L., and C.D. Canham. 2008. Neighborhood models of the effects of invasive tree species on ecosystem processes. Ecological Monographs 78:69-86.
Webster, C.R., K. Nelson, and S.R. Wangen. 2005. Stand dynamics of an insular population of an invasive tree, Acer platanoides. Forest Ecology and Management 208:85-99.
Webb, S.L., T.H. Pendergast IV, and M.E. Dwyer. 2001. Response of native and exotic maple seedling banks to removal of the exotic, invasive Norway maple (Acer platanoides). The Journal of the Torrey Botanical Society 128(2):141-149.
Baran, J. 2010. Field study of technique for combining low-cost, herbicide-free control of woody invasives, in particular Ailanthus altissima, with production of edible mushrooms. Final grant report to Sustainable Agriculture Research & Education (SARE), US Department of Agriculture.
Bushell, T. (Westchester Land Trust)