You are here

Chinese Tallowtree

Publication Number: P3189
View as PDF: P3189.pdf
Description in text.

Chinese tallowtree [Triadica sebifera (L.) Small] [Syn. Sapium sebiferum (L.) Roxb.; Stillingia sebifera Michx.] is a deciduous to evergreen tree native to China, Japan, and Korea. It was introduced to the United States in the mid- to late 1700s as a seed oil crop. Elliott (1824) reports it naturalized along the coast of South Carolina and Georgia fewer than 100 years after its introduction. It escaped from cultivation in at least nine southern states. This invasive plant tolerates saline to freshwater flooding, shade to full sun, acidic to alkaline soils, and wet to dry soils. It establishes dense, solid stands that crowd out native plant species. Characterized by rapid growth and prolific seed production, it is an extremely competitive invasive plant.

Tallowtree is commonly grown in the United States as an ornamental because of its yellow flowers, red fall foliage, and unusual white fruit, which gave it the name “popcorn tree.” However, Chinese tallowtree is a noxious weed in several states, including Mississippi; it is not, however, considered a federal noxious weed. Once introduced into a landscape and mature enough to produce seeds, it quickly spreads into surrounding landscapes. If allowed to perpetuate, control is difficult and expensive.

Description

Vegetative Growth

Chinese tallowtree generally grows between 30 and 40 feet tall, but it can reach over 50 feet. In the southeastern United States, it is deciduous. Leaves are simple, alternate, and smooth (Figure 1). The foliage is bright green in summer but often turns fiery red in the fall.

Flowering

Chinese tallowtree is monoecious, with drooping, yellow tassels of insect-pollinated flowers in the spring (Figure 2) followed by white fruit in the fall (Figure 3). The white fruit can persist throughout the winter and is thought to be poisonous. Seed production can be heavy, averaging around 100,000 seeds per tree.

Dispersal

Despite being poisonous, fruit is spread by birds and other wildlife. Water also disseminates fruit, as evidenced by seedlings germinating on floodplains. Chinese tallowtree is still cultivated throughout the South, and human dispersal can facilitate invasions in and around residential areas.

Habitat

Chinese tallowtree is an early successional species and often emerges to dominate forested areas and right-of-way clearings. It reduces the number and variety of native species in a location, altering the ecosystem’s structure and function. In southern Texas, herbaceous coastal prairies were transformed into closed-canopy tallowtree forests within 10 years. Although they can be damaged by early hard freezes, Chinese tallowtrees tolerate a wide range of environmental conditions.

Distribution

Chinese tallowtree has spread rapidly in the United States. It is widely planted in the southern United States as an ornamental and as a pollen crop for honey production. The full extent of its cold-hardiness is not known, but it seems to be progressing northward.

Control Methods

Chemical

See Table 1 for recommended chemical treatments. These products can be applied in a variety of methods that include foliar, frill, basal bark, cut stump, and soil applications. Frill (also known as hack-and-squirt) requires a hatchet, machete, or ax to create an opening in the bark every 2 inches around the trunk; the herbicide is applied in these openings. Basal bark applications are made by spraying the lower 18–24 inches of the entire plant trunk with a bark-penetrating adjuvant. These treatments are most effective on trunks fewer than 4 inches in diameter and when treated just before bud break. Cut stump applications are made after the tree has been felled; the woody tissue just inside the bark of the remaining stump is treated to prevent resprouting. All foliar and basal bark applications also require a nonionic surfactant at 32–64 ounces per 100 gallons of spray solution. Imazapyr and hexazinone are absorbed by tree roots, so applications made within two times the dripline of desirable trees may cause injury or death. When spraying Chinese tallowtrees near water, use herbicide formulations and adjuvants that are labeled for aquatic applications.

Mechanical

Hand removal may be possible for small infestations, although tallowtree stems break easily. Seedlings can be pulled in wet soils if roots are not very deep.

Cultural

Since Chinese tallowtrees tolerate a wide range of environmental conditions and soil types, cultural control is not practical. However, selecting alternative landscape ornamentals will help prevent further infestations.

Table 1. Chemical control for Chinese tallowtree.

Herbicide

Formulation

Method

Rate

Fosamine

4 lb/gallon

Foliar

192 to 768 oz/A or 30% solution

Glyphosate

3 lb ae/gallon

Foliar

1% solution

Cut stump

Undiluted

Hexazinone

2 lb/gallon

Soil

256 to 512 oz/A

Imazapyr

2 lb ae/gallon

Foliar or soil

32 to 96 oz/A or 2%

Frill or Cut stump

64 oz+32 oz water

Imazapyr + Metsulfuron

72.7%

Foliar

25 oz/A

Triclopyr

4 lb ae/gallon

Foliar

2% solution

Basal

20% solution+bark penetrator

Frill

20% solution

Cut stump

undiluted

References

Chinese Tallow Task Force. 2005. Chinese Tallow Management Plan for Florida, Sept. 2005. Florida Exotic Pest Plant Council, Fort Lauderdale, FL 33307.

Elliott, S. 1824. A Sketch of the Botany of South Carolina and Georgia in Two Volumes. Volume II. J. R. Schenck, Charleston, SC.

USDA, NRCS. 2007. The PLANTS Database (http://plants.usda.gov, 5 September 2007). National Plant Data Center, Baton Rouge, LA 70874-4490 USA.


Publication 3189 (POD-02-18)
 
By John D. Byrd Jr., PhD, Extension/Research Professor, Plant and Soil Sciences; Victor Maddox, PhD, Senior Research Associate, Plant and Soil Sciences; and Randy Westbrooks, PhD, former Invasive Species Specialist, U.S. Geological Survey.
 
Print Friendly, PDF & Email

The Mississippi State University Extension Service is working to ensure all web content is accessible to all users. If you need assistance accessing any of our content, please email the webteam or call 662-325-2262.

Authors

Portrait of Dr. John D. Byrd, Jr.
Extension/Research Professor
Weed Scientist/Weed Control - Agronomic and Horticultural Crops and noncropland

Your Extension Experts

Portrait of Dr. Jason Bond
Extension/Research Professor
Portrait of Dr. John D. Byrd, Jr.
Extension/Research Professor