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Florida Trees: Pinus elliottii: Slash Pine1 by Edward F. Gilman and Dennis G. Watson2 UF/IFAS reprint

Pinus elliottii: Slash Pine1

Edward F. Gilman and Dennis G. Watson2


The species elliottii is a large, stately, heavily-branched, long-needled conifer has a rapid growth rate and is capable of reaching 100 feet in height with a three to four-foot-diameter trunk. The six-inch-long cones appear among the dark green, eight-inch-long needles, and are favored by wildlife. Squirrels are particularly fond of the seeds, as they chew open the cones and litter your sidewalk or driveway with debris. The grey-brown bark is deeply furrowed and scaly.

General Information

Scientific name: Pinus elliottii
Pronunciation: PIE-nus ell-ee-OTT-ee-eye
Common name(s): Slash Pine
Family: Pinaceae
USDA hardiness zones: 7A through 11 (Fig. 2)
Origin: native to North America
Invasive potential: weedy native
Uses: shade; screen; reclamation; highway median
Availability: not native to North America
Figure 2. Range


Height: 75 to 100 feet
Spread: 35 to 50 feet
Crown uniformity: irregular
Crown shape: pyramidal, oval
Crown density: open
Growth rate: fast
Texture: fine


Leaf arrangement: alternate (Fig. 3)
Leaf type: simple
Leaf margin: entire
Leaf shape: needle-like (filiform)
Leaf venation: parallel
Leaf type and persistence: evergreen, needled evergreen, fragrant
Leaf blade length: 4 to 8 inches, 8 to 12 inches
Leaf color: green
Fall color: no color change
Fall characteristic: not showy


Flower color: yellow
Flower characteristics: not showy


Fruit shape: elongated, oval, cone
Fruit length: 1 to 3 inches, 3 to 6 inches
Fruit covering: dry or hard
Fruit color: brown
Fruit characteristics: attracts squirrels/mammals; showy; fruit/leaves a litter problem

Trunk and Branches

Trunk/bark/branches: branches don't droop; not showy; typically one trunk; thorns
Pruning requirement: little required
Breakage: susceptible to breakage
Current year twig color: brown
Current year twig thickness: thick
Wood specific gravity: 0.59


Light requirement: full sun, partial sun or partial shade
Soil tolerances: clay; sand; loam; acidic; slightly alkaline; occasionally wet; well-drained
Drought tolerance: high
Aerosol salt tolerance: high


Roots: can form large surface roots
Winter interest: no
Outstanding tree: no
Ozone sensitivity: unknown
Verticillium wilt susceptibility: resistant
Pest resistance: sensitive to pests/diseases
Figure 3. Foliage

Figure 4. Fruit

Use and Management

Slash Pine is self-pruning of its lower branches, is somewhat pyramidal when young and forms an open, rounded canopy creating a light, dappled shade beneath. This allows just enough sun to filter through for maintenance of a lawn beneath this tall, evergreen tree or for underplantings of dogwoods, azaleas, camellias and other plants which thrive in this high, shifting shade. Aggressive root competition takes place beneath Pines so the shrubs and lawn beneath and around the canopy often require more frequent irrigation, particularly during the dry season. Pines have some deep roots except in poorly-drained soil where all roots are shallow. The tap root is prominent in well drained soil and can make them difficult to transplant from the wild.

Slash Pine grows well on a variety of acidic soils in full sun or partial shade. It does poorly in basic soil (high pH) and so is not recommended for soils with high pH, or where irrigation water has a high pH. Once established, it is more tolerant of wet sites than most other Pines and is moderately salt-tolerant. It is not highly drought-tolerant but more so than most other Pines. The horizontal branches break easily in ice storms. Trunks which break in hurricanes break several feet up from the ground. Since shaded lower branches die and drop as the tree grows taller be careful not to plant them too close to high traffic areas where branches could fall on people or vehicles, unless there is a regular maintenance plan to remove them. Open-grown trees keep more lower branches, probably due to greater sun exposure.

This native plant is becoming more popular as a landscape plant and is often planted in groups to create a natural-like setting. It is also used as a screen although it is quite unsuited for this purpose because lower branches are not retained in the tree and it grows with an open form. Needles seem to fall from the tree all during the year creating slippery walks. Needles will need to be regularly raked from the lawn in refined landscapes.

Probably the most serious problem of Pines in areas with high pH irrigation water is Pine chlorosis. Pines gradually turn yellow and begin dying soon after construction activities have begun, or when high pH irrigation water is applied regularly to the root zone. Symptoms appear as micronutrient deficiencies (iron and manganese). Landscape managers have applied fertilizers to the root zone and foliage and, more recently, directly into the trunk through injection tubes. These are probably temporary solutions to a problem which is caused by a complex of activities, including root injury and removal during construction, over-fertilization, and application of high pH irrigation water. The problem is probably best prevented by eliminating turf from beneath the canopy and withholding high pH irrigation from the root zone. The root zone on trees extends to about three times the dripline.

Pine is the state tree of Arkansas, North Carolina, and Alabama. Pinus elliottii var. densa , the famous "Dade County Pine" of hardwood fame, extends from the Florida Keys up into central Florida. Development continues to remove these but nurseries are growing it to be replanted in the landscape in USDA hardiness zones 9, 10, and 11. It grows slower than the species, reaching about 40 feet tall with a rounded crown in 30-years. It could make a wonderful street tree, if set back from the roadway.

Propagation is by seed.


Bark beetles and wood borers can be a serious problem on trees impacted by construction. These include the IPS beetle, the turpentine beetle and the southern Pine beetle. Tip moth damages trees in parts of its range.

Sawfly larvae are variously colored but generally feed in groups on the needles. Some sawfly larvae will flex or rear back in unison when disturbed. Sawflies can cause rapid defoliation of branches if left unchecked.

Pine needle miner larvae feed on the inside of needles causing them to turn yellow and dry up.

Pine needle scale is a white, elongated scale found on the needles. Pine tortoise scale is brown and found on twigs. Depending on the scale, horticultural oil may control overwintering stages.

Pine spittle bug lives and hides in a foamy mass.

Spruce mites cause damage to older needles, and are usually active in the spring and fall. Mites cause older needles to turn yellow.


Very susceptible to fusiform rust in USDA hardiness zones 8 through 10. Oaks serve as an alternate host to this fungus. Select resistant trees.

Pitch canker can be a serious problem. It appears to be more of a problem in manged landscapes where trees receive regular applications of nitrogen.

Needle cast causes needles to drop during the winter, but control is usually not needed.


1. This document is ENH-622, one of a series of the Environmental Horticulture Department, Florida Cooperative Extension Service, Institute of Food and Agricultural Sciences, University of Florida. Original publication date November 1993. Revised December 2006. Visit the EDIS Web Site at http://edis.ifas.ufl.edu.

2. Edward F. Gilman, professor, Environmental Horticulture Department; Dennis G. Watson, associate professor, Agricultural Engineering Department, Cooperative Extension Service, Institute of Food and Agricultural Sciences, University of Florida, Gainesville FL 32611.

The Institute of Food and Agricultural Sciences (IFAS) is an Equal Opportunity Institution authorized to provide research, educational information and other services only to individuals and institutions that function with non-discrimination with respect to race, creed, color, religion, age, disability, sex, sexual orientation, marital status, national origin, political opinions or affiliations. For more information on obtaining other extension publications, contact your county Cooperative Extension service.

U.S. Department of Agriculture, Cooperative Extension Service, University of Florida, IFAS, Florida A. & M. University Cooperative Extension Program, and Boards of County Commissioners Cooperating. Larry Arrington, Dean.

Copyright Information

This document is copyrighted by the University of Florida, Institute of Food and Agricultural Sciences (UF/IFAS) for the people of the State of Florida. UF/IFAS retains all rights under all conventions, but permits free reproduction by all agents and offices of the Cooperative Extension Service and the people of the State of Florida. Permission is granted to others to use these materials in part or in full for educational purposes, provided that full credit is given to the UF/IFAS, citing the publication, its source, and date of publication.