Converting Agricultural Lands to Forestry Plantations

Each year ArborGen produces enough seedlings for reforestation on a wide array of sites to cover approximately 600,000 acres, primarily in the Southeastern United States. Most of these sites are classified as cutovers, where all of the timber has been harvested to make way for a new stand. Quite often, however, former agricultural crop fields and livestock pastures are converted to forestland, and this practice is known as afforestation.

Years of traffic by farm equipment and animals can cause compaction forming what is commonly referred to as a plow-pan or a hard-pan.  The surface layer and the initial soil horizon is usually friable, and if a tree were planted 8-10 inches below the soil surface, you might not even detect the hard pan. The plow-pan is often 12-15 inches below the soil surface and limits the amount of root system development and nutrition availability for a newly planted seedling. Many times landowners plant former productive crop fields, only to be disappointed in tree growth two to three years later due to the seedlings inability to thrive in its new environment from soil compaction. Common symptoms include thinning of the crowns and poor coloration of the foliage.

 Before planting seedlings, an operation known as subsoiling, breaking up the ground before planting,   should be performed to shatter the compaction pan associated with past agricultural practices. Subsoiling before forestry plantation establishment is strongly recommended for all sites formerly cultivated or pastured, which usually always has problems with soil compaction or a plow-pan (Zobel and Talbert 1984). Many studies have shown that subsoiling improves plant development and vigor (Gregory and Davey, 1977). Subsoiling minimizes soil compaction issues and allows new seedling roots to proliferate to greater depths. One other key benefit of subsoiling is that it prevents surface water runoff, improving soil moisture in the newly established forest plantation (Zobel and Talbert 1984). Soil penetrometers, found at forestry suppliers, are extremely easy to use and are an invaluable tool to test for soil compaction before and after subsoiling. One such tool that is affordable and user-friendly is the Agratronix Soil Compaction Tester. A dial is situated so that the user can quickly and easily assess compaction levels inherent to the planting site.

If former agricultural sites are to be machine planted, the mechanical planter is usually equipped with a “shank” that can be adjusted to a depth that will rip or shatter the plow-pan.  The seedling is then placed right behind the ripper in a soil medium where the compaction has been alleviated for better root growth potential. If hand planting is the only option, then subsoiling in the desired transect across the field with a farm tractor before planting is essential. Then the hand planting crew can easily follow the ripped line and place the seedlings at the desired stocking level. Either method of planting following subsoiling ensures the newly planted seedling will attain adequate root growth potential.

Finally, an equally important and easy task to complete before establishing forestry plantations on former agriculture sites is to perform a soil pH test. It is not uncommon for former agriculture sites to have a higher than desired soil pH for most forest trees. Former pasturelands are usually limed, raising the soil pH to higher than desired levels for southern yellow pine. The soil pH range for loblolly pine, for example, is from 4.5 – 7.0, but is most productive and is more tolerant to herbicides at 5.2 – 6.2. University county extension agencies provide directions on how to conduct soil testing and can also analyze results with minimal costs.  Always consult with herbicide specialists before treating sites with chemicals both before and after plantation establishment.

Pine Product & Sales Support

 

ArborGen is pleased to announce that Donnie Fleming has accepted the position of Project Leader, Pine Product and Sales Support with the Product Development team. In his new role, Donnie will gather information from existing research, demonstration, and operational stands on the performance of ArborGen products, and summarize that information to further characterize ArborGen products and product classes.

In addition, he will be responsible for the planning and installation of product demonstration plots for all sales regions. “Donnie’s experiences in ArborGen sales, as well as forest management and procurement experience at previous employers, will be a valuable addition to the Product Development team. Donnie will continue to work out of the Tallahassee office,” says Dr. Michael Cunningham, Vice President of Global Product Development.

 

Customer Success Story: Jason Goforth

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Get in touch with a Reforestation Advisor to explore your options!
Jason Watson

Jason Watson

South Carolina

404-840-7489
Geoffrey Lee Hill

Geoffrey Lee Hill

Georgia, Virginia, Eastern Tennessee

912-655-1725

 

Paul Jeffreys, Ph.D.

Paul Jeffreys, Ph.D.

Western Tennessee, Northern Alabama, and Mississippi

205-712-9582
Randy Jarzyniecki

Randy Jarzyniecki

Gulf Coast, Southern Alabama

229-344-4650

Lux Davis

Lux Davis

Senior Business Specialist, Texas

877-600-8015

Shannon Stewart

Shannon Stewart

Eastern Texas, Southern Louisiana

936-239-6189
Thomas Jackson

Thomas Jackson

North Carolina

803-767-1317
Jonathan Wall

Jonathan Wall

Arkansas, Northern Louisiana

501-467-0869
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