Field Selection of American Sweetgum Transformed for Herbicide Resistance
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Date
2003Author
Huetteman, C. A.
Zhao, Y.
Gause, K. C.
Wilde, H. D.
Parks, B. T.
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One American sweetgum clone from an open-pollinated parent was transformed with Agrobacterium tumefaciens containing the gene for acetolactate synthase (ALS), and regenerated through organogenesis. Seventy independently transformed lines were selected in vitro in the presence of an ALS-targeting herbicide. Containerized ramets of the 70 lines were established at an irrigated fiber farm in South Carolina, in May, 2002. Over 1,000 trees were planted in a completely randomized design with up to 15 ramets per transline. Establishment survival in June was near 100 percent. Two months after planting, the actively growing trees received one over-the-top application of a tank mix of two ALS-targeting herbicides to evaluate resistance in each transformed line. Thirty days following application, over 85 percent of the planted ramets from three lines displayed no damage symptoms. Sixteen additional lines had a mean damage rating less than �slight�. Twelve of these nineteen lines had first-year heights that were not significantly different from the non-sprayed control line. One transformed line was significantly taller than the control clone (103 cm vs 91 cm mean height, respectively). At the end of the year, only 11 of 1,027 individual trees (1 ramet from each of 9 lines and 2 ramets of another line) died due to herbicide damage. Although the test was terminated after only one growing season, at least four lines were sufficiently resistant to be considered for further plantation development.
Citation
Huetteman, C. A., Zhao, Y., Gause, K. C., Wilde, H. D., & Parks, B. T., (2003). "Field Selection of American Sweetgum Transformed for Herbicide Resistance." In 27th Southern Forest Tree Improvement Conference, Stillwater, OK