Journal of Korean Society of Forest Science (한국산림과학회지)

Korean Society of Forest Science (한국산림과학회)
권호 표지
DOI QR코드

DOI QR Code

Examination of Effectiveness of Existing Wound Dressings

현재 사용 중인 상처도포제의 유효성 검정

  • Lee, Kyu Hwa (University Plant Clinic, Seoul National University) ;
  • Lee, Yong-Hwan (University Plant Clinic, Seoul National University) ;
  • Song, Hyeon-Seong (University Plant Clinic, Seoul National University) ;
  • Lee, Joung Goo (University Forest, Seoul National University) ;
  • Yoo, Jaeryong (Department of Plant Science, Seoul National University) ;
  • Ahn, Saekyul (Department of Plant Science, Seoul National University)
  • 이규화 (서울대학교 수목진단센터) ;
  • 이용환 (서울대학교 수목진단센터) ;
  • 송현성 (서울대학교 수목진단센터) ;
  • 이정구 (서울대학교 학술림) ;
  • 유재룡 (서울대학교 식물생산과학부) ;
  • 안새결 (서울대학교 식물생산과학부)
  • Received : 2016.06.07
  • Accepted : 2016.10.10
  • Published : 2016.12.31
Download PDF
⟨ Previous Next ⟩

Abstract

This study was conducted to examine the effectiveness of various dressing materials applied to tree wounds in Korea. Significantly higher wound closure rates than those of controls were found when thiophanatemethyl paste (Topsin Paste$^{(R)}$) was applied to Ginkgo biloba, Zelkova serrata, and Prunus yedoensis; lanolin to Z. serrata and P. yedoensis; and tebuconazole paste (Silvacur$^{(R)}$) to P. yedoensis. However, significantly lower wound closure rates than those of controls were found when petroleum jelly (Vaseline$^{(R)}$) was applied to G. biloba, Z. serrata, and P. yedoensis. It was noted that the wounds of Z. serrata and P. yedoensis treated with petroleum jelly expanded due to the death of cambium located at the edge of the wounds. Wound closure rates applied with adhesive - non-toxic to human body (Okong bond$^{(R)}$) were also significantly lower than those of controls in Z. serrata. Pinus densiflora showed no reaction to any experimental wound dressing because of resin secreted from the exposed cambium.

본 연구는 현재 수목관리 현장에서 사용 중인 상처도포제의 유효성을 확인하기 위해 실시하였다. 티오파네이트메틸 도포제(상표명: 톱신페스트)는 은행나무, 느티나무, 왕벚나무에서, 라놀린은 느티나무와 왕벚나무에서, 테부코나졸 도포제(상표명: 실바코)는 왕벚나무에서 각각 무처리구 대비 유의하게 높은 상처유합률을 나타냈다. 페트롤리움젤리(상표명: 바셀린)는 은행나무, 느티나무, 왕벚나무 등 소나무를 제외한 전 수종에서, 인체 무독성 접착제(상표명: 오공본드)는 느티나무에서 각각 무처리구보다 유의하게 낮은 상처유합률을 보였다. 특히 바셀린을 처리한 느티나무와 왕벚나무 상처부위에서는 형성층이 괴사되어 상처가 확대되는 피해가 발생하였다. 소나무는 수지 유출로 인해 상처도포제 처리효과가 나타나지 않았다.

Keywords

References

  1. Brooks, F.T. and Brenchley, G.H. 1931. Silver leaf disease-VI. Journal of the American Pomological Society 9: 1-29.
  2. Brooks, F.T. and Moore, W.C. 1926. Silver leaf disease-V. Journal of the American Pomological Society 5: 61-97.
  3. Gallagher, P.W. and T.D. Sydnor. 1983. Promotion of Wound Closure in Shade Trees with Exogenously-applied Growth Regulators. Journal of Arboriculture 9(9): 220-233.
  4. Collins, J.F. 1934. Treatment and Care of Tree Wounds. USDA Farmer's Bulletin 1726. pp. 38.
  5. Gilman, E.F. 2013. An Illustrated Guide to Pruning, 3rd ed. Delmar, Cengage Learning, Clifton Park, NY. pp. 102.
  6. Gilman, F.G. and Sharon, J.L. 2008. Best Management Practices-Tree Pruning (Revised, 2008). International Society of Arboriculture. pp. 24.
  7. Ha, T.J., Song, K.J., Lee, J.K., and Yoo, C.M. 2004. Study on Callus Formation of Zelkova Trees after Surgical Operations: Focused on Plant Hormone Treatment. Journal of Korean Institute of Traditional Landscape Architecture 2: 73-82.
  8. Harris, R.W., Clark, J.R., and Matheny, N.P. 2004. Arboriculture: Integrated Management of Landscape Trees, Shrubs, and Vines (4th Edition). Prentice Hall. pp. 351.
  9. Hartman, J.R., Pirone, T.P., and Sall, M.A. 2000. Pirone's Tree Maintenance (7th edition). Oxford University Press, New York, NY. pp. 136.
  10. Hudler, G.W. and Jensen-Tracy, S. 2002. Lac $Balsam^{(R)}$ as a Treatment to Hasten Wound Closure and Minimize Discoloration and Decay. Journal of Arboriculture 28: 264-269.
  11. La, Y.J. 2012. Treatments of Tree Wounds. Forest 556: 64-66.
  12. Leal, A.T. and Krezdorn, A.H. 1977. Effects of Growth Regulators on Healing Avocado Pruning Wounds. Proceedings of the Florida State Horticultural Society 90: 275-278.
  13. Lee, K.H., and Lee, K.J. 2010. Effects of Wound Dressing with Thiophanate-Methyl Paste on Compartmentalization of Pruning Wounds. Journal of Korean Forest Society 99: 220-225.
  14. McQuilkin, W.E. 1950. Effects of Some Growth Regulators and Dressings on the Healing of Tree Wounds. Journal of Forestry 48: 423-428.
  15. Mercer, P.C. 1983. Callus growth and the effect of wound dressings. Annals of Applied Biology 103: 527-540. https://doi.org/10.1111/j.1744-7348.1983.tb02792.x
  16. Min, H.J. 2011. Effects of plant growth regulators on the callus induction in damaged bark of trees. Masters Thesis in Plant Pathology, Chungbuk National University.
  17. Padfield, C.A.S. 1955. Dressings for tree wounds: Testing new materials. Orchardist NZ 28(7): 7-11.
  18. Pottle, H.W. and Shigo, A.L. 1974. Treatment of wounds on Acer rubrum with Trichoderma viride. European Journal of Forest Pathology 5: 274-279.
  19. Shigo, A.L. 1975. Some new ideas in tree care. Journal of Arboriculture 1: 234-237.
  20. Shigo, A.L. 1977. "New" ideas in tree care. Journal of Arboriculture 3: 1-6.
  21. Shigo, A.L. and Wilson, C.L. 1977. Wound Dressings on Red Maple and American Elm: Effectiveness after five years. Journal of Arboriculture 3: 81-87.
  22. Shigo, A.L. and Shortle, W.C. 1983. Wound Dressings: Results of Studies Over 13 years. Journal of Arboriculture 9: 317-329
  23. TCIA (Tree Care Industry Association, Inc.). 2008. ANSI A300 (Part 1)-2008 for Tree Care Operations - Tree, Shrub, and Other Woody Plant Management - Standard Practices (Pruning). Tree Care Industry Association, Inc., Londonderry, NH. pp. 5.

Cited by

  1. 소나무, 벚나무, 느티나무 단근 후 연고 처리에 따른 발근 비교 vol.108, pp.2, 2016, https://doi.org/10.14578/jkfs.2019.108.2.269