Journal of agriculture & life science (농업생명과학연구)

Institute of Agriculture & Life Science, Gyeongsang National University (경상대학교 농업생명과학연구원)
권호 표지

Growth Characteristics and Adaptability of Three-Year-Old Poplar Clones in a Reclaimed Tidal Flat

간척지 시험림에서 3년생 포플러 클론의 생육특성 및 적응능력

  • Yeo, Jin-Kie (Dept. of Forest Genetic Resources, Korea Forest Research Institute) ;
  • Shin, Hanna (Dept. of Forest Genetic Resources, Korea Forest Research Institute) ;
  • Kim, Hyun-Chul (Dept. of Forest Genetic Resources, Korea Forest Research Institute) ;
  • Woo, Kwan-Soo (Dept. of Forest Genetic Resources, Korea Forest Research Institute)
  • 여진기 (국립산림과학원 산림유전자원부) ;
  • 신한나 (국립산림과학원 산림유전자원부) ;
  • 김현철 (국립산림과학원 산림유전자원부) ;
  • 우관수 (국립산림과학원 산림유전자원부)
  • Received : 2011.08.10
  • Accepted : 2011.10.28
  • Published : 2011.10.31
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Abstract

Growth characteristics and adaptability of 10 poplar clones planted at a reclaimed tidal flat were evaluated. The contents of $Na^+$, $Ca^{2+}$ and $Mg^{2+}$ were 10.0, 3.4 and 1.5 times higher, respectively than those of control although the electrical conductivity(EC) in the soil at the test plantation was low as much as 0.51 dS/m. The contents of organic matter(OM) and total nitrogen(TN) in the soil were 22.9 and 23.0 times lower than those of control. Average survival rate of 10 poplar clones showed 88% at three years after planting. Clones Eco28(Populus euramericana), Dorskamp(Populus deltoides ${\times}$ P. nigra) and I-476(Populus euramericana) showed the best survival rate of 100%. However, clones 97-19(Populus deltoides(Lux) ${\times}$ P. deltoides(Harvard)) and Suwon (Populus koreana ${\times}$ P. nigra var. italica) were relatively lower than other clones. Average height and DBH of all clones were 4.8 m and 3.6 cm, respectively. Clone Dorskamp showed the greatest height and DBH, 5.9 m and 5.0 cm, respectively. Clones 97-19 and Dorskamp showed the least defoliation by stress and visible damage by insects and diseases, whereas clones Suwon and I-476 were the most sensitive at the reclaimed tidal flat. Clone Dorskamp showed the best adaptability at the reclaimed tidal flat, but clone Suwon showed the worst based on survival rate, growth, and visible damages.

간척지에 식재된 포플러 10클론을 대상으로 생육특성 및 적응능력을 평가하였다. 시험림 토양의 전기전도도(EC)는 0.51 dS/m로 높지 않음에도 불구하고 $Na^+$, $Ca^{2+}$$Mg^{2+}$ 함량은 일반 토양에 비해 각각 10.0배, 3.4배 및 1.5배 높았으며, 유기물과 총 질소 함량은 각각 22.9배, 23.0배 낮았다. 식재 후 3년째 포플러 클론의 평균 생존율은 88%로 양호하였으며, Eco28, I-476, Dorskamp 클론이 생존율 100%로 가장 우수하였고, 97-19, Suwon 클론이 상대적으로 낮았다. 전체 클론의 평균 수고와 흉고직경은 각각 4.8 m와 3.6 cm로 나타났으며, 전체 10클론 중 Dorskamp 클론의 수고와 흉고직경 생장은 각각 5.9 m 및 5.0 cm로 가장 우수하였다. 간척지 환경에서 조기낙엽과 병해충 등 가시적 피해는 97-19 및 Dorskamp 클론이 가장 적었으며, Suwon 및 I-476 클론은 피해가 많은 것으로 밝혀졌다. 생존율, 생장, 가시적 피해를 대상으로 평가한 간척지 적응능력은 Dorskamp 클론이 가장 우수하게 나타났고, Suwon 클론이 가장 낮은 것으로 평가되었다.

Keywords

References

  1. Dix, M.E., N.B. Klopfenstein, J.-W. Zhang, S.W. Workman and M.S. Kim. 1997. Potential use of Populus for phytoremediation of environmental pollution in riparian zones, USDA Forest Service General Technical Report RM-GTR-297.
  2. Chris, H. 2007. Causes of dryland salinity. Government of South Australia. 3pp.
  3. Ke, J. and J.M. Skelly. 1989. An evaluation of norway spruce in Northeastern United States. Air Pollution and Forest Decline(Bucher, J.B. and Bucher-Wallin, I., eds.). Proc. 14th Int. Meeting for Specialists in Air Pollution Effects on Forest Ecosystems, IUFRO P2.05, Interlaken, Switzerland, Oct. 2-8, 1988. Birmensdorf, 1989, P. 55-60.
  4. Koo, J.W., J.K. Choi and J.G. Son. 1998. Soil properties of reclaimed tidal lands and tidelands of western sea coast in Korea. Korean J. Soil Sci. Fert. 31: 120-127.
  5. Kratsch, H., S. Olsen, L. Rupp, G. Cardon and R. Heflebower. 2008. Soil salinity and ornamental plant selection. Utah State University. 8pp.
  6. Lee, E.D., S.Y. Woo, J.K. Yeo, Y.B. Koo and S.H. Chun. 2009. Sapflow change and growth response of poplar species under swine wastewater irrigation. Jour. Korean For. Soc. 98: 740-747.
  7. Lee, S.H., B.D. Hong, Y. An and H.M. Ro. 2003. Relation between growth condition of six upland-crops and soil salinity in reclaimed land. Korean J. Soil Sci. Fert. 36: 66-71.
  8. Licht, L.A. and J.G. Isebrands. 2006. Linking phytoremediated pollutant removal to biomass economic opportunities. Biomass and Bioenergy 28: 203-218.
  9. Miller, R.W. and R.L. Donahue. 1990. An introduction to soils and plant growth. Prentice-Hall. 768pp.
  10. USEPA. 2000. Introduction to phytoremediation, EPA/600/R-99/107 Feb., p. 104
  11. Yeo, J.K., W.W. Lee, Y.B. Koo, K.S. Woo and J.K. Byun. 2010. Nitrogen storage potential in aboveground biomass of three-year-old poplar clones in a riparian area. Agric. Life Sci. 44: 15-21.
  12. Yeo, J.K., Y.B. Koo, H.C. Kim, H.N. Shin and E.D. Lee. 2010. Removal of swine wastewater by evapotranspiration at poplar plantation and growth characteristics of poplar clones. Korean Soc. Waste Manage. 27: 226-233.
  13. Yeo, J.K., K.S. Woo, Y.B. Koo and Y.S. Kim. 2007. Growth performance and adaptability of three-yearold poplar and willow clones in a riparian area. J. Korean Env. Res. & Reveg. Tech. 10: 40-50.
  14. Zalesny, J.A., R.S. Zalesny Jr., A.H. Wiese, B. Sexton and R.B. Hall. 2007. Sodium and chloride accumulation in leaf, woody, and root tissue of Populus after irrigation with landfill leachate. Environ. Pollu. 20: 1-7.
  15. Zalesny, R.S. Jr, A.H. Wiese, E.O. Bauer and D.E. Riemenschneider. 2006. Sapflow of hybrid poplar (Populus nigra L. ${\times}$ P. maximowiczii A. Henry 'NM6') during phytoremediation of landfill leachate. Biomass and Bioenergy 30: 784-793 https://doi.org/10.1016/j.biombioe.2005.08.006
  16. 농림부 농업기반공사. 2002. 간척지 조성후 토양특성 변화 및 활용방안 연구(I). 256pp
  17. 박석두. 김수석. 2005. 휴경농지의 실태와 정책방향. 한국농촌경제연구원. pp92.