한국산림과학회지 (Journal of Korean Society of Forest Science)

한국산림과학회 (Korean Society of Forest Science)
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신갈나무림에서 솎아베기가 임내환경과 자연버섯 발생에 미치는 영향

Effect of Thinning on Environmental Factors and Wild Mushroom Fruting in Quercus mongolica Forest

  • Park, Yong Woo (Department of Forestry, Chungbuk National University) ;
  • Koo, Chang Duck (Department of Forestry, Chungbuk National University) ;
  • Choi, Hyun Bin (Department of Forestry, Chungbuk National University) ;
  • Kim, Jin Gun (Department of Forestry, Chungbuk National University) ;
  • Lee, Hee Su (Department of Forestry, Chungbuk National University) ;
  • Lee, Hwa Yong (Department of Forestry, Chungbuk National University)
  • 투고 : 2017.09.06
  • 심사 : 2018.02.18
  • 발행 : 2018.03.31
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초록

신갈나무 천연림에서 솎아베기가 임내 미기후 환경과 버섯 발생에 미치는 영향을 알아보기 위하여 약 45%의 솎아베기 후 4년이 경과한 신갈나무림에 토양온도, 대기온도, 수관통과우량 및 토양수분량의 변화를 조사하였다. 그 결과 솎아베기를 인하여 수관울폐율이 4월부터 10월까지 약 6% 가량 낮아졌고 토양온도와 대기온도가 8월까지 $1{\sim}2^{\circ}C$ 이상 높아졌다가 9월 이후에는 차이가 점점 줄어들었다. 월별 평균 일교차는 10월까지 $0.2{\sim}0.7^{\circ}C$ 가량 커졌고 이후부터는 차이가 없었다. 또한 7월~9월 동안 수관통과우량이 약 135 mm 더 많아졌고 단위시간당 수관통과우량도 최대 3.5 mm/h 많아졌다. 강우시 토양 수분량은 약 5% 이상 더 많아졌고 강우 전 수준으로 되는 기간이 약 4일가량 더 걸렸다. 솎아베기 지역의 7~9월의 버섯 발생 종은 55종으로 균근성 버섯은 10종, 부후성 버섯은 1종이 더 증가하였고. Shanon-Wiener 지수는 3.2로 0.5가량 더 높았다. 솎아베기 지역에서는 제주쓴맛그물버섯(Tylopilus neofelleus) 등이 더 빨리 발생하였으나, 진갈색주름버섯(Agaricus subrutilescens), 깔때기버섯속(Clitocybe sp.)은 더 늦게 발생하였다. 또한, 제주쓴맛그물버섯(Tylopilus neofelleus)은 우점도가 약 6%, 발생량이 약 1.5배가량 증가하였고, 뽕나무버섯속(Amillaria sp.)은 우점도가 약 30%, 발생량이 약 20배 가까이 증가하였다. 이와 같은 결과로 신갈나무림에서 솎아베기는 버섯발생에 영향을 주는 토양과 대기의 온도, 수관통과우량과 토양수분을 증가시키며 이는 버섯 발생 종의 다양성 증가, 종별 발생시기의 변화, 일부 균근성버섯과 뽕나무버섯속(Amillaria sp.)의 우점도와 발생량을 증가시킨다고 결론짓는다.

In order to determine the effects of thinning on mushroom fruiting, microclimate and air temperature in Quercus mongolica forests, this study investigated changes in crown density, soil temperature, air temperature and throughfall in the natural Q. mongolica forest which was thinned by approximately 45% four years ago. The results showed that crown density was smaller than control by 6% from April to October, The soil temperature and air temperature in the thinned stands were significantly higher than those of the control by $1{\sim}2^{\circ}C$ until August and differences in air and soil temperature. The average daily temperature difference was higher than control by $0.2{\sim}0.7^{\circ}C$ until October. Throughfall from July to September in the thinned was approximately 135 mm higher than in the control. The maximum difference in throughfall per unit time was 3.5 mm/h. Soil moisture in the thinned site increased by approximately 5% compared with the control and reduced to the normal moisture after 4 days in both sites. 55 mushroom species were found in the thinned area between July and September. The thinned site contained 10 mycorrhizal mushrooms more than the control and 1 saprophytic mushroom species more than the control. Shannon-Wiener Index was 3.2, approximately 0.5 higher than the control. Tylopilus neofelleus, etc., occurred in the thinned site more quickly, but Aaricus subrutilescens, Clitocybe sp, occurred later. In the thinned site, the dominance of Tylopilus neofellelus and Armillaria sp. increased approximately 6% and 30% and yield about 1.5 times and 20 times, respectively. In conclusion, thinning in the Q. mongolica forest increased the soil and air temperature, soil moisture, throughfall and the diversity of mushroom species, and advanced the period of occurrence, and increased dominance and yield of some mycorrhizal mushrooms and Amillaria sp.

키워드

참고문헌

  1. Antonio, T., Jose A.B., Aragon, J.M. and Miguel., S. 2017. Is silviculture able to enhance wild forest mushroom resources? current knowledge and future perspectives. Forest Ecology and Management 402: 102-114. https://doi.org/10.1016/j.foreco.2017.07.039
  2. Barroetavena C., La Manna, L. and Alonso, M.V. 2008. Variables affecting suillus luteus fruitification in ponderosa pine plantation in patagonia (Argentina). Forest Ecology and Management. 256: 1868-1874. https://doi.org/10.1016/j.foreco.2008.07.029
  3. Bhatti, J.S., Fleming R.L., Foster N.W., Meng F.R., Bourque C.P.A. and Arp P.A. 2000. Simulations of pre- and postharvest soil temperature, soil moisture, and snowpack for jak pine: comparison sith field observations. Forest Ecology and Management 138(1-3): 413-426. https://doi.org/10.1016/S0378-1127(00)00427-8
  4. Bradley, R.K. and Steve, A. 1996. The effects of silvicultural treatments on occurrence of mycorrhizal sporocarps in a Pinus contorata forest: a preliminary study. Biological Conservation 78(3): 313-318. https://doi.org/10.1016/S0006-3207(96)00140-1
  5. Breda, N., Granier, A. and Aussenac, G. 1995. Effects of thinning on soil and tree water relations, transpiration and growth in oak forest (Quercus petraea (Matt.) Liebl.). Three Physiology 15(5): 295-306.
  6. Breitenbach, J. and Kranzlin, F. 1984. Fungi of switzerland Vol 3 boletes and agarics. lucenrne. Switzerland. pp.361.
  7. Choi, H.P. 2015. An illustrated mushroom book. Academic book. Seoul. pp.981.
  8. Chung, D.J. and Shin, M.Y. 2003. Growth properties and characteristics of water relation parameters for a forest of Quercus variabilis by environmental factors. Korean Journal of Agricultural and Forest Meteorology 5(4): 233-237.
  9. Daniel, M.D., Melanie, D.J. and Kathy, J.L. 2005. Effects of forest management on fungal communities. pp. 833-847. In : John, D., James F.W., and Peter O. The fungal community: its organizaion and role in the ecosystem third edition. Taylor & Francis, NewYork.
  10. David, P., Randy, M. and Jim, M. 2006. Effects of thinning toung forests on chanterelle mushroom production. Journal of Forestry 104(1): 9-14.
  11. Fernado M.P., Sergio, M., Timo, P., Jose, A.B., Pedro, O.M., Jorge, A. and Juan M.A. 2012. Yield models for ectomycorrhizal mushrooms in Pinus sylvestris forests with special focus on Boletus edulis and Lactarius group deliciosus. Forest Ecology and Management 282(2012): 63-69. https://doi.org/10.1016/j.foreco.2012.06.034
  12. Horikoshi, T., Tateishi, T. and Takahashi, F. 1986. Changes of fungus flora after fires in Pinus densiflora forest. Transactions Mycological Society of Japan 27(3): 283-295.
  13. Hood, I.A. and Kimberley, M.O. 2009. Impact of Armillaria root disease and the effect of thinning in a late-rotation Pinus radiata plantation. Forest Pathology 39(6): 415-427. https://doi.org/10.1111/j.1439-0329.2009.00602.x
  14. Hursch, C.R. 1948. Local climate in the copper basin of tennessee as modified by the removal of vegetation. United States Dept Agriculture. Washington D.C. 774: pp.38.
  15. Hwang, J.H. and Son, Y.H. 2002. Effects of thinning, liming and litter layer treatments on soil $CO_2$, efflux and litter decay in Pinus rigida and Larix leptolepis plantations. Journal of Korean Forest Science 91(4): 471-479.
  16. Jang, S.K. 2014. Distribution of higher fungi in wolchulsan national park. The Korean Journal of Mycology. 42(1): 9-20. https://doi.org/10.4489/KJM.2014.42.1.9
  17. Jang, S.K. and Kim, S.W. 2012. Relationship between higher fungi distribution and climatic factors in naejangsan national park. The Korean Journal of Mycology 40(1): 19-38. https://doi.org/10.4489/KJM.2012.40.1.019
  18. James, W.B. and John, D. 2005. Diversity-functioning relationchips in ectomycorrhizal fungi communities. pp. 354-385. In : John, D., James F.W., and Peter O. The fungal community: its organizaion and role in the ecosystem third edition. Taylor & Francis, New York.
  19. Jin, H.O. and Son, Y.H. 2007 Nutrient dynamics and water quantity of throughfall and stemflow in natural oak stands in korea. Korean Journal of Agrocultural and Forest Meteorology 9(1): 61-70. https://doi.org/10.5532/KJAFM.2007.9.1.061
  20. Ka, K.H. 2010. Preference of mushroom and east-west 100 kinds of mushrooms. Sanrilmji. 2010(11): 68-70.
  21. Kang, J.S., Shibuya M. and Shin C.S. 2014. The effect of forest -thinning work on tree growth and forest environment. Forest Science and Technology 10(1): 33-39. https://doi.org/10.1080/21580103.2013.821958
  22. Kim, J.Y. and Lee, K.J. 2012. Vegetational structure and the density of thinning for the inducement of the ecological succession in artificial forest, national parks: In case of chiaksan, songnisan, deogyusan, and naejangsan. Korean Journal of Environment and Ecology 26(4): 604-619.
  23. Kim, S.H., Kim, J.C., Lee, S.W., Cho, H.G., Lim, J.S., Seo, S.A., Jung, I.B., Jang, G.M., Song, Y.H., Son, Y.M., Kim, S.H., Kim, R.H., Jung, J.H., Jung, D.J., Choi, G.M., Park, W.J., Lee, Y.J., Namgung, Y.C., Go, E.J., Kim, J.S., Park, G.S., Lee, K.H. and Sung, J. H. 2013. Assessment of the korea's forest resources 2006-2012. Korea Forestry Promotion Institute. Seoul. p.267.
  24. Kim, S.W. and Jang, S.K. 2016. Relationship between climatic factors and occurrence of ectomycorrhizal fungi in byeonsanbando national park. The Korean Journal of Mycology 44(4): 220-232. https://doi.org/10.4489/KJM.2016.44.4.220
  25. Koo, C.D. 2000 Correlation between production of Tricholoma matsutake and annual ring growth of Pinus densiflora. Journal of Korean Forest Society 89(2): 232-240.
  26. Koo, C.D., Kim, J.G., Lee, H.Y., Park, Y.W. and Lee, H.S. 2017. Significance of Armillaria species in taxonomy, forest ecology and plant pathology. The Korean Journal of Mycology 45(1): 1-13. https://doi.org/10.4489/KJM.20170001
  27. Kozlowski, T.T., Karamer, P.J. and Pallardy, S.G. 1991. The physiological ecology of woody plants. Academic Press, New York. pp.657.
  28. Lee, C.Y. 2008. Development Distribution of higher fungi as vegetation Mt. Deogyu. Department of Biology Graduate School, Woosuk University. pp.11-45.
  29. Lee, J.Y., Han, S.H., Kim, S.J., Lee, S.H., Son, Y.M. and Son, Y.H. 2015. A meta-analysis on the effect of forest thinning on diameter growth and carbon stock in Korea. Journal of Korean Forest Society 104(4): 527-535. https://doi.org/10.14578/jkfs.2015.104.4.527
  30. Lee, S.H., Kim, J.S., Kim, H.E., Koo, C.D., Park, J.I., Sin, C.S. and Shin W.S. 2005. Effect of soil moisture and weather (atmospheric) conditions on the fruiting of Sarcodon aspratus in oak stand. Journal of Korean Forest Society 94(6): 370-376.
  31. Lee, S.Y., Lee, M.W., Yeom, C.H., Kwon, C.G. and Lee, H.P. 2009. Comparative analysis of forest fire danger rating on forest characteristics of thinning area and non-thinning area on forest fire burnt area. Fire Science and Engineering 23(4): 32-39.
  32. Lin, W.R., Wang, P.H., Chen, M.C., Kuo, Y.L., Chiang, P.N., and Wang, M.K. 2015. The impacts of thinning on the fruiting of saprophytic fungi in Cryptomeria japonica plantations in central Taiwan. Forest Ecology and Management 336: 183-193. https://doi.org/10.1016/j.foreco.2014.10.022
  33. Lynne, B., Ulf buntgen, Simon, E., Alan, C., GANGE, Einar H., Paul M. K., Aqilah M. and Havard K. 2014. Climate variation effects on fungal fruiting. Fungal Ecology 10(2014): 20-33. https://doi.org/10.1016/j.funeco.2013.10.006
  34. Manuel C.M.J. 2008. Ecology : Conceps and applications 4ed. The McGraw-Hill Companies. New York. p.374-377.
  35. Moore, D., Gange, A. C., Gange, E. G. and Boddy, L. 2008. Fruit bodies : their production and development in relation to environment. pp.79-102. In: Boddy, L., Frankland, J. G. and West, P.(Eds.). Ecology of saprotrophic basidiomycetes. Elsevier. Amsterdam.
  36. Nam, G.J., Pyo, H.H. and Moon, H.T. 2001. Seasonal diversity, production and nutrients concentration of mushrooms in an oak forest. Korean Journal of Ecology 24(5): 315-322.
  37. Nehls, U. 2008. Mastering ectomycorrhizal symbiosis: the impact of carbohydrates. Journal of Experimental Botany 59(5): 1097-1108. https://doi.org/10.1093/jxb/erm334
  38. Newton, A.C. and Haigh, J. 1998. Diversity of ectomycorrhizal fungi in the UK: a test of the species-area relationship and the role of host preference, New Phytol 138: 619-627. https://doi.org/10.1046/j.1469-8137.1998.00143.x
  39. Pablo, M.P., Hector, V., Penalver, Fernando P., Jaime O. and Juan, A.O.R. 2006. Early effect of wildfire on the diversity and production of fungal communities in Mediterranean vegetation types dominated by Cistus ladanifer and Pinus pinaster in Spain. Forest Ecology Management 225(1): 296-305. https://doi.org/10.1016/j.foreco.2006.01.006
  40. Park W.H. and Lee, H.D. 2007. Wild fungi of korea. Kyohaksa. Seoul. pp.508.
  41. Park, J.H. 2004. A Study of influence of forest management practices on the soil physical properties and facility of purifying water quality in Pinus rigida stands(1). Journal of Korean Forest Society 93(1): 1-9.
  42. Park, Y.W., Koo, C.D., Lee, H.Y., Ryu, S.R., Kim, T.H. and Cho, Y.G. 2010. Relationship between macrofungi fruiting and environmental factors in songnisan national park. Korean Journal of Environment and Ecology 24(6): 657-679.
  43. Prevost, M. 2008. Effect of cutting intensity on microenvironmental conditions and regeneration dynamics in yellow birch-conifer stands. Canadian Journal of Forest Research 38: 317-330. https://doi.org/10.1139/X07-168
  44. Querejeta, J.I., Egerton-Warburton, L.M. and Allen, M.F., 2003. Direct nocturnal water transfer from oaks to their mycorrhizal symbionts during severe soil drying. Oecologia 134(1): 55-64. https://doi.org/10.1007/s00442-002-1078-2
  45. Richard, M.R. 2003. Short-term impact of thinning and fertilizer application on Armillaria root disease in regrowth karri (Eucalyptus diversicolor F. Muell.) in western australia. Forest Ecology and Management 176(1-3): 417-426. https://doi.org/10.1016/S0378-1127(02)00231-1
  46. RomAn, M. and Eric, B. 2006. The marketing of Lactarius deliciosus in northern spain. Economic Botany 60(3): 284-290. https://doi.org/10.1663/0013-0001(2006)60[284:TMOLDI]2.0.CO;2
  47. Robert, F. 1980. Mycorrhizae and nutrient cycling in natural forest ecosystems. New Phytologist 86: 199-212. https://doi.org/10.1111/j.1469-8137.1980.tb03189.x
  48. Rokuya I., Yoshio O. and Tsuguo H. 2012. Japanese mushrooms. Yama-kei Publishers. Tokyo. pp.639.
  49. Savoie, J.M. and Largeteau, M.L. 2011. Production of edible mushrooms in forests: trends in development of a mycosilviculture. Applied Microbiology Biotechnology 89: 971-979. https://doi.org/10.1007/s00253-010-3022-4
  50. Schlosser, W.E. and Blatner, K.A. 1995. The wild edible mushroom industry of washington, Oregon and Idaho: A 1992 survey. Journal of Forestry 93: 31-36.
  51. Seok, S.J., Lim, Y.W., Kim, C.M., Ka, K.H, Lee. J.S., Han, S.K., Kim, S.O., Her, J.S., Hyun, I.H., Hong, S.K., Kim, Y.S. and Lee T.S. 2013. List of mushrooms in korea. The Korean Society of Mycology. Seoul. pp.576.
  52. Shaw, P., Kibby, G. and Maves, J. 2003. Effects of thinning treatment on an ectomycorrhizal succession under scots pine. Mycological Research 107(3): 317-328. https://doi.org/10.1017/S0953756203007238
  53. Shanon, C.E. and Weaver, W. 1963. The mathematical theory of communication. University of Illinois Press, Urbana. pp.14-16.
  54. Shearer, B.L. 1992. The ecological implications of disease in the southern forest of southwestern Australia. pp. 99-113. In: Lewis, M. Research on the impact of forest management in south western australia. CALM occasional paper - Western Australia Department of Consevation and Land Management. Como.
  55. Simon, E., Francois, A., Martina, P., Britta, E. and Andrea, R. 2010. Is forest mushroom productivity driven by tree groth? result from a thinning experiment. Annals of Forest Science 67(2010): 509. https://doi.org/10.1051/forest/2010011
  56. Smith, S.E. and Read, D.J. 2008. Mycorrhizal symbiosis. Academic press. Londond. Uk. pp.785.
  57. Sung, J.M., Jung, B.S. Yang, K.J., Lee, H.K. and Harrington, T.C. 1995, Production of Gastrodia elata tuber using Armillaria spp. The Korean Journal of Mycology 23(1): 61-70.
  58. Twieg, B.D., Durall, D.M. and Simard, S.W. 2007. Ectomycorrhizal fungal succession in mixed temperate forests. New Phytologist 176(2): 437-447. https://doi.org/10.1111/j.1469-8137.2007.02173.x
  59. Van Esas, J.D. and Trevors, J.T. 1997. Modern soil microbiology. Marcel Dekker, Inc. New York. pp.63-126.
  60. Westhoff, V. and E. van der maarel. 1973. The braun-blanquet approach. pp. 167-726. In : R. H. Whittaker. Ordination and classification of communities(handbook of vegetation science). Springer Verlag. Hague.
  61. Winder, R.S. and Keefer, M.E. 2008. Ecology of the 2004 morel harvest in the rocky mountain forest district of british columbia. Botany 86(1): 1152-1167. https://doi.org/10.1139/B08-045
  62. Youn, H.J., Woo, C.S. and Lee, C.W. 2011. Effects of forest tending on landslide. Journal of Korean Forest Society 100(3): 417-422.