Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/98144
標題: 台灣森林遊樂區之芬多精成分與負離子含量解析
Deciphering the Composition of Phytoncides and the Amount of Negative Ions in Taiwan Forest Recreation Area
作者: 林昱德
Yu-Te Lin
關鍵字: 森林遊樂區;森林療癒;芬多精;負離子;空氣離子評價係數;Forest recreation area;Forest therapeutic;Phytoncides;Negative ion;Air ion evaluation coefficient index(CI)
引用: 上原巖 (2013a) 療癒之森:進入森林療法的世界。張老師文化。 上原巖 (2013b) 樂活之森:森林療法的多元應用。張老師文化。 王升陽、張上鎮 (2010) 森林裏的芳香維他命。台灣林業36(4): 29 - 33。 王升陽(2016)森林芳香維他命 ─ 山氣日夕佳,飛鳥相與還;此中 有真意,欲辯已忘言。林業研究專訊23(5):11 - 13。 王洪俊(2004)城市森林結構對空氣負離子水平的影響。南京林業大 學學報28(5)96 - 98。 王秀英(2015)淺析空氣負離子的研究及其對城市環境的影響。工程 技術59(5)14 - 18。 林群雅、張上鎮、陳盈如、鄭森松(2016)臺灣森林芬多精釋出量監 測及其功效 ― 以柳杉為例。林業研究專訊23(3):48 - 51。 宗美娟、王仁卿、趙坤(2004)大氣環境中的負離子與人類健康。山 東林業科技151(2):32 - 34。 郭巠茂、杜天真、賴勝男、廖為明(2006)城市绿地對空氣負離子的 影響」,河北師範大學學報30(4):478 - 482。 郭建平、吳甫成、謝玉華、熊建安、馮發林(2007)桂東縣各旅遊景 區空氣負離子變化研究。湖南師範大學自然科學學報30(1):110 – 114。 陳啟榮、溫婷媛、王升陽(2012)關於森林浴與森林芬多精研究主題 之發展介紹。台灣林業38(4):41- 45。 徐中芃、邱祈榮(2016)日本的森林療癒發展與定位。林業研究專訊 23(5):20 - 26 章志攀、俞益武、張明如、杜晴洲、陳建新、毛鳳成(2008)天目山 空氣負離子濃度變化及其與環境因子的關係。浙江林學院學報25(4)481 -85。 Al-Rahmah, A. N., A. A. Mostafa, A. Abdel-Megeed, S. M. Yakout and S. A. Hussein(2013)Fungicidal activities of certain methanolic plant extracts against tomato phytopathogenic fungi. African Journal of Microbiology Research Vol. 7(6):517 – 524. Bahi, A., S. Al Mansouri, E. Al Memari, M. Al Ameri, S. M. Nurulain and S. Ojha(2014)β-Caryophyllene, a CB2 receptor agonist produces multiple behavioral changes relevant to anxiety and depression in mice. Physiol. Behav.135:119 -124. Chen, C. J., F. H. Chu, S. C. Chien, N. W. Tsao and S. Y. Wang(2013)Comparative analysis of phytoncides released from Liquidambar formosana Hance trees and seedlings. J. Agri. & Fore. 62(2): 137-144. Chen, W. W., C. T. Lin, F. H. Chu, S. T. Chang and S. Y. Wang(2009)Neuropharmacological activities of phytoncide released from Cryptomeria japonica.J Wood Sci. 55:27 – 31. Duka, R. and D. Ardelean(2010)Phytoncides and phytoalexins – vegetal antibiotics. J. Med. Aradean 8(3):19 – 25. Iwama, H.(2004)Negative air ions created by water shearing improve erythrocyte deformability and aerobic metabolism. Indoor Air 2004; 14: 293 – 297. Karjalainen, E., T. Sarjala and H. Raitio(2010). Promoting human health through forests: overview and major challenges. Environmental Health and Preventive Medicine 15(1):1 - 8. Kellogg, E. W.(1984)Air ions:their possible biological, significant and effects. J. of Bioelectricity 3(1-2):119 – 136. Komori, T., R. Fujiwara, M. Tanida, J. Nomura and M.M. Yokoyama(1995)Effects of citrus fragrance on immune function and depressive states. Neuroimmunomodulation 2(3):174 - 80. Li, Q.(2010)Effects of forest bathing trips on human immune function. Environ. Helath Prev. Med. 15:9 -17. Morita, E., S. Fukuda, J. Nagano, N. Hamajima, H. Yamamoto, Y. Iwai, T. Nakashima , H. Ohira, and T. Shirakawa(2007) Psychological effects of forest environments on healthy adults: Shinrin-yoku (forest-air bathing, walking) as a possible method of stress reduction. Public Health 121:54 - 63. Ohtsuka, Y., N. Yabunaka and S. Takayama(1998) Shinrin-yoku(forest-air bathing and walking) effectively decreases bloodglucose levels in diabetic patients. Int. J. Biometeorol 41:125 - 127. Park, B. J., Y. Tsunetsugu, T. Kasetani, T. Morikawa, T. Kagawa and Y. Miyazaki(2009)Physiological effects of forest recreation in a young conifer forest in Hinokage Town, Japan. Silva Fennica. 43:291-301. Rivas da Silva, A. C., P. M. Lopes, M. M. Barros de Azevedo, D. C. M. Costa, C. S. Alviano and D. S. Alviano(2012) Biological activities of α-pinene and β-pinene enantiomers. Molecules. 17(6):6305 – 6316. Shirazi, M.T., H. Gholami, G. Kavoosi, V. Rowshan, A. Tafsiry.(2014) Chemical composition, antioxidant, antimicrobial and cytotoxic activities of Tagetes minuta and Ocimum basilicum essential oils. Food Sci Nutr. 2(2):146-55. Ulrich, R. S.(1984)View through a window may influence recovery from surgery. Science. 224:420-42. Valente, J., M. Zuzarte, M. J. Gonçalves, M.C. Lopes, C. Cavaleiro, L. Salgueiro and M. T. Cruz(2013) Antifungal, antioxidant and anti-inflammatory activities of Oenanthe crocata L. essential oil. Food Chem Toxicol.62:349 – 54. Yamaguchi, M., M. Deguchi, J. Wakasugi, S. Ono, N. Takai, T. Higashi and Y. Mizuno(2006) Hand-held monitor of sympathetic nervous system using salivary amylase activity and its validation by driver fatigue assessment. Biosens Bioelectron. 21(7):1007-1014.
摘要: 
現代人由於生活緊張且壓力較大,對於壓力的舒解成為大眾重視
的課題,其中森林療癒則是目前熱門的紓壓方式之一,人們藉由親近森林,體會森林的幽靜,以此紓解長期累積的壓力。

為了瞭解台灣森林環境中芬多精成分與負離子含量,本研究選定
林務局管轄之8處森林遊樂區,進行園區內芬多精及負離子監測調查,另於都會區選定2地點作為對照組。測定項目包括各場所之芬多精組成成分和正、負離子濃度,並以正、負離子濃度計算空氣離子評價係數(CI),並將不同季節的結果互相比對。

研究結果顯示,季節、植物的密度高低以及海拔高度與負離子含
量並沒有顯著關係,而與監測的場所是否具有瀑布、溪流等水文條件以及短時間大量的降雨有關,顯示出水量越豐沛則所測得的負離子數量越高。而芬多精的部分,不同季節所測得之結果,其主成分種類變化不大,各季節的芬多精組成分相似,含量比例則互有增減。另外,位於不同地區的同樣樹種,由於樹齡、採集時間等因素影響,其主成分與比例也會有所不同。本次研究結果除了提供林業主管機關作為推展森林療癒活動場域之資料外,亦可作為民眾從事遊憩時之參考。

Nowadays, because of the stress and pressure is more than the past,
so how to relieve the stress has become an important of public concern. Forest therapeutic is one of the popular methods to reduce the pressure of life. People approach the forest and experience the peaceful of the forest to solve the long-time cumulative pressure.

In order to understand the composition of phytoncides and negative
ions in Taiwan's forest recreation areas, we selected representative 8 forest recreation areas, which were operated by Forestry Bureau of Taiwan to monitor and investigate the phytoncides and negative ions. In addition, two locations in the city were also selected as the control groups. The measurement items include the phytoncides components, the positive, and negative ions values and the air ion evaluation coefficient index(CI) using the positive and negative ion values, and the results of different seasons are compared with each other.


The results indicated that the seasons, plant density, and altitude
were not significantly related to the negative ion content, but whether the monitored sites have hydrological conditions such as waterfalls, streams, and a large amount of rainfall in a short time. This results showed that the high humidity, the more amount of negative ions will be measured. As regard to phytoncides, which did not show a significant different of main component to different analyzed time. The phytoncides composition in each season was similar, and the content ratio will increases or decreases. In addition, if the same species in different collection area, their composition of phytoncides will different.

The results could not only provide forestry agency for popularize
forest therapeutic, but also as the reference for people to plan to recreation.
URI: http://hdl.handle.net/11455/98144
Rights: 同意授權瀏覽/列印電子全文服務,2018-08-29起公開。
Appears in Collections:森林學系

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