簡易檢索 / 詳目顯示

研究生: 劉子揚
LIU, TZU-YANG
論文名稱: 臺灣東北部天然闊葉林與柳杉人工林林下光照環境及林下植物多樣性之比較
A Comparison of Understory Light Environments and Understory Plants Diversity Between A Natural Hardwood Forest and A Cryptomeria Japonica Plantation in Northeast Taiwan
指導教授: 林登秋
Lin, Teng-Chiu
學位類別: 碩士
Master
系所名稱: 生命科學系
Department of Life Science
論文出版年: 2012
畢業學年度: 100
語文別: 中文
論文頁數: 70
中文關鍵詞: 柳杉人工林多樣性光照環境半球面影像光合作用速率
英文關鍵詞: Cryptomeria japonica plantation, diversity, light environment, hemispherical photography, photosynthesis rate
論文種類: 學術論文
相關次數: 點閱:280下載:16
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報

  林下植物會影響森林底層微氣候、樹苗建立與營養環循環,無論在天然林或人工林中皆扮演重要角色。本研究調查臺灣東北部低海拔天然闊葉林與柳杉人工林,林下之植物多樣性、生物量、光照環境以及土壤養分,以評估林相差異對林下生物及物理環境的影響。
  研究結果顯示天然闊葉林的林下直散光與散射光立地係數及土壤養分含量皆高於柳杉人工林,但是林下植物多樣性顯著低於柳杉人工林;而林下植物生物量在兩種林相之間沒有顯著差異。此外研究亦發現林下植物多樣性與林下直射光立地係數有顯著負相關,且在林下光照較高的天然闊葉林中,冷清草 (Elatostema lineolatum Forse. var. major Thwait.) 有較高的光合作用速率與優勢,在柳杉人工林中則有所縮減,此結果支持在高光照環境中,某些物種擁有高競爭優勢,進而排除其他物種,使得生物多樣性降低,而此現象是否出現在臺灣其他森林中仍待進一步調查。

  Understory plants play an important role in both natural forests and plantations through their effects on the microclimate at forest floor, seedling establishment and nutrient cycling. We investigated plants diversity, plants biomass, light environments (using hemispherical photography) and soil nutrient under a low-elevation natural hardwood forest and a Cryptomeria japonica plantation located in northeast Taiwan.
  The result indicate that natural hardwood forest had higher understory light availabilities, soil nutrient content but lower understory plants diversity than Cryptomeria japonica plantation. There was no significant difference in understory plants biomass between the two forest type. Understory light availabilities had a significant negative correlation with understory plants diversity. Elatostema lineolatum Forse. Var. major Thwait. had higher photosynthesis rate and dominance in natural hardwood forest than in Cryptomeria japonica plantation. The result supports that some species had higher competitive ability and, therefore dominance in high light environments and as such, lead to a decrease in biodiversity. More studies are needed to validate whether the result found in northeastern Taiwan also exists in other forests in Taiwan.

壹、 研究背景與目的...........................................1 一、 森林資源..............................................1 二、 天然林與人工林.........................................3 三、 林下植物..............................................5 四、 光照環境..............................................6 五、 土壤養分..............................................7 六、 研究動機與目的.........................................8 貳、 研究地點...............................................10 一、 天然闊葉林...........................................10 二、 柳杉人工林...........................................11 三、 樣區設置.............................................13 參、 方法與材料.............................................15 一、 林下植物多樣性........................................16 二、 林下光照環境..........................................18 三、 林下植物光合作用曲線...................................19 四、 林下植物生物量........................................20 五、 土壤養分.............................................21 六、 統計方法.............................................21 肆、 結果..................................................22 一、 林下植物多樣性........................................23 二、 林下光照環境..........................................30 三、 林下植物光合作用曲線...................................34 四、 林下植物生物量........................................40 五、 土壤養分.............................................41 伍、 討論..................................................43 一、 林下光照環境..........................................47 二、 土壤養分.............................................48 三、 林下植物生物量........................................50 四、 林下植物多樣性........................................50 陸、 結論..................................................54 柒、 參考文獻...............................................56

王雪卿 (2009) 台灣中部低海拔天然林與人工林枯落物、枯落物分解、土壤養分之比較,國立彰化師範大學地理學系碩士論文。
白梅玲 (1999) 福山試驗林之景觀分類、植被分布推估與變遷評析,國立臺灣大學動物學研究所碩士論文。
行政院農業委員會林業試驗所 (2009) 林業試驗所福山研究中心氣象資料彙編 (2000年1月-2009年6月),臺北市:作者。
李欽國 (1995) 人造針葉林與天然闊葉林鳥類群聚之比較,國立臺灣大學動物學研究所碩士論文。
余瑞珠、江博能、江凱楹、王亞男、王明光 (2008) 溪頭柳杉人工林疏伐處理對於土壤養份動態之影響,中華林學季刊,第41卷,第3期,頁365-376。
余瑞珠、王亞男、蕭英倫、林法勤、柯淳涵 (2009) 人工造林與天然林對溪流水質之影響,中華林學季刊,第42卷,第4期,頁529-539。
林務局 (1995) 第三次台灣森林資源及土地利用調查,臺灣省農林廳林務局。
林國銓、洪富文、游漢明、馬復京 (1996) 福山試驗林闊葉林生態系地上部養分之聚集與分布,臺灣林業科學,第11卷,第1期,頁29-42。
林登秋、林則桐、江智民、夏禹九、金恆鑣 (1999) 颱風對臺灣東北部天然闊樹林林冠干擾之研究,中華林學季刊,第32卷,第1期,頁67-78。
林登秋、江智民 (2002) 半球面影像在森林生態研究的應用,臺灣林業科學,第17卷,第3期,頁387-400。
林文雄、林登秋、陳毓禎、紀正良 (2002) 臺灣東北部三種相鄰林分林下光照環境之比較,林業研究季刊,第24卷,第3期,頁49-58。
林元祥 (2007) 福山天然闊葉林內光照環境對種子存活與生長表現之影響,國立東華大學自然資源管理研究所碩士論文。
洪富文、程煒兒 (1996) 福山闊葉林生態系的土壤養分庫及其有效養分動態,臺灣林業科學,第11卷,第4期,頁465-473。
姚鶴年 (2004) 臺灣林業歷史課題系列(6)--臺灣超量伐木之時代背景,臺灣林業,第30卷,第2期,頁51-61。
袁孝維、謝欣怡、沈聖峰 (2004) 梅峰地區不同演替階段棲地鳥類相調查,國立臺灣大學生物資源暨農學院實驗林研究報告,第18卷,第1期,頁1-7。
翁世豪 (2004) 觀霧地區柳杉人工林不同強度疏伐後微環境及植群之比較,國立臺灣大學森林學研究所碩士論文。
翁世豪、沈介文、游啟皓、林謙佑、鍾年鈞、陳柏因等 (2011) 疏伐對柳杉林分生長結構及冠層下植物之影響,中華林學季刊,第44卷,第2期,頁157-181。
康若蘭、林登秋、詹進發、黃正良 (2005) 2000年碧利斯颱風干擾前後福山試驗林NDVI變動之研究,臺灣林業科學,第20卷,第1期,頁73-87。
許博行、郭孟斯 (1999) 關刀溪森林生態系三種林分之土壤理化性質及土壤水化學成分,林業研究季刊,第21卷,第3期,頁1-13。
陳佳慧 (2000) 關刀溪不同林分枯落物及土壤養分含量之動態變化,國麼中興大學森林學系碩士論文。
陳毓禎 (2001) 天然闊葉林與人工柳杉林林下植物生物量、多樣性、枯枝落葉層生物量及土壤之比較,國立彰化師範大學地理學系碩士論文。
陳鍵鑫 (2001) 防風林地斥水對土層養分循環之影響,國立中興大學水土保持學系士論文。
陳青香、林登秋、黃正良 (2007) 台灣中部蓮華池試驗林天然闊葉林與人工杉木林葉面積指數變動及其對初級生產力估算之影響,臺灣林業科,第22卷,第4期,頁423-439。
莊世滋 (2007) 從台灣林業開發過程談林業産業文化資産,「林業産業文化傳承研討會論文集」,國立嘉義大學,頁1-22。
楊承棟、焦如珍、屠星南、陳仲廬、熊有強 (1995) 發育林下植被是恢復杉木人工林地力的重要途徑,林業科學,第31卷,第3期,頁275-283。
鹿兒陽、朱珮綺、傅國銘、沈介文、彭靖媛、許崑衍 (2007) 臺灣中部觀山天然闊葉林枯落物動態及養分研究,中華林學季刊,第40卷,第4期,頁481-495。
蔡錦文、袁孝維、李思瑩、洪崇航、范中衍、丁宗蘇等 (2010) 杉木造林地疏伐對林下植被之影響,中華林學季刊,第43卷,第4期,頁581-592。
鄭欽龍 (1999) 國際森林認證制度及其對臺灣木材市場影響之探討,中華林學季刊,第32卷,第4期,頁495-504。
劉棠瑞、蘇鴻傑 (1983) 森林植物生態學,初版,台北:台灣商務印書館。
謝欣怡、袁孝維、丁宗蘇 (2005) 疏伐作業對野生動物多樣性之影響,臺灣林業科學,第31卷,第1期,頁17-20。
謝欣怡、袁孝維、王力平、丁宗蘇 (2006) 臺灣中部溪頭地區天然林與人工林內之陸域脊椎動物多樣性,中華林學季刊,第39卷,第4期,頁421-436。
蘇聲欣 (2006) 福山森林動態樣區的生態特色與重要性,林業研究專訊,第13卷,第2期,頁9-12。
Arthur, M., Tritton, L. and Fahey, T. (1993). Dead bole mass and nutrients remaining 23 years after clear-felling of a northern hardwood forest. Canadian Journal of Forest Research, 23(7), 1298-1305.
Augusto, L., Dupouey, J. L. and Ranger, J. (2003). Effects of tree species on understory vegetation and environmental conditions in temperate forests. Annals of Forest Science, 60(8), 823-831.
Augusto, L., Ranger, J., Binkley, D. and Rothe, A. (2002). Impact of several common tree species of european temperate forests on soil fertility. Annals of Forest Science, 59(3), 233-253.
Barbier, S., Gosselin, F. and Balandier, P. (2008). Influence of tree species on understory vegetation diversity and mechanisms involved--A critical review for temperate and boreal forests. Forest Ecology and Management, 254(1), 1-15.
Berg, B. and McClaugherty, C. (2003). Plant litter: Decomposition, humus formation Berlin: Springer-Verlag.
Berger, A. L. and Puettmann, K. J. (2000). Overstory composition and stand structure influence herbaceous plant diversity in the mixed aspen forest of northern minnesota. The American Midland Naturalist, 143(1), 111-125.
Binkley, D. (1995). The influence of tree species on forest soils: Processes and patterns. Special Publication-Agronomy Society of New Zealand, , 1-34.
Bolstad, P. V. and Gower, S. T. (1990). Estimation of leaf area index in fourteen southern wisconsin forest stands using a portable radiometer. Tree Physiology, 7(1-2-3-4), 115-124.
Brockerhoff, E. G., Ecroyd, C. E., Leckie, A. C. and Kimberley, M. O. (2003). Diversity and succession of adventive and indigenous vascular understorey plants in pinus radiata plantation forests in new zealand. Forest Ecology and Management, 185(3), 307-326.
Brook, B. W., Sodhi, N. S. and Ng, P. K. L. (2003). Catastrophic extinctions follow deforestation in singapore. Nature, 424(6947), 420-426.
Brown, N. (1996). A gradient of seedling growth from the centre of a tropical rain forest canopy gap. Forest Ecology and Management, 82(1-3), 239-244.
Butler, R., Montagnini, F. and Arroyo, P. (2008). Woody understory plant diversity in pure and mixed native tree plantations at la selva biological station, costa rica. Forest Ecology and Management, 255(7), 2251-2263.
Byard, R., Lewis, K. C. and Montagnini, F. (1996). Leaf litter decomposition and mulch performance from mixed and monospecific plantations of native tree species in costa rica. Agriculture, Ecosystems & Environment, 58(2-3), 145-155.
Carnevale, N. J. and Montagnini, F. (2002). Facilitating regeneration of secondary forests with the use of mixed and pure plantations of indigenous tree species. Forest Ecology and Management, 163(1-3), 217-227.
Clark, D. B., Clark, D. A., Rich, P. M., Weiss, S. and Oberbauer, S. F. (1996). Landscape-scale evaluation of understory light and canopy structure: Methods and application in a neotropical lowland rain forest. Canadian Journal of Forest Research, 26(5), 747-757.
Cubbage, F., Mac Donagh, P., Sawinski Junior, J., Rubilar, R., Donoso, P., Ferreira, A., et al. (2007). Timber investment returns for selected plantations and native forests in south america and the southern united states. New Forests, 33(3), 237-255.
DiTommaso, A. and Aarssen, L. (1989). Resource manipulations in natural vegetation: A review. Plant Ecology, 84(1), 9-29.
Fassnacht, K. S. and Gowerr, S. T. (1999). Comparison of the litterfall and forest floor organic matter and nitrogen dynamics of upland forest ecosystems in north central wisconsin. Biogeochemistry, 45(3), 265-284.
Food and Agriculture Organization. (2010). Global forest resource assessment 2010.
Fredericksen, T. S., Ross, B. D., Hoffman, W., Morrison, M. L., Beyea, J., N Johnson, B., et al. (1999). Short-term understory plant community responses to timber-harvesting intensity on non-industrial private forestlands in pennsylvania. Forest Ecology and Management, 116(1-3), 129-139.
Gough, L., Osenberg, C. W., Gross, K. L. and Collins, S. L. (2000). Fertilization effects on species density and primary productivity in herbaceous plant communities. Oikos, 89(3), 428-439.
Gulbrandsen, L. H. (2004). Overlapping public and private governance: Can forest certification fill the gaps in the global forest regime? Global Environmental Politics, 4(2), 75-99.
Hartley, M. J. (2002). Rationale and methods for conserving biodiversity in plantation forests. Forest Ecology and Management, 155(1-3), 81-95.
Hicks, D. J. (1980). Intrastand distribution patterns of southern appalachian cove forest herbaceous species. American Midland Naturalist, , 209-223.
Higgins, S. I. and Richardson, D. M. (1998). Pine invasions in the southern hemisphere: Modelling interactions between organism, environment and disturbance. Plant Ecology, 135(1), 79-93.
Higman, S. (2005). The sustainable forestry handbook: A practical guide for tropical forest managers on implementing new standards Earthscan/James & James.
Hill, M. (1973). Diversity and evenness: A unifying notation and its consequences. Ecology, 54(2), 427-432.
Hubbell, S. P., Foster, R. B., O'Brien, S. T., Harms, K., Condit, R., Wechsler, B., et al. (1999). Light-gap disturbances, recruitment limitation, and tree diversity in a neotropical forest. Science, 283(5401), 554-557.
Huebner, C. D., Randolph, J. and Parker, G. (1995). Environmental factors affecting understory diversity in second-growth deciduous forests. American Midland Naturalist, 134(1), 155-165.
Jennings, S. B., Brown, N. D. and Sheil, D. (1999). Assessing forest canopies and understorey illumination: Canopy closure, canopy cover and other measures. Forestry, 72(1), 59-73.
Jobbágy, E. G. and Jackson, R. B. (2003). Patterns and mechanisms of soil acidification in the conversion of grasslands to forests. Biogeochemistry, 64(2), 205-229.
Jonckheere, I., Fleck, S., Nackaerts, K., Muys, B., Coppin, P., Weiss, M., et al. (2004). Review of methods for in situ leaf area index determination: Part I. theories, sensors and hemispherical photography. Agricultural and Forest Meteorology, 121(1), 19-35.
Jost, L. (2006). Entropy and diversity. Oikos, 113(2), 363-375.
Kavvadias, V. A., Alifragis, D., Tsiontsis, A., Brofas, G. and Stamatelos, G. (2001). Litterfall, litter accumulation and litter decomposition rates in four forest ecosystems in northern greece. Forest Ecology and Management, 144(1-3), 113-127.
Kennedy, P. G. and Quinn, T. (2001). Understory plant establishment on old-growth stumps and the forest floor in western washington. Forest Ecology and Management, 154(1-2), 193-200.
Kindermann, G., Obersteiner, M., Sohngen, B., Sathaye, J., Andrasko, K., Rametsteiner, E., et al. (2008). Global cost estimates of reducing carbon emissions through avoided deforestation. Proceedings of the National Academy of Sciences, 105(30), 10302.
Kirby, K. (1988). Changes in the ground flora under plantations on ancient woodland sites. Forestry, 61(4), 317-338.
Klinka, K., Chen, H. Y. H., Wang, Q. and De Montigny, L. (1996). Forest canopies and their influence on understory vegetation in early-seral stands on west vancouver island. Northwest Science, 70(3), 193-200.
Kwok, H. and Corlett, R. T. (2000). The bird communities of a natural secondary forest and a lophostemon confertus plantation in hong kong, south china. Forest Ecology and Management, 130(1-3), 227-234.
Legare, S., Bergeron, Y., Leduc, A. and Pare, D. (2001). Comparison of the understory vegetation in boreal forest types of southwest quebec. Canadian Journal of Botany, 79(9), 1019-1027.
Lin, K. C., Hamburg, S. P., Tang, S., Hsia, Y. J. and Lin, T. C. (2003). Typhoon effects on litterfall in a subtropical forest. Canadian Journal of Forest Research, 33(11), 2184-2192.
Lin, T. C., Hamburg, S. P., Lin, K. C., Wang, L. J., Chang, C. T., Hsia, Y. J., et al. (2011). Typhoon disturbance and forest dynamics: Lessons from a northwest pacific subtropical forest. Ecosystems, 14(1), 127-143.
Müller, I., Schmid, B., & Weiner, J. (2000). The effect of nutrient availability on biomass allocation patterns in 27 species of herbaceous plants. Perspectives in Plant Ecology, Evolution and Systematics, 3(2), 115-127.
Ostertag, R., Giardina, C. P., & Cordell, S. (2008). Understory colonization of eucalyptus plantations in hawaii in relation to light and nutrient levels. Restoration Ecology, 16(3), 475-485.
Paritsis, J. and Aizen, M. A. (2008). Effects of exotic conifer plantations on the biodiversity of understory plants, epigeal beetles and birds in nothofagus dombeyi forests. Forest Ecology and Management, 255(5-6), 1575-1583.
Parrotta, J. A., Turnbull, J. W. and Jones, N. (1997). Catalyzing native forest regeneration on degraded tropical lands. Forest Ecology and Management, 99(1-2), 1-7.
Pawson, S. M., Brockerhoff, E. G., Meenken, E. D. and Didham, R. K. (2008). Non-native plantation forests as alternative habitat for native forest beetles in a heavily modified landscape. Biodiversity and Conservation, 17(5), 1127-1148.
Planchais, I. and Sinoquet, H. (1998). Foliage determinants of light interception in sunny and shaded branches of fagus sylvatica (L.). Agricultural and Forest Meteorology, 89(3-4), 241-253.
Prescott, C. E. (2002). The influence of the forest canopy on nutrient cycling. Tree Physiology, 22(15-16), 1193-1200.
Rametsteiner, E. and Simula, M. (2003). Forest certification—an instrument to promote sustainable forest management? Journal of Environmental Management, 67(1), 87-98.
Schlichter, T. M. and Laclau, P. (1998). Ecotono estepa-bosquey plantaciones forestales en la patagonia norte. Ecología Austral, 8(2), 285-296.
Schlenker, G. (1968). Experiments in culture with plants of the forest ground flora, subjected to different degrees of acidity and variations in the form of nitrogen supply. Acta Oecol, 3, 7-27.
Schnitzer, S. A. and Carson, W. P. (2001). Treefall gaps and the maintenance of species diversity in a tropical forest. Ecology, 82(4), 913-919.
Tappeiner, J. and Alm, A. (1975). Undergrowth vegetation effects on the nutrient content of litterfall and soils in red pine and birch stands in northern minnesota. Ecology, 56(5), 1193-1200.
Tappeiner, J., Zasada, J., Ryan, P. and Newton, M. (1991). Salmonberry clonal and population structure: The basis for a persistent cover. Ecology, 72(2), 609-618.
Tilman, D. (1982). Resource competition and community structure Princeton Univ Pr.
Turton, S. (1992). Understorey light environments in a north-east australian rain forest before and after a tropical cyclone. Journal of Tropical Ecology, 8(3), 241-252.
Vitousek, P. (1982). Nutrient cycling and nutrient use efficiency. American Naturalist, 119(4), 553-572.
Walter, J. M. N., Fournier, R. A., Soudani, K. and Meyer, E. (2003). Integrating clumping effects in forest canopy structure: An assessment through hemispherical photographs. Canadian Journal of Remote Sensing, 29(3), 388-410.
Wardle, D. A. and Zackrisson, O. (2005). Effects of species and functional group loss on island ecosystem properties. Nature, 435(7043), 806-810.
Weng, S. H., Kuo, S. R., Guan, B. T., Chang, T. Y., Hsu, H. W. and Shen, C. W. (2007). Microclimatic responses to different thinning intensities in a japanese cedar plantation of northern taiwan. Forest Ecology and Management, 241(1), 91-100.
Whitney, G. G. and Foster, D. R. (1988). Overstory composition and age as determinants of the understory flora of woods of central New England. Journal of Ecology, 76, 867-876.
Winjum, J. K. and Schroeder, P. E. (1997). Forest plantations of the world: Their extent, ecological attributes, and carbon storage. Agricultural and Forest Meteorology, 84(1-2), 153-167.
Wu, J., Liu, Z., Wang, X., Sun, Y., Zhou, L., Lin, Y., et al. (2011). Effects of understory removal and tree girdling on soil microbial community composition and litter decomposition in two eucalyptus plantations in south china. Functional Ecology, 25(4), 921-931.
Xiong, Y., Xia, H., Li, Z., Cai, X. and Fu, S. (2008). Impacts of litter and understory removal on soil properties in a subtropical acacia mangium plantation in china. Plant and Soil, 304(1), 179-188.
Yarie, J. (1980). The role of understory vegetation in the nutrient cycle of forested ecosystems in the mountain hemlock biogeoclimatic zone. Ecology, 61(6), 1498-1514.
Yirdaw, E. (2001). Diversity of naturally-regenerated native woody species in forest plantations in the ethiopian highlands. New Forests, 22(3), 159-177.
Zak, D. R. and Holmes, W. E. (1994). Soil microbial biomass dynamics and net nitrogen mineralization in northern hardwood ecosystems. Soil Science Society of America Journal, 58(1), 238-243.

下載圖示
QR CODE