南仁山區亞熱帶雨林凋落物量及其養分含量之研究

Shiang-Yao Liu; 劉湘瑤

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/76051

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.author	Shiang-Yao Liu	en
dc.contributor.author	劉湘瑤	zh_TW
dc.date.accessioned	2021-07-01T08:17:35Z	-
dc.date.available	2021-07-01T08:17:35Z	-
dc.date.issued	1994
dc.identifier.citation	王鑫 1985，墾丁國家公園地形景觀史前文化及生態資源（王德琦編）。內政部營建署墾丁國家工園管理處。25-39頁。王國雄 1993，南仁山亞熱帶雨林小苗不同生育地存活、生長研究。國立臺灣大學植物科學研究所碩士論文。江斐瑜 1991，南仁山區環境對土壤性質及化育作用之影響。國立臺灣大學農業化學研究所碩士論文。李意德、曾慶波、吳仲民、杜志鵠、周光益、陳步峰、張振才、陳煥強 1992，尖峰嶺熱帶山地雨林生物量的初步研究。植物生態與地植物學報16(4):293-299。林國銓1990，從森林生態觀點談枯枝落葉之分解。臺灣林業16(9):15-25,31。薑家華、劉興旺 1989，樹齡與季節對柳杉枯枝落葉量及養分含量之影響。台大實驗林研究報告3(1):1-20。柳搢 1970，臺灣植物群落分類之研究III．臺灣闊葉林諸群系及熱帶疏林群系之研究。國家科學委員會年報第4號1-36頁。翁叢、李志安、屠夢照、姚文華 1993，鼎湖山森林凋落物量及營養元素含量研究。植物生態與地植物學報17(4):299-304。張峻德、徐正鐘 1987，柳杉、杉木林脫落枝葉量及養分含量之季節性變化。中華林學季刊20(4):47-64。陸象豫、漆陞忠、盧惠生 1988，不同林相枯枝落葉層物理及水文特性之研究。林業試驗所研究報告季刊3(1):363-377。章樂民 1967，恆春半島季風林生態之研究。林試所研究報告145號。劉棠瑞、蘇鴻傑 1989，森林植物生態學。第三版。台灣商務印書館印行。臺北。共462頁。鄭育斌 1992，南仁山區亞熱帶雨林地被層植物之研究。國立臺灣大學植物科學研究所碩士論文。謝宗欣、謝長富 1991，南仁山區亞熱帶雨林樹種組成和分佈類型。臺灣省立博物館年刊33:121-146。謝長富、孫義方、謝宗欣、王國雄 1991，墾丁國家公園亞熱帶雨林永久樣區之調查研究。墾丁國家公園管理處保育研究報告第76號。謝長富、陳尊賢、孫義方、謝宗欣、鄭育斌、王國雄、蘇夢淮、江斐瑜 1992，墾丁國家公園亞熱帶雨林永久樣區之調查研究。墾丁國家公園管理處保育研究報告第85號。謝長富和蘇夢淮 1991，自然保護區生態基準資料庫之建立（五）。行政院農委會79年生態研究第007號。蘇夢淮 1993，南仁山區亞熱帶雨林樹冠層葉片結構之研究。國立臺灣大學植物科學研究所碩士論文。蘇鴻傑 1987，森林生育地因數及其定量評估。中華林學季刊20(1):1-14。 Abrams, M.D. and E.S. Menges. 1992. Leaf ageing and plateau effects on seasonal pressure-volume relationships in three sclerophyllous Quercus species in south-eastern USA. Func. Ecol. 6:353-360. Anderson, J.M., J. Proctor and H.W. Vallack. 1983. Ecological studies in four contrasting lowland rain forests in Gunung Mulu national park, Sarawak. III. Decomposition processes and nutrient losses from leaf litter. J. Ecol. 71:503-528. Anderson, J.M. and M.J. Swift. 1989. Decomposition in tropical forests. in J. Proctor. (ed.) Mineral Nutrients in Tropical Forest and Savanna Ecosystems. pp287-309. Blackwell Scientific Publication. Oxford. Baker, D.E. and N.H. Suhr. 1982. Atmotic absorption and flame emmission spectrometry. in A.L. Page. (ed.) Methods of soil analysis, Part 2. pp13-26. American Society of Agronomy, Soil Science Society of America, Madison, Wisconsin, USA. Beadle, N.C. 1966. Soil phosphate and its role in molding segments of the Australian flora and vegetation, with special reference to xeromorphy and sclerophylly. Ecology 47(6):992-1007. Beare, M.H., R.W. Parmelee, P.F. Hendrix and W. Cheng. 1992. Microbial and faunal interactions and decomposition in agroecosystem. Ecol. Monogr. 62(4):569-591. Bloomfield, J., K.A. Vogt, and D.J. Vogt. 1993. Decay rate and substrate quality of fine roots and foliage of two tropical tree species in the Luquillo Experimental Forest, Puerto Rico. Plant and Soil 150:233-245. Boojh, R. and P.S. Ramakrishnan. 1982. Litterfall pattern in a subtropical evergreen montane forest in North-East India. Geo-Eco-Trop. 6(1):33-44. Brasell, H.M., G.L. Unwin and G.C. Stocker. 1980. The quantity, temporal distribution and mineral-element content of litterfall in two forest types at two sites in tropical Australia. J. Ecol. 68:123-139. Bremner, J.M. and C.S. Mulvaney. 1982. Nitrogen-Total. in A.L. Page. (ed.) Methods of soil analysis, Part 2. pp595-624. American Society of Agronomy, Soil Science Society of America, Madison, Wisconsin, USA. Brown, S. and A.E. Lugo. 1982. The storage and production of organic matter in tropical forests and their role in the global cycle. Biotropica 14(3):161-187. Coelho Neto, A.L. 1987. Overland flow production in a tropical rain forest catchment: The role of litter cover. Catena 14:213-232. Dantas, M. and J. Phillipson. 1989. Litterfall and litter nutrient content in primary and secondary Amazonian 'terra firme' rain forest. J. Trop. Ecol. 5:27-36. Edwards, P.J. 1977. Studies of mineral cycling in a montane rain forest in New Guinea. II. The production and disappearance of litter. J. Ecol. 65:971-992. Edwards, P.J. 1982. Studies of mineral cycling in a montane rain forest in New Guinea. V. Rates of cycling in throughfall and litter fall. J. Ecol. 70:807-827. Ewel, J.J. 1976. Litter fall and leaf decomposition in a tropical forest succession in eastern Guatemala. J. Ecol. 64:293-308. Facelli, J.M. and T.A. Pickett. 1991. Plant litter: Its dynamics and effects on plant community structure. Bot. Rev. 57(1):1-32. Grubb, P.J. and P.J. Edwards. 1982. Studies of mineral cycling in a montane rain forest in New Guinea. III. The distribution of mineral elements in the above-ground material. J. Ecol. 70:623-648. Heaney, A. and J. Proctor. 1989. Chemical elements in litter in forests on Volcan Barva, Costa Rica. in J. Proctor. (ed.) Mineral Nutrients in Tropical Forest and Savanna Ecosystems. pp255-271. Blackwell Scientific Publication. Oxford. Huang, J.W., D.L. Grunes and L.V. Kochian. 1994. Voltage-dependent Ca2+ influx into right-side-out plasma membrane vesicles isolated from wheat roots: Characterization of a putative Ca2+ channel. Proc. Natl. Acad. Sci. 91:3473-3477. Israels, A.Z. 1984. Redundancy analysis for qualitative variables. Psychometrika 49(3):331-346. John, D.M. 1973. Accumulation and decay of litter and net production of forest in tropical West Africa. Oikos 24:430-435. Jordan, C.F. 1971. A world pattern in plant energetics. Am. Sci. 59:425-433. Khiewtam, R.S. and P.S. Ramakrishnan. 1993. Litter and fine root dynamics of a relict sacred grove forest at Cherrapunji in north-eastern India. For. Ecol. Manage. 60:327-344. Lambert, J.D.H., J.T. Arnason and J.L. Gale. 1980. Leaf-litter and changing nutrient nutrient levels in a seasonally dry tropical hardwood forest, Belize, C.A. Plant and Soil 55: 429-434. Lim, M.T. 1978. Litterfall and mineral nutrient of litter in Pasoh Forest Reserve. Malay. Nat. J. 30(2): 375-380. Lowman, M.D. 1984. An assessment of techniques for measuring herbivory: is rainforest defoliation more intense than we thought Biotropica 16(4):264-268. Lowman M.D. 1988. Litterfall and leaf decay in three Australian rainforest formations. J. Ecol. 76:451-465. Lowman M.D. 1992. Leaf growth dynamics and herbiory in five species of Australian rain-forest canopy trees. J. Ecol. 80: 433-447. Martinez-Yrizar, A. and J. Sarukhan. 1990. Litterfall pattern in a tropical deciduous forest in Mexico over a five-year period. J. Trop. Ecol. 6:433-444. McClaugherty, C.A., J. Pastor, J.D. Aber, and J.M. Melillo. 1985. Forest litter decomposition in relation to soil nitrogen dynamics and litter quality. Ecology 66:266-275. Meentemeyer, V., E.O. Box, and R. Thompson. 1982. World patterns and amounts of terrestrial plant litter production. Bioscience 32(2):125-128. Miyaura, T. and K. Hozumi. 1985. Measurement of litterfall in a Hinoki (Chamaecyparis obtusa S. et Z.) plantation by the clothing-trap method. J. Jap. For. Soc. 67(7):271-277. Molofsky, J. and C.K. Augspurger. 1992. The effect of leaf litter on early seedling establishment in a tropical forest. Ecology 73(1):68-77 Morellato, L.P.C. 1992. Nutrient cycling in two south-east Brazilian forest. I. Litterfall and litter standing crop. J. Trop. Ecol. 8:205-215. Muoghalu, J.I., S.O. Akanni and O.O. Eretan. 1993. Litter fall and nutrient dynamics in a Nigerian rain forest seven years after a ground fire. J. Veg. Sci. 4:323-328. Nadkarni, N.M. and T.J. Matelson. 1991. Fine litter dynamics within the tree canopy of a tropical cloud forest. Ecology 72(6):2071-2082. Nadkarni, N.M. and T.J. Matelson. 1992. Biomass and nutrient dynamics of epiphytic litterfall in a neotropical montane forest, Costa Rica. Biotrapica 24(1):24-30. Novozamsky, I., V.J.G. Houba, R. van Eck and W. van Vark. 1983. A novel digestion technique for muti-element plant analysis. Commun. In Soil Sci. Plant Anal. 14(3):239-248. Odum, E.P. 1971. Fundamentals of Ecology. Third Edition. pp.117-138. W.B. Saunders Company. Philadelphia. Olsen, S.R. and L.E. Sommers. 1982. Phosphorus. in A.L. Page. (ed.) Methods of soil analysis, Part 2. pp403-427. American Society of Agronomy, Soil Science Society of America, Madison, Wisconsin, USA. Olson, J.S. 1963. Energy storage and the balance of producers and decomposers in ecological systems. Ecology 44(2):322-331 Orndorff, K.A. and G.E. Lang. 1981. Leaf litter redistribution in a west Virginia hardwood forest. J. Ecol. 69:225-235. Pant, S.C. and S.C. Tiwari. 1992. Litterfall and litter decomposition in a montane oak forest of Garhwal Himalaya. Trop. Ecol. 33(1):103-109 Pillers, M.D. and J.D. Stuart. 1993. Leaf-litter accretion and decomposition in interior and coastal old-growth redwood stands. Can. J. For. Res. 23:552-557. Proctor, J. 1983a. Tropical forest litterfall. I. Problems of data comparison, in S.L. Sutton, T.C. Whitmore and A.C. Chadwick (eds.). Tropical Rain Forest: Ecology and Management. pp.267-273. Blackwell Scientific Publications. UK. Proctor, J. 1983b. Tropical forest litterfall. II. The data set. in S.L. Sutton and A.C. Chadwick (eds.). Tropical Rain Forest: Ecology and Management Supplementary Volume. pp.83-113. Blackwell Scientific Publications. UK. Proctor, J., J.M. Anderson, S.C.L. Fogden and H.W. Vallack. 1983. Ecological studies in four contrasting lowland rain forests in Gunung Mulu national park, Sarawak. II. Litterfall, litter standing crop and preliminary observations on herbivory. J. Ecol. 71:261-283. Proctor, J., C. Phillipps, G.K. Duff, A. Heaney and F.M. Robertson. 1989. Ecological studies on Gunung Silam, a small ultrabasic mountain in Sabah, Malaysia. II. Some forest processes. J. Ecol. 77:317-331. Richards, P.W. 1964. The Tropical Rain Forest an Ecological Study. pp.136-204. Cambridge University Press. Great Britain. Rochow, J.J. 1975. Mineral nutrient pool and cycling in a Missouri forest. J. Ecol. 25:80-85. Rogers, R.W. and W.E. Westman. 1977. Seasonal nutrient dynamics of litter in a subtropical eucalypt forest, North Stradbroke Island. Aust. J. Bot. 25:47-58. SAS Institute. 1988. SAS/STAT User's Guide. Release 6.03 ed. SAS Inst., Cary. NC. Scott, D.A, J. Proctor and J. Thompson. 1992. Ecological studies on a lowland evergreen rain forest on Maraca Island, Roraima, Brazil. II. Litter and nutrient cycling. J. Ecol. 80:705-717. Songwe, N.C., F.E. Fasehun, and D.U.U. Okali. 1988. Litterfall and productivity in a tropical rain forest, Southern Bakundu Forest Reserve, Cameroon. J. Trop. Ecol. 4:25-37. Su, H.J. 1985. Studies on the climate and vegetation types of the natural forest in a scheme of geographical climatic regions. Quart. J. Chin. For. 17(3):1-14. Sumida, A. 1991. Litterfall in a secondary forest with special reference to the relationships between leaf-fall rate, basal area and relative growth rate on a species basis. Ecol. Res. 6:51-62. Sun, I.F. 1993. The Species Composition and Forest Structure of a Subtropical Rain Forest at Southern Taiwan. Ph.D thesis. California University. Berkeley. Swift, M.J. and J.M. Anderson. 1992. Decomposition. in Lieth, H. and M.J.A. Werger. (eds.) Ecosystems of The World 14B: Tropical Rain Forest Ecosystems-Biogeographical and Ecological Studies. pp547-569. Elsevier Science Publishers B.V. New York. Sydes, C. and J.P. Grime. 1981. Effect of tree leaf litter on herbaceous vegetation in deciduous woodland. I. Field investigation. J. Ecol. 69:237-248. Sykes, J.M. and R.G.H. Bunce. 1970. Fluctuations in litter-fall in a mixed deciduous woodland over a three-year period 1966-68. Oikos 21:326-329. Tanner, E.V.J. 1980. Litterfall in montane rain forests of Jamaica and its relation to climate. J. Ecol. 68:833-848. Tanner, E.V.J. 1981. The decomposition of leaf litter in Jamaican montane rain forest. J. Ecol. 69:263-273. Tanner, E.V.J., V. Kapos and W. France. 1992. Nitrogen and phosphrus fertilization effects on Venezuelan montane forest trunk growth and litterfall. Ecology 73(1):78-86. Ter Braak, C.J.F. 1988. CANOCO- a FORTRAN program for canonical community ordination by [partial] [detrended] [canonical] correspondence analysis, principal components analysis and redundancy analysis (version 2.1). Agricultural Mathematics Group. Netherlands. Tsukamoto, J. 1991. Downhill movement of litter and its implication for ecological studies in three types of forest in Japan. Ecol. Res. 6:333-345. Upadhyay, V.P. 1993. Effect of initial litter quality on decomposition rates of the tree leaf litter in Himalayan forest ecosystems. Trop. Ecol. 34(1):44-50. Van Schaik, C.P. and E. Mirmanto. 1985. Spatial variation in the structure and litterfall of a Sumatran Rain Forest. Biotropica 17(3):196-205. Veneklaas, E.J. 1991. Litterfall and nutrient fluxes in two montane tropical rain forests, Colombia. J. Trop. Ecol. 7:319-336. Vitousek, P.M. 1984. Litterfall, nutient cycling, and nutrient limitation in tropical forests. Ecology 65(1):285-298. Vitousek, P.M. 1982. Nutrient cycling and nrtrient use efficiency. Am. Nat. 119(4):553-572. Weaver, P.L., E. Medina, D. Pool, K. Dugger, J. Gonzales-Liboy and E. Cuevas. 1986. Ecological observations in the dwarf cloud forest of the Luquillo Mounteins in Puerto Rico. Biotropica 18(1):79-85. Whitmore, T.C. and C.P. Burnham. 1984. Tropical Rain Forests of the Far East. pp.106-134. Oxiford University Press. Oxford. UK. Woods, F.W. and C.M. Gallegos. 1970. Litter accumulation in selected forests of the Republic of Panama. Biotropica 2(1): 46-50.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/76051	-
dc.description.abstract	本研究於南仁山亞熱帶雨林三公頃永久樣區內，採用系統取樣法設立50個收集網，按月收集凋落物，分成葉、枝條、花、果和碎屑等部份，且依樹種分別記錄乾重量。並分析落葉中氮、磷、鉀、鈣和鎂等元素含量，以及收集地面落葉層以測定分解商數。年凋落物總量1992年為5.16t/ha，1993年為5.81t/ha，與其他亞熱帶森林相比，本區凋落物量偏低。樣區中各生育地之凋落物量，以背風坡區高於迎風坡區。凋落高峰期出現在3、4月生長季和9-12月盛行東北季風時期，並受颱風和焚風影響而導致較高的落葉量。此外，各組成樹種在季節性變化的表現上有所不同，依高峰出現時間大致分為東北季風期、生長季和無明顯高峰期等三種類型。經由RDA和變方分析的結果，落葉之養分含量在不同地形、植被類型和月份間皆有差異。營養元素中氮和磷含量較其他熱帶和亞熱帶森林為低；落葉分解商數為1.71，表示分解速率快。可見本區森林養分利用效率頗高，營養循環情況良好。南仁山區在各項地形氣候因素共同作用下，形成了不同植物社會，而造成凋落物在質與量上的不同，進而影響營養元素之含量。	zh_TW
dc.description.abstract	Fifty traps were placed in a systematic design within a 3-ha permanent plot established in Nanjenshan Subtropical Rain Forest. Litterfall was collected over a 2-year period. All sample were seperated into leaves, branches, flowers, fruits and miscellaneous fraction, each of which were then sorted into species level. Concentrations of nitrogen, phosphorus, potassium, calcium and magnesium in leaf-litter were analyzed, and decomposition quotient (KL) values were calculated from the amount of collected litterfall on the ground surface per unit area. Annual litterfall for 1992 and 1993 were 5.16t/ha and 5.81t/ha; respectively, less than the production observed in most subtropical forests. The results of ANOVA indicated that litter production was significantly higher in leeward region than in windward region within the permanent plot. There were two pronounced peaks of total litterfall which seemed to occurred in growing seasons (from March to April) and during the north-eastern monsoon periods (from September to December). Besides, typhoon and foehn might cause much leaf and branch fall as well. The patterns of leaf fall varied with tree species. Thay markedly fell into 3 different patterns. Results of RDA and ANOVA test indicated that there were significant differences in nutrient content between different topographic positions, vegetation types and seasons. The concentrations of nitrogen and phosphorus in leaf-litter were considerably lower in comparison to those estimated in other tropical and subtropical ecosystems. However, the average of decomposition quotient value, calculated as 1.71, showed a high decomposition rate. These suggested a high nutrient use efficiency and a fast nutrient cycling seemed to occur in the forest.	en
dc.description.provenance	Made available in DSpace on 2021-07-01T08:17:35Z (GMT). No. of bitstreams: 0 Previous issue date: 1994	en
dc.description.tableofcontents	表目錄……………………………………………………III 圖目錄……………………………………………………IV 中文摘要……………………………………………………V 英文摘要……………………………………………………VI 壹、前言……………………………………………………1 貳、研究區域概況……………………………………………………5 一、地理位置……………………………………………………5 二、氣候條件……………………………………………………5 三、植被概況說明……………………………………………………10 參、研究方法……………………………………………………14 一、凋落物的收集及分析……………………………………………………14 二、營養元素含量測定……………………………………………………16 三、地面落葉層分解速率測定……………………………………………………17 四、資料分析……………………………………………………18 肆、結果……………………………………………………21 一、年凋落物量及其空間分佈和季節性變化……………………………………………………21 二、營養元素含量分析……………………………………………………36 三、凋落物分解商數……………………………………………………47 伍、討論……………………………………………………48 一、凋落物量與其他森林之比較……………………………………………………48 二、樹種與凋落物量季節性變化之關係……………………………………………………52 三、生育地對凋落物量之影響……………………………………………………55 四、營養元素含量比較……………………………………………………56 五、分解速率……………………………………………………59 陸、參考文獻……………………………………………………62 附錄一、凋落物取樣區域主要樹種重要值和頻度表……………………………………………………72 附錄二、各樹種凋落物量季節性變化圖……………………………………………………74 附錄三、凋落物組成植物名錄……………………………………………………81 附錄四、1991年到1993年侵襲台灣南部颱風警報發佈概況……………………………………………………86 照片一、1991年10月焚風發生後南仁山區森林景象……………………………………………………87
dc.language.iso	zh-TW
dc.title	南仁山區亞熱帶雨林凋落物量及其養分含量之研究	zh_TW
dc.title	Litterfall Production and Nutrient Content in Nanjenshan Subtropical Rain Forest	en
dc.date.schoolyear	82-2
dc.description.degree	碩士
dc.relation.page	87
dc.rights.note	未授權
dc.contributor.author-dept	生命科學院	zh_TW
dc.contributor.author-dept	植物科學研究所	zh_TW
顯示於系所單位：	植物科學研究所

文件中的檔案：

沒有與此文件相關的檔案。

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。