题名

水土保持樹種碳存量估算參數之資料庫

并列篇名

Database for Carbon Stocks Estimation Variables of Tree Species Used in Soil and Water Conservation

DOI

10.29417/JCSWC.202206_53(2).0003

作者

趙國容(Kuo-Jung Chao);李佾儒(Yi-Ju Li);宋國彰(Guo-Zhang Michael Song);趙偉村(Wei-Chun Chao);張楊家豪(Chia-Hao Chang-Yang);江智民(Jyh-Min Chiang)

关键词

碳吸存 ; 生態系功能 ; 水土保持植物 ; 植生工程 ; Carbon sequestration ; ecosystem functioning ; soil and water conservation plants ; bioengineering

期刊名称

中華水土保持學報

卷期/出版年月

53卷2期(2022 / 06 / 01)

页次

100 - 110

内容语文

繁體中文

中文摘要

植生工程中所使用的樹木材料,除了有水土資源保育功能外,也能吸存大氣中的溫室氣體CO_2,減緩溫室效應。本研究透過文獻資料蒐集與實際測量,建置一個包含了480種水土保持樹種之木材密度和碳含量資料庫。此資料庫內種階層的木材密度平均值為0.55 ± 0.13(g cm^(-3)),碳含量平均值為46.3 ± 2.2 %(g g^(-1))。比對六個生物量的估算公式後,本研究發現Chave et al.(2014)的公式能提供平均的樹木生物量估計值。資料庫使用者於野外植生工程施工地區內,測得胸高直徑≥ 5 cm樹木的胸高直徑、紀錄物種種類與樹高後,可應用本資料庫查詢木材密度及碳含量,套入生物量與胸高直徑的迴歸公式,估算樹木的碳存量。本研究成果可協助量化植生工程在碳吸存之貢獻,凸顯植生工程所能提供的生態系服務功能。

英文摘要

Trees used in vegetation engineering can conserve soil and water, sequestrer CO_2 from the atmosphere, and in turn reduce greenhouse effects. Through literature review and direct measurement, we established a database of wood density and carbon fraction for 480 tree species that can be used for soil and water conservation. In the database, the average species-level wood density was 0.55 ± 0.13 (g cm^(-3)), and the average carbon fraction was 46.3 ± 2.2 %. Comparing six biomass estimating equations, the equation in Chave et al. (2014) provided relatively moderate estimates. After identifying tree individual's species, measuring its diameter at breast height (DBH) and height in the field, database users need only query its wood density and carbon fraction in the database, and apply these variables to biomass allometric equations to estimate the carbon stored in the tree (minimum DBH is 5 cm). This process can be used to quantify the amount of carbon captured by vegetation engineering, and highlights the valuable contribution of soil and water conservation plants to ecosystem carbon sequestration services.

主题分类 生物農學 > 農業
生物農學 > 森林
生物農學 > 畜牧
生物農學 > 漁業
生物農學 > 生物環境與多樣性
工程學 > 土木與建築工程
工程學 > 市政與環境工程
参考文献
  1. Bischetti, G.B.,Dio, M.D.F.,Florineth, F.(2014).On the Origin of Soil Bioengineering.Landscape Research,39(5),583-595.
  2. Boden, T., Marland, G., and Andres, R. (2017). “Global, Regional, and National Fossil-Fuel CO2 Emissions.”
  3. Chambers, J.Q.,dos Santos, J.,Ribeiro, R.J.,Higuchi, N.(2001).Tree damage, allometric relationships, and above-ground net primary production in central Amazon forest.Forest Ecology and Management,152,73-84.
  4. Chang, L.W.,Hwong, J.L.,Chiu, S.T.,Wang, H.H.,Yang, K.C.,Chang, H.Y.,Hsieh, C.F.(2010).Species composition, size-class structure, and diversity of the Lienhuachih Forest Dynamics Plot in a subtropical evergeen braod-leaved forest in central Taiwan.Taiwan Journal of Forest Science,25(1),81-95.
  5. Chao, K.J.,Chao, W.C.,Chen, K.M.,Hsieh, C.F.(2010).Vegetation dynamics of a lowland rainforest at the northern border of the Paleotropics at Nanjenshan, southern Taiwan.Taiwan Journal of Forest Science,25(1),29-40.
  6. Chao, K.J.,Chen, Y.S.,Song, G.Z.M.,Chang, Y.M.,Sheue, C.R.,Phillips, O.L.,Hsieh, C.F.(2017).Carbon concentration declines with decay class in tropical forest woody debris.Forest Ecology and Management,391,75-85.
  7. Chao, W.C.,Wu, S.H.,Lin, H.Y.,Hsieh, C.F.,Chao, K.J.(2007).Distribution patterns of tree species in the Lanjenchi lowland rain forest.Taiwania,52(4),343-351.
  8. Chave, J.,Andalo, C.,Brown, S.,Cairns, M.A.,Chambers, J.Q.,Eamus, D.,Fölster, H.,Fromard, F.,Higuchi, N.,Kira, T.,Lescure, J.-P.,Nelson, B.W.,Ogawa, H.,Puig, H.,Riéra, B.,Yamakura, T.(2005).Tree allometry and improved estimation of carbon stocks and balance in tropical forests.Oecologia,145,87-99.
  9. Chave, J.,Réjou-Méchain, M.,Búrquez, A.,Chidumayo, E.,Colgan, M.S.,Delitti, W.B.C.,Duque, A.,Eid, T.,Fearnside, P.M.,Goodman, R.C.,Henry, M.,Martínez-Yrízar, A.,Mugasha, W.A.,Muller-Landau, H.C.,Mencuccini, M.,Nelson, B.W.,Ngomanda, A.,Nogueira, E.M.,Ortiz-Malavassi, E.,Pélissier, R.,Ploton, P.,Ryan, C.M.,Saldarriaga, J.G.,Vieilledent, G.(2014).Improved allometric models to estimate the aboveground biomass of tropical trees.Global Change Biology,20,3177-3190.
  10. Chazdon, R.L.,Uriarte, M.(2016).Natural regeneration in the context of large-scale forest and landscape restoration in the tropics.Biotropica,48(6),709-715.
  11. Chen, S.W.(2012).Taiwan,Tunghai Univeristy.
  12. Chung, K.F.,Shao, K.T.(2009)。Chung, K.F., and Shao, K.T. (2009). “Catalogue of life in Taiwan (台灣物種名錄). Web electronic publication.” (Dec. 19, 2019).。http://taibnet.sinica.edu.tw
  13. Coomes, D.A.(2006).Challenges to the generality of WBE theory.Trends in Ecology & Evolution,21(11),593-596.
  14. Domingo, D.,Orka, H.O.,Naesset, E.,Kachamba, D.,Gobakken, T.(2019).Effects of UAV Image Resolution, Camera Type, and Image Overlap on Accuracy of Biomass Predictions in a Tropical Woodland.Remote Sensing,11(8),17.
  15. Dumroese, R.K.,Williams, M.I.,Stanturf, J.A.,St. Clair, J.B.(2015).Considerations for restoring temperate forests of tomorrow: forest restoration, assisted migration, and bioengineering.New Forests,46(5-6),947-964.
  16. Editorial Committee of the Flora of Taiwan(1994).Editorial Committee of the Flora of Taiwan (1994-2003). “Flora of Taiwan, 1-6.” Department of Botany, National Taiwan University, Taipei, Taiwan..
  17. Elias, M.,Potvin, C.(2003).Assessing inter- and intraspecific variation in trunk carbon concentration for 32 neotropical tree species.Canadian Journal of Forest Research,33,1039-1045.
  18. Enquist, B.J.,Niklas, K.J.(2001).Invariant scaling relations across tree-dominated communities.Nature,410,655-660.
  19. Harja, D., Subekti, R., and Hendrawan, D.C.P. (2016). “Wood Density in Tree Functional Attribute and Ecological Database.”
  20. IPCC(2006).2006 Intergovernmental Panel on Climate Change Guidelines for National Greenhouse Gas Inventories. Vol 4: Agriculture, Forestry, and Other Land Use.Institute for Global Environmental Strategies (IGES), Hayama, Japan on behalf of the IPCC.
  21. Ketterings, Q.M.,Coe, R.,van Noordwijk, M.,Ambagau, Y.,Palm, C.A.(2001).Reducing uncentainty in the use of allometric biomass equations for predicting aboveground tree biomass in mixed secondary forests.Forest Ecology and Management,146(1-3),199-209.
  22. Kittredge, J. (1944). “Estimation of the Amount of Foliage of Trees and Stands.” Journal of Forestry, 42(12), 905-912.
  23. Ku, C.C.(2015).Taiwan,National Chiayi University.
  24. Lamlom, S.H.,Savidge, R.A.(2003).A reassessment of carbon content in wood: variation within and between 41 North American species.Biomass and Bioenergy,25(4),381-388.
  25. Lewis, L.(2000).,San Dimas, California:United States Department of Agriculture.
  26. Lin, K.C.,Ma, F.C.,Tang, S.L.(2001).Allometric equations for predicting the aboveground biomass of tree species in the Fushan forest.Taiwan Journal of Forest Science,16(3),143-151.
  27. Lin, Y.J.,Liu, C.P.,Lin, J.C.(2002).Measurement of specific gravity and carbon content of important timber species in Taiwan.Taiwan Journal of Forest Science,17(3),291-299.
  28. Martin, A.R.,Thomas, S.C.(2011).A reassessment of carbon content in tropical trees.PloS ONE,6(8),e23533.
  29. Miller, E.,Dandois, J.P.,Detto, M.,Hall, J.S.(2017).Drones as a Tool for Monoculture Plantation Assessment in the Steepland Tropics.Forests,8(5),168.
  30. Pecl, G.T.,Araujo, M.B.,Bell, J.D.,Blanchard, J.,Bonebrake, T.C.,Chen, I.C.,Clark, T.D.,Colwell, R.K.,Danielsen, F.,Evengard, B.,Falconi, L.,Ferrier, S.,Frusher, S.,Garcia, R.A.,Griffis, R.B.,Hobday, A.J.,Janion-Scheepers, C.,Jarzyna, M.A.,Jennings, S.,Lenoir, J.,Linnetved, H.I.,Martin, V.Y.,McCormack, P.C.,McDonald, J.,Mitchell, N.J.,Mustonen, T.,Pandolfi, J.M.,Pettorelli, N.,Popova, E.,Robinson, S.A.,Scheffers, B.R.,Shaw, J.D.,Sorte, C.J.B.,Strugnell, J.M.,Sunday, J.M.,Tuanmu, M.N.,Verges, A.,Villanueva, C.,Wernberg, T.,Wapstra, E.,Williams, S.E.(2017).Biodiversity redistribution under climate change: Impacts on ecosystems and human well-being.Science,355(6332)
  31. Sileshi, G.W.(2014).A critical review of forest biomass estimation models, common mistakes and corrective measures.Forest Ecology and Management,329,237-254.
  32. Song, G.Z.M.,Yang, K.C.,Hou, C.H.,Lin, J.K.,Hsieh, C.F.,Fan, S.W.,Chao, W.C.(2010).Tree population dynamics over 12 yr in a warm temperate broad-leaved evergreen forest at Mt Peitungyen, central Taiwan.Taiwan Journal of Forest Science,25(1),11-21.
  33. Stanturfa, J.A.,Palikb, B.J.,Williamsc, M.I.,Dumroesed, R.K.,Madsene, P.(2014).Forest Restoration Paradigms.Journal of Sustainable Forestry,33,S161-S194.
  34. Stokes, A.,Douglas, G.B.,Fourcaud, T.,Giadrossich, F.,Gillies, C.,Hubble, T.,Kim, J.H.,Loades, K.W.,Mao, Z.,McIvor, I.R.,Mickovski, S.B.,Mitchell, S.,Osman, N.,Phillips, C.,Poesen, J.,Polster, D.,Preti, F.,Raymond, P.,Rey, F.,Schwarz, M.,Walker, L.R.(2014).Ecological mitigation of hillslope instability: ten key issues facing researchers and practitioners.Plant and Soil,377(1-2),1-23.
  35. Su, S.H.,Chang-Yang, C.H.,Lu, C.L.,Tsui, C.C.,Lin, T.T.,Lin, C.L.,Chiou, W.L.,Kuan, L.H.,Chen, Z.S.,Hsieh, C.F.(2007).Fushan Subtropical Forest Dynamics Plot: Tree Species Characteristics and Distribution Patterns.Taipei, Taiwan:Taiwan Forestry Research Institute.
  36. The Angiosperm Phylogeny Group(2016).An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG IV.Botanical Journal of the Linnean Society,181,1-20.
  37. Thomas, C.D.,Cameron, A.,Green, R.E.,Bakkenes, M.,Beaumont, L.J.,Collingham, Y.C.,Erasmus, B.F.N.,de Siqueira, M.F.,Grainger, A.,Hannah, L.,Hughes, L.,Huntley, B.,van Jaarsveld, A.S.,Midgley, G.F.,Miles, L.,Ortega-Huerta, M.A.,Peterson, A.T.,Phillips, O.L.,Williams, S.E.(2004).Extinction risk from climate change.Nature,427(6970),145-148.
  38. Thomas, S.C.,Martin, A.R.(2012).Carbon content of tree tissues: A synthesis.Forests,3,332-352.
  39. Werner, P.A.,Murphy, P.G.(2001).Size-specific biomass allocation and water content of above- and belowground components of three Eucalyptus species in a northern Australian savanna.Australian Journal of Botany,49(2),155-167.
  40. West, G.B.,Brown, J.H.,Enquist, B.J.(1999).A general model for the structure and allometry of plant vascular systems.Nature,400,664-667.
  41. Zanne, A.E., Lopez-Gonzalez, G., Coomes, D.A., Ilic, J., Jansen, S., Lewis, S.L., Miller, R.B., Swenson, N.G., Wiemann, M.C., and Chave, J. (2009). “Data from: Towards a worldwide wood economics spectrum.”
  42. 行政院農業委員會林務局南投林區管理處=Nantou Forest District Office(2012)。行政院農業委員會林務局南投林區管理處 (2012),「國有林崩塌地處理之植生復育手冊」,行政院農業委員會林務局南投林區管理處。(Nantou Forest District Office (2012). “Manual for Revegetation of Landslides on National Forests.” Nantou Forest District Office, Forestry Bureau, Council of Agriculture, Executive Yuan, Taiwan. (in Chinese))。
  43. 行政院環境保護署 (2018a),「溫室氣體抵換專案管理辦法」, (10th May 2021)。(Environmental Protection Administration Executive Yuan, R.O.C. (2018a). “Greengouse Gas Offect Projects Regulations” (10th May 2021). (in Chinese))
  44. 行政院環境保護署 (2018b),「溫室氣體減量推動方案」, (10th May 2021)。(Environmental Protection Administration Executive Yuan, R.O.C. (2018b). “Greengouse Gas Reduction Action Plan” (10th May 2021). (in Chinese))
  45. 李明仁, M.J.(2010).育林實務手冊.臺灣=Taiwan:行政院農業委員會林務局=Forestry Bureau, Council of Agriculture, Executive Yuan.
  46. 李宣德, H.T.,馮豐隆, F.L.(2010)。台灣地區樟樹生物量擴展係數之建立。林業研究季刊,32(3),45-54。
  47. 林文鎮, W.C.(1981).台灣環境綠化樹種要覽.Taiwan:行政院農業發展委員會=Council of Agriculture, Executive Yuan.
  48. 林信輝, S.H.(2008).新竹縣坡地植生工程與植栽手冊.Taiwan:新竹縣政府=Hsingchu County Government.
  49. 林信輝, S.H.(2016).坡地植生工程.台灣=Taiwan:五南圖書出版股份有限公司=Wu-Nan Book Inc..
  50. 林信輝, S.H.,江政人, T.R.,翁書敏, S.M.,王美慧, M.H.(2012).緩衝綠帶適生植物及其栽植方法.Taiwan:行政院農業委員會水土保持局=Soil and Water Conservation Bureau, Council of Agriculture, Executive Yuan.
  51. 林信輝, S.H.,洪丁興, D.S.(1997)。林信輝、洪丁興 (1997),「工程環境綠美化—植物材料之應用與解說」,中華民國環境綠化協會,臺灣。(Lin, S.H., and Hung, D.S. (1997). “Engineering Environment Greenery-Plant Material Application and Interpretation.” Environment Greenery Association Rubuplic of China, Taiwan. (in Chinese))。
  52. 林信輝, S.H.,張焜標, K.P.,江政人, T.R.(2008).坡地水土保持應用原生植物.臺灣=Taiwan:行政院農業委員會水土保持局=Soil and Water Conservation Bureau, Council of Agriculture, Executive Yuan.
  53. 林信輝, S.H.,張集豪, C.H.,陳意昌, Y.C.(2016).圖解植生工程.Taiwan:五南圖書出版股份有限公司=Wu-Nan Book Inc..
  54. 林信輝, S.H.,曾彥學, Y.H.,賴俊帆, C.F.,宋煦辰, C.C.(2007).石門水庫集水區崩塌地植生工程與應用植物手冊.Taiwan:經濟部水利署北區水資源局=Northern Region Water Resources Office, Water Resources Agency, Ministry of Economic Affairs.
  55. 林信輝, S.H.,黃朝慶, C.C.,陳建男, J.N.,彭心燕, H.Y.(2006).水庫濱水帶植物.臺灣=Taiwan:經濟部水利署=Water Resources Agency, Ministry of Economic Affairs.
  56. 林信輝, S.H.,歐辰雄, C.H.(2002).台灣海岸地區應用植物.臺灣=Taiwan:經濟部水利署=Water Resources Agency, Ministry of Economic Affairs.
  57. 林信輝, S.H.,鄭梨櫻, L.Y.,林妍琇, Y.H.(2006).水土保持植物解說系列—坡地植生草類與綠肥植物.臺灣=Taiwan:行政院農業委員會水土保持局=Soil and Water Conservation Bureau, Council of Agriculture, Executive Yuan.
  58. 林裕仁, Y.J.,劉瓊霦, C.P.,林俊成, J.C.(2002)。台灣地區主要用材比重與碳含量測定。臺灣林業科學,17(3),291-299。
  59. 社團法人中華民國環境綠化協會=Environment Greenery Association Republic of China(2011).農村社區常用植栽應用手冊.臺灣=Taiwan:行政院農業委員會水土保持局=Soil and Water Conservation Bureau, Council of Agriculture, Executive Yuan.
  60. 邱祈榮, C.R.,莊媛卉, Y. H.(2016)。國家溫室氣體排放清冊林業部門編撰實務說明。台灣林業,42(4),18-30。
  61. 邱清安, C.A.,徐憲生, H.S.,林信輝, S.H.,陳韋志, W.C.(2016)。崩塌地植生重建之軌跡與目標:復育生態學觀點下的提議。中華水土保持學報,47(2),104-110。
  62. 柳婉郁, W.Y.,徐寬, K.(2016)。森林碳匯如何給付?購碳與碳租政策之理論分析。台灣林業,43(4),31-37。
  63. 孫正華, C.H.,顏添明, T.M.,李久先, J.S.(2011)。不同相對關係式推估針葉樹及竹類地上部生物量之比較。林業研究季刊,33(1),1-8。
  64. 張焜標, K.P.(1996).恆春半島原生樹種綠化苗木培育.臺灣=Taiwan:行政院農業委員會國立屏東技術學院森林資源技術系=Department of Forestry, National Pingtung University of Science and Technology and Council of Agriculture, Executive Yuan.
  65. 張焜標, K.P.(1997).台灣原生綠化樹種苗木培育.Taiwan:行政院農業委員會國立屏東技術學院森林資源技術系=Department of Forestry, National Pingtung University of Science and Technology and Council of Agriculture, Executive Yuan.
  66. 郭幸榮, S.R.(2006).育林手冊.Taiwan:行政院農業委員會林務局=Forestry Bureau, Council of Agriculture, Executive Yuan.
  67. 陳明義, M.Y.(1999).台灣海岸溼地植物.Taiwan:行政院農業委員會中華民國環境綠化協會=Environment Greenery Association Rubuplic of China and Council of Agriculture, Executive Yuan.
  68. 陳樹群, S.C.,冀樹勇, S.Y.,唐琦, C.,林信輝, H.H.,馮正ㄧ, C.Y.,連惠邦, H.P.(2017).水土保持手冊.臺灣=Taiwan:行政院農業委員會水土保持局=Soil and Water Conservation Bureau.
  69. 鄭雅芳, Y.F.,賴慶昌, C.C.(2006).九份二山紀念園區植物手冊.臺灣=Taiwan:行政院農業委員會水土保持局=Soil and Water Conservation Bureau, Council of Agriculture, Executive Yuan.
  70. 薛銘童, M.T.,許博行, B.H.(2003)。關刀溪次生林闊葉林地上部生物量與葉面積指數之研究。林業研究季刊,25(2),11-24。