This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
ABDULLAH U.H., SUFARDI S., SYAFRUDDIN S., ARABIA T. 2022. Soil organic carbon of grassland and bush forest on dryland in Aceh Besar District, Indonesia. Biodiversitas Journal of Biological Diversity 23, 5: 2594–2600.ABDULLAHU.H.SUFARDIS.SYAFRUDDINS.ARABIAT.2022Soil organic carbon of grassland and bush forest on dryland in Aceh Besar District, IndonesiaBiodiversitas Journal of Biological Diversity2352594260010.13057/biodiv/d230541Search in Google Scholar
ARIFIN J. 2001. Estimasi penyimpanan C pada berbagai sistem penggunaan lahan di Kecamatan Ngantang, Malang (Estimation of C storage in various land use systems in Ngantang District, Malang). Fakultas Pertanian, Universitas Brawijaya, Malang, 61 pp.ARIFINJ.2001Estimasi penyimpanan C pada berbagai sistem penggunaan lahan di Kecamatan Ngantang, Malang (Estimation of C storage in various land use systems in Ngantang District, Malang)Fakultas Pertanian, Universitas BrawijayaMalang61 pp.Search in Google Scholar
ARSHAD M.S., SANAULLAH M., FAROOQ M. 2016. Soil carbon sequestration in dryland agriculture. In Innovations in Dryland Agriculture. Farooq M, Siddique K. (Eds.) Springer, pp. 369–390.ARSHADM.S.SANAULLAHM.FAROOQM.2016Soil carbon sequestration in dryland agricultureInInnovations in Dryland AgricultureFarooqMSiddiqueK(Eds.)Springer36939010.1007/978-3-319-47928-6_17Search in Google Scholar
ATKIN B., GONG T., HARMON J., THEODORE M.G. 2012. Carbon sequestration method. Google Patents. US20110027017A1ATKINB.GONGT.HARMONJ.THEODOREM.G.2012Carbon sequestration methodGoogle Patents. US20110027017A1Search in Google Scholar
BAETEN L., VERSTRAETEN G., DEFRENNE P., VANHELLEMONT M., WUYTS K., HERMY M., VERHEYEN K. 2010. Former land use affects the nitrogen and phosphorus concentrations and biomass of forest herbs. Plant Ecology 212, 901–909.BAETENL.VERSTRAETENG.DEFRENNEP.VANHELLEMONTM.WUYTSK.HERMYM.VERHEYENK.2010Former land use affects the nitrogen and phosphorus concentrations and biomass of forest herbsPlant Ecology21290190910.1007/s11258-010-9876-9Search in Google Scholar
BONAN, G.B. 2008. Forests and climate change: forcings, feedbacks, and the climate benefits of forests. Science 320(5882): 1444–1449.BONANG.B.2008Forests and climate change: forcings, feedbacks, and the climate benefits of forestsScience32058821444144910.1126/science.115512118556546Search in Google Scholar
ELOKA-EBOKA A., INAMBAO F. 2017. Effects of CO2 sequestration on lipid and biomass productivity in microalgal biomass production. Applied Energy 195:1100–1111.ELOKA-EBOKAA.INAMBAOF.2017Effects of CO2 sequestration on lipid and biomass productivity in microalgal biomass productionApplied Energy1951100111110.1016/j.apenergy.2017.03.071Search in Google Scholar
Energy Terms Glossary S, 2010. Nebraska Energy Office, Archived from the original on May 27.Energy Terms Glossary S2010Nebraska Energy Office, Archived from the original on May 27Search in Google Scholar
GONZÁLEZ-GONZÁLEZ B.D., SIXTO H., ALBERDI I., ESTEBAN L., GUERRERO S., PASALODOS M., [...] CAÑELLAS I. 2017. Estimation of shrub biomass availability along two geographical transects in the Iberian Peninsula for energy purposes. Biomass and Bioenergy 105: 211–18.GONZÁLEZ-GONZÁLEZB.D.SIXTOH.ALBERDII.ESTEBANL.GUERREROS.PASALODOSM.CAÑELLASI.2017Estimation of shrub biomass availability along two geographical transects in the Iberian Peninsula for energy purposesBiomass and Bioenergy1052111810.1016/j.biombioe.2017.07.011Search in Google Scholar
HAIRIAH, K., VAN NOORDWIJK, M., PALM, C. 1999. Methods for sampling above and below ground organic pools. In: Murdiyarso, D, Van Noordwijk, M, and Suyamto, D,A. (eds). Modeling Global Change Impacts on the Soil Environment. IC-SEA Report No. 6, SEAMEOBIOTROPGCTE ICSEA, Bogor, pp: 46–77.HAIRIAHK.VAN NOORDWIJKM.PALMC.1999Methods for sampling above and below ground organic poolsIn:MurdiyarsoDVan NoordwijkMSuyamtoD,A.(eds).Modeling Global Change Impacts on the Soil EnvironmentIC-SEA Report No. 6,SEAMEOBIOTROPGCTE ICSEABogor4677Search in Google Scholar
HAIRIAH K., EKADINATA A., SARI R.R., RAHAYU S. 2011. Pengukuran Cadangan Karbon; dari Tingkat Lahan ke Bentang Lahan. World Agroforestry Centre. Bogor, Indonesia.HAIRIAHK.EKADINATAA.SARIR.R.RAHAYUS.2011Pengukuran Cadangan Karbon; dari Tingkat Lahan ke Bentang LahanWorld Agroforestry CentreBogor, IndonesiaSearch in Google Scholar
HAIRIAH K., RAHAYU S. 2007. Pengukuran karbon tersimpan di berbagai macam penggunaan lahan. World Agroforestry Centre. Nairobi, Kenya.HAIRIAHK.RAHAYUS.2007Pengukuran karbon tersimpan di berbagai macam penggunaan lahanWorld Agroforestry CentreNairobi, KenyaSearch in Google Scholar
HUBER-SANNWALD E., PALACIOS M.R., ARREDONDO MORENO J.T., BRAASCH M., MARTINEZ PEÑA R.M., DE ALBA VERDUZCO J.G., SANTOS K.M. 2012. Navigating challenges and opportunities of land degradation and sustainable livelihood development in dryland social-ecologycal systems: A case study from Mexico. Philosophical Transactions of the Royal Society B 367: 3158–3177.HUBER-SANNWALDE.PALACIOSM.R.ARREDONDO MORENOJ.T.BRAASCHM.MARTINEZ PEÑAR.M.DE ALBA VERDUZCOJ.G.SANTOSK.M.2012Navigating challenges and opportunities of land degradation and sustainable livelihood development in dryland social-ecologycal systems: A case study from MexicoPhilosophical Transactions of the Royal Society B3673158317710.1098/rstb.2011.0349347968923045713Search in Google Scholar
INDONESIA NATIONAL STANDARD. 2011. Ground based forest carbon accounting. BSN. SNI 7724–2011.INDONESIA NATIONAL STANDARD2011Ground based forest carbon accountingBSN. SNI 7724–2011.Search in Google Scholar
ISTOMO I., FARIDA N.E. 2017. Potensi simpanan karbon di atas permukaan tanah tegakan Acacia nilotica L. (Willd) ex. Del. di Taman Nasional Baluran, Jawa Timur. Jurnal Pengelolaan Sumberdaya Alam dan Lingkungan (Journal of Natural Resources and Environmental Management) 7(2): 155–162.ISTOMOI.FARIDAN.E.2017Potensi simpanan karbon di atas permukaan tanah tegakan Acacia nilotica L. (Willd) ex. Del. di Taman Nasional Baluran, Jawa TimurJurnal Pengelolaan Sumberdaya Alam dan Lingkungan (Journal of Natural Resources and Environmental Management)7215516210.29244/jpsl.7.2.155-162Search in Google Scholar
KABEDE B., SOROMESSA T. 2018. Allometric equations for aboveground biomass estimation of Olea europaea L. subsp. cuspidata in Mana Angetu Forest. Ecosystem Health and Sustainability 4(1): 1–12.KABEDEB.SOROMESSAT.2018Allometric equations for aboveground biomass estimation of Olea europaea L. subsp. cuspidata in Mana Angetu ForestEcosystem Health and Sustainability4111210.1080/20964129.2018.1433951Search in Google Scholar
KETTERINGS Q.M., COE R., VAN NOORDWIJK M., PALM C.A. 2001. Reducing uncertainty in the use of allometric biomass equations for predicting above-ground tree biomass in mixed secondary forests. Forest Ecology and Management, 146(1–3): 199–209.KETTERINGSQ.M.COER.VAN NOORDWIJKM.PALMC.A.2001Reducing uncertainty in the use of allometric biomass equations for predicting above-ground tree biomass in mixed secondary forestsForest Ecology and Management1461–319920910.1016/S0378-1127(00)00460-6Search in Google Scholar
LAMBIN E.F., GEIST H., RINDFUSS R.R. 2006. Introduction: Local processes with global impacts. In: Lambin E.F., Geist H. (Eds.) Land-use and land-cover change. Global change—The IGBP Series. Springer.LAMBINE.F.GEISTH.RINDFUSSR.R.2006Introduction: Local processes with global impactsIn:LambinE.F.GeistH.(Eds.)Land-use and land-cover change. Global change—The IGBP SeriesSpringer10.1007/3-540-32202-7_1Search in Google Scholar
MAES S.L., DE FRENNE P., BRUNET, J., DE LA PEÑA, E., CHABRERIE, O., COUSINS, S. A., [...]., VERHEYEN K. 2014. Effects of enhanced nitrogen inputs and climate warming on a forest understorey plant assessed by transplant experiments along a latitudinal gradient. Plant Ecology, 215(8): 899–910.MAESS.L.DE FRENNEP.BRUNETJ.DE LA PEÑAE.CHABRERIEO.COUSINSS. A.VERHEYENK.2014Effects of enhanced nitrogen inputs and climate warming on a forest understorey plant assessed by transplant experiments along a latitudinal gradientPlant Ecology215889991010.1007/s11258-014-0341-zSearch in Google Scholar
MAKUNDI., ROZALI., JONES., PINSO. 1997. Tropical forest and Kyoto protocol: Prospect for carbon offset projects after Buenos Aires. International Tropical Timber Organization (ITTO).MAKUNDIROZALIJONESPINSO1997Tropical forest and Kyoto protocol: Prospect for carbon offset projects after Buenos AiresInternational Tropical Timber Organization (ITTO)Search in Google Scholar
MOKANY K., RAISON J.R., PROKUSHKIN A.S. 2006. Critical analysis of root-shoot ratios in terrestrial biomes. Global Change Biology 12: 84–96.MOKANYK.RAISONJ.R.PROKUSHKINA.S.2006Critical analysis of root-shoot ratios in terrestrial biomesGlobal Change Biology12849610.1111/j.1365-2486.2005.001043.xSearch in Google Scholar
MURDIYARSO D. 1999. Perlindungan Atmosfer Melalui Perdagangan Karbon : Paradigma Baru dalam Sektor Kehutanan. Orasi Ilmiah Guru Besar Tetap Ilmu Atmosfer. Fakultas MIPA IPB. Bogor.MURDIYARSOD.1999Perlindungan Atmosfer Melalui Perdagangan Karbon : Paradigma Baru dalam Sektor Kehutanan. Orasi Ilmiah Guru Besar Tetap Ilmu AtmosferFakultas MIPA IPBBogorSearch in Google Scholar
PERRING M.P., BERNHARDT-RÖMERMANN M., BAETEN, L., MIDOLO G., BLONDEEL H., DEPAUW L., [...] VERHEYEN K. 2017. Global environmental change effects on plant community composition trajectories depend upon management legacies. Global Change Biology, 24(4), 1722–1740.PERRINGM.P.BERNHARDT-RÖMERMANNM.BAETENL.MIDOLOG.BLONDEELH.DEPAUWL.VERHEYENK.2017Global environmental change effects on plant community composition trajectories depend upon management legaciesGlobal Change Biology2441722174010.1111/gcb.1403029271579Search in Google Scholar
PRAVALIE R. 2016. Drylands extent and environmental issues. A global approach. Earth-Science Reviews 161:259–278.PRAVALIER.2016Drylands extent and environmental issuesA global approach. Earth-Science Reviews16125927810.1016/j.earscirev.2016.08.003Search in Google Scholar
PRIYADARSINI R. 1999. Estimasi modal C (C-stock) Masukan Bahan organik, dan hubungannya dengan populasi cacing tanah pada sistem wanatani (Estimated modal C (C-stock) Organic matter input, and its relationship to earthworm populations in agroforestry systems). Program pasca sarjana Universitas Brawijaya, Malang. 76 pp.PRIYADARSINIR.1999Estimasi modal C (C-stock) Masukan Bahan organik, dan hubungannya dengan populasi cacing tanah pada sistem wanatani (Estimated modal C (C-stock) Organic matter input, and its relationship to earthworm populations in agroforestry systems)Program pasca sarjana Universitas BrawijayaMalang76 pp.Search in Google Scholar
RAMANKUTTY N., GIBBS H.K., ACHARD F., DEFRIES R., FOLEY J.A., HOUGHTON R.A. 2007. Global Change Biology 13: 51–66.RAMANKUTTYN.GIBBSH.K.ACHARDF.DEFRIESR.FOLEYJ.A.HOUGHTONR.A.2007Global Change Biology13516610.1111/j.1365-2486.2006.01272.xSearch in Google Scholar
RIDWANULLAH. 2011. Pendugaan fluktuasi kandungan karbon melalui analisis biomassa pohon Akasia (Acacia mangium Willd) studi kasus PT. Sumatra. [Tesis]. Universitas Riau, Riau [Indonesia].RIDWANULLAH2011Pendugaan fluktuasi kandungan karbon melalui analisis biomassa pohon Akasia (Acacia mangium Willd) studi kasus PT. Sumatra[Tesis].Universitas RiauRiau [Indonesia]Search in Google Scholar
ROCHMAYANTO, Y., WIBOWO, A., LUGINA, M., BUTARBUTAR, T., MULYADIN, R. M., WICAKSONO, D., RUSULONO T. 2014. Cadangan karbon pada berbagai tipe hutan dan jenis tanaman di Indonesia (Seri 2). Yogyakarta (ID): PT Kanisius.ROCHMAYANTOY.WIBOWOA.LUGINAM.BUTARBUTART.MULYADINR. M.WICAKSONOD.RUSULONOT.2014Cadangan karbon pada berbagai tipe hutan dan jenis tanaman di Indonesia (Seri 2)Yogyakarta (ID)PT KanisiusSearch in Google Scholar
SIETZ D., LÜDEKE M.K.B., WALTHER C. 2011. Categorisation of typical vulnerability patterns in global drylands. Global Environmental Change 21: 431–440.SIETZD.LÜDEKEM.K.B.WALTHERC.2011Categorisation of typical vulnerability patterns in global drylandsGlobal Environmental Change2143144010.1016/j.gloenvcha.2010.11.005Search in Google Scholar
SUTARYO D. 2009. Penghitungan Biomassa Sebuah pengantar untuk studi karbon dan perdagangan karbon. Wetlands International Indonesia Programme Jl. A. Yani 53, Bogor.SUTARYOD.2009Penghitungan Biomassa Sebuah pengantar untuk studi karbon dan perdagangan karbonWetlands International Indonesia Programme Jl. A. Yani 53BogorSearch in Google Scholar
VERHEYEN K., BAETEN L., DE FRENNE P., BERNHARDT-RÖMERMANN M., BRUNET J., CORNELIS J., [...] VERSTRAETEN G. 2012. Driving factors behind the eutrophication signal in understorey plant communities of deciduous temperate forests. Journal of Ecology 100(2): 352–365.VERHEYENK.BAETENL.DE FRENNEP.BERNHARDT-RÖMERMANNM.BRUNETJ.CORNELISJ.VERSTRAETENG.2012Driving factors behind the eutrophication signal in understorey plant communities of deciduous temperate forestsJournal of Ecology100235236510.1111/j.1365-2745.2011.01928.xSearch in Google Scholar
WATERLOO, M. J. 1995. Water and nutrient dynamics of pinus caribea plantation forests on former grassland soils in Southwest Viti Levu, Fiji, PhD thesis, Vrije Universiteit, Amsterdam, the Netherlands, 478 pp.WATERLOOM. J.1995Water and nutrient dynamics of pinus caribea plantation forests on former grassland soils in Southwest Viti Levu, FijiPhD thesis,Vrije UniversiteitAmsterdam, the Netherlands478 pp.Search in Google Scholar
WEIL, R.R., BRADY, N.C. 2017. The nature and properties of soils, 15th edition. Pearson, Boston.WEILR.R.BRADYN.C.2017The nature and properties of soils15th editionPearsonBostonSearch in Google Scholar
XIONG-ZONG MA, XIN-PING WANG. 2020. Biomass partitioning and allometric relations of the Reaumuria soongorica shrub in Alxa steppe desert in NW China. Forest Ecology and Management 468: 118178.MAXIONG-ZONGWANGXIN-PING2020Biomass partitioning and allometric relations of the Reaumuria soongorica shrub in Alxa steppe desert in NW ChinaForest Ecology and Management46811817810.1016/j.foreco.2020.118178Search in Google Scholar
XU, HAO, ZHANJUNG W., YING LI, JIANLONG HE, XUDONG WU. 2020. Dynamic growth models for Caragana korshinskii shrub, Journal of Environmental Management 269 (09): 110675.HAOXUZHANJUNGW.LIYINGHEJIANLONGWUXUDONG2020Dynamic growth models for Caragana korshinskii shrubJournal of Environmental Management2690911067510.1016/j.jenvman.2020.110675Search in Google Scholar
YUNIAWATI Y., BUDIAMAN A., ELIAS E. 2011. Estimasi potensi biomassa dan massa karbon hutan tanaman di lahan gambut (Studi Kasus di Areal HTI Kayu Serat di Pelalawan, Propinsi Riau). Penelitian Hasil Hutan 29(4): 343–354.YUNIAWATIY.BUDIAMANA.ELIASE.2011Estimasi potensi biomassa dan massa karbon hutan tanaman di lahan gambut (Studi Kasus di Areal HTI Kayu Serat di Pelalawan, Propinsi Riau)Penelitian Hasil Hutan29434335410.20886/jphh.2011.29.4.343-355Search in Google Scholar
YUSUF, M., SULISTYAWATI, E., SUHAYA Y. 2014. Distribusi Biomassa di Atas dan Bawah Permukaan dari Surian (Toona Sinensis Roem.). Jurnal Matematika dan Sains, 19(2), 69–75.YUSUFM.SULISTYAWATIE.SUHAYAY.2014Distribusi Biomassa di Atas dan Bawah Permukaan dari Surian (Toona Sinensis Roem.)Jurnal Matematika dan Sains1926975Search in Google Scholar