Abstract
Indonesia is known as the emerald of the equator which has high values of natural resources, although it also has a huge disaster risk. It’s because it is located in strategic areas, namely, (1) the equator, (2) Ring of Fire, and (3) earth plates of Eurasia, Pacific, and Indo-Australia. Tropical ecosystem has high temperature, rainfall, moisture, light intensity, and rapid organic cycling along a year, so they have the highest biodiversity and net primary production in the world. As a part of the Ring of Fire, the land becomes more fertile because it is always supplied by new volcanic materials which contain a lot of important nutrients. The earth plate resulted in the accumulation of valuable mine minerals. Tropical natural resources have a high potential resource but still have less economical values, because it is still under mismanagement that is not based on natural norms. We have to shift paradigm from natural resource-based development to knowledge-based development. New paradigm from extraction to empowerment of natural resource will give new challenge to shift from red-green economic to blue economic concept that should be more smart, global, focused, and futuristic for sustainable development. An education of sustainable development system should be developing with a strong culture and values of humanity that educate the head, heart, and hand, respectively. Development of Integrated Bio-cycles System (IBS) in a closed-to-nature ecosystem will manage land resources (soil, mineral, water, air, microclimate) and biological resources (flora, fauna, human) that could have more high added value in environment, economic, socioculture, and health aspects. This integrated farming system has multifunction and multiproduct that produce food, feed, fiber, fertilizer, energy, water, oxygen, medicine, mystic, and tourism for sustainable and productive tropical natural resource management.
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Agus C (2010) Organic matter management in UGM University Farm for sustainable food, feed, fiber and fertilizer. In: Proceeding seminar on the 16th annual international sustainable development research conference, Hong Kong
Agus C (2017) Integrated bio-cycle system management on palm oil plantation. Keytalk paper on seminar oil palm: land quality and climate change. Faculty of Forestry UGM Yogyakarta, 19 September 2017
Agus C (2018) Development of blue revolution through integrated bio-cycles system on tropical natural resources management. In: Leal Filho W, Pociovălișteanu D, Borges de Brito P, Borges de Lima I (eds) World sustainability series: towards a sustainable bioeconomy: principles, challenges and perspectives. Springer, Cham, pp 155–172. https://link.springer.com/chapter/10.1007/978-3-319-73028-8_9
Agus C, Karyanto O, Hardiwinoto S, Haibara K, Kita S, Toda H (2003) Legume cover crop as a soil amendment in short rotation plantation of tropical forest. J For Environ 45(1):13–19
Agus C, Karyanto O, Kita S, Haibara K, Toda H, Hardiwinoto S, Supriyo H, Na’iem M, Wardana W, Sipayung M, Khomsatun, Wijoyo S (2004) Sustainable site productivity and nutrient management in a short rotation Gmelina arborea plantation in East Kalimantan, Indonesia. New For J 28:277–285
Agus C, Primananda E, Faridah E, Wulandari D, Lestari T (2018) Role of arbuscular mycorrhizal fungi and Pongamia Pinnata for revegetation of tropical open-pit coal mining soils. Int J Environ Sci Technol (IJEST) 15(11):1–11. https://doi.org/10.1007/s13762-018-1983-5
BPS (2018) Statistical yearbook of Indonesia 2018. BPS Statistik Indonesia, Jakarta. 719 pp
Brodt S, Six J, Feenstra G, Ingels C, Campbell D (2011) Sustainable agriculture. Nat Educ Knowl 3(10):1
Butarbutar R, Soemarno S (2013) Environmental effects of ecotourism in Indonesia. J Ind Tour Dev Std 1(3):97–107
Cahyanti PAB, Agus C (2017) Development of landscape architecture through geo-eco-tourism in tropical karst area to avoid extractive cement industry for dignified and sustainable environment and life. IOP Conf Ser: Earth Environ Sci 83:012028
Carlson KM, Curran LM, Asner GP, Pittman AMD, Triggand SN, Adeney JM (2012) Carbon emissions from forest conversion by Kalimantan oil palm plantations. Nat Clim Chang. https://doi.org/10.1038/nclimate1702. (2012)
Chan GL (2006) Integrated farming system. http://www.scizerinm.org/chanarticle.html. Access 5 Sept 2012
Chao S (2012) Forest peoples: numbers across the world. Forest Peoples Program, Moreton-in-Marsh. http://www.forestpeoples.org/sites/fpp/files/publication/2012/05/forest-peoplesnumbers-across-world-final_0.pdf
CIFOR (2019) Taking stock of Indonesia’s social forestry program. https://forestsnews.cifor.org/58344/taking-stock-of-indonesias-social-forestry-program?fnl=en. Access 24 Jan 2019
Corley RHV, Tinker PB (2007) The oil palm, 4th edn. Blackwell Science Ltd., Malden. 578 pp. https://doi.org/10.1002/9780470750971
Cramer W, Kicklighter DW, Bondeau A, Iii B, Moore CG, Nemry B, Ruimy A, Schloss AL (1999) Comparing global models of terrestrial net primary productivity (NPP): overview and key results. Glob Chang Biol 5:1–15
Etu K (2019) Bio economy. http://kainuunetu.fi/bio-economy. Access 23 Jan 2019
EuRedd (2019) Deforestation and forest degradation. http://www.euredd.efi.int/deforestation. Access 2 Feb 2019
European Commission (2018) Bioeconomy: the European way to use our natural resources Action plan 2018. Brussels, 26 pp
Fuentes-Saguar PD, Mainar-Causapé AJ, Ferrari E (2017) The role of bioeconomy sectors and natural resources in EU economies: a social accounting matrix-based analysis approach. Sustainability 9:2383. https://doi.org/10.3390/su9122383
Gough CM (2011) Terrestrial primary production: fuel for life. Nat Educ Knowl 3(10):28
Grumbine RE (1994) What is ecosystem management? Conserv Biol 8(1):27–38. https://doi.org/10.1046/j.1523-1739.1994.08010027.x
IFOAM (International Federation of Organic Agriculture Movements) (1998) Basic standard for organic production and processing. IFOAM, Tholey-Thelei
Koepft HH, Pettersson DD, Schaumann DD (1976) Biodynamic agriculture. Anthroposophic Press, Spring Valey
MCA-Indonesia (2019) New Era of social forestry: for people’s welfare. http://www.mca-indonesia.go.id/en/our_news/news/new_era_of_social_forestry_for_peoples_welfare-1212. Access 24 Jan 2019
MEXT (2019) ESD (Education for Sustainable Development). http://www.mext.go.jp/en/unesco/title04/detail04/sdetail04/1375695.htm. Access 24 Jan 2019
Pauli G (2009) Blue economy concept paper. The ZERI Foundation, Singapore, 13 pp
Potter C, Klooster S, Genovese V (2012) Net primary production of terrestrial ecosystems from 2000 to 2009. Clim Chang 115:365. https://doi.org/10.1007/s10584-012-0460-2
Poudel KL, Johnson TG, Tewari R (2016) Property rights and sustainable natural resource management. Environ Manag Sustain Dev 5(2):30–40. https://doi.org/10.5296/emsd.v5i2.9304
Rona PA (1973) Plate tectonics and mineral resources. Sci Am 229(1):86–95
Serageldin I (1996) Sustainable development: from theory to practice. Finan Dev 33(4):3
Sinakou E, Pauwa JB, Goossens M, Van Petegemc P (2018) Academics in the field of education for sustainable development: their conceptions of sustainable development. J Clean Prod 184:321–332. https://doi.org/10.1016/j.jclepro.2018.02.279
Singh HB, Jha A, Keswani C (eds) (2016) Intellectual property issues in biotechnology. CABI, Wallingford. 304 pages, ISBN-13: 9781780646534
Singh HB, Keswani C, Singh SP (2019) Intellectual property issues in microbiology. Springer-Nature, Singapore, 425 pages. ISBN: 9789811374654
Stockdale EA, Cookson WR (2003) Sustainable farming systems and their impact on soil biological fertility-some case studies. In: Abbott LK, Murphy DV (eds) Soil biological fertility. A key to sustainable land use in agriculture. Kluwer Academic Publisher, Dordrecht, pp 225–2392003
Suharmanto P, Fitria AN, Ghaliyah S (2015) Geothermal energy potential as source of alternative energy power plant. Renewable energy and energy conversion conference and exhibition (The 2nd Indo EBTKE-CONEX 2013). KnE 1:119–124. https://doi.org/10.18502/ken.v1i1.325
Thomas GP (2012) Indonesia: mining, minerals and fuel resources. AZOmining. https://www.azomining.com/Article.aspx?ArticleID=101
UNEP (2013) Green economy definition. http://www.unep.org/greeneconomy/AboutGEI/
UNESCO (2019) Education for sustainable development. https://en.unesco.org/themes/education-sustainable-development. Access 24 Jan 2019
Widiaryanto P (2018) Suing foresters creating redesign forestry development towards Indonesia 2045. Indonesian forest glory discussion paper at the anniversary of the faculty of forestry UGM Yogyakarta, October 26, 2018 (in Indonesian)
Wolfslehner B, Linser S, Pülzl H, Bastrup-Birk A, Camia A Marchetti M (2016) Forest bioeconomy – a new scope for sustainability indicators. From science to policy 4. European Forest Institute, Joensuu Finland
World Atlas (2019) What are the major natural resources of Indonesia?. https://www.worldatlas.com/articles/what-are-the-major-natural-resources-of-indonesia.html. Access 19 Feb 2019
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Agus, C. (2020). Integrated Bio-cycles System for Sustainable and Productive Tropical Natural Resources Management in Indonesia. In: Keswani, C. (eds) Bioeconomy for Sustainable Development. Springer, Singapore. https://doi.org/10.1007/978-981-13-9431-7_11
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