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Yang S, Wimalasiri EM, Shaftang N, Fan H, Yang Z, et al. 2025. Enhancing China's agri-food security: palms as alternative oil crops under U.S.-China trade war. Oil Crop Science 10:235−239

Mayes S. 2020. The history and economic importance of the oil palm. In The Oil Palm Genome, eds. Ithnin M, Kushairi A. Cham: Springer International Publishing. pp. 1−8 doi: 10.1007/978-3-030-22549-0_1

Abdullah N, Salleh KM, Zakaria K, Kamil NN, Zainal Z, et al. 2022. The preference for palm vitamin E tocotrienols and the willingness to purchase among consumers in peninsular Malaysia. Malaysian Journal of Consumer and Family Economics 29:375−395

Di Canossa V, Erwinsyah, Wan X, Chen L, van den Boogaard M, et al. 2020. Mapping the palm oil value chain: opportunities for sustainable palm oil in Indonesia and China. United Nations Development Programme China. https://files.acquia.undp.org/public/migration/cn/Palm_oil_report_EN.pdf

Moristanto, Hutrindo E, Kurniadi CB, Amheka A. 2022. The impact of biofuel intensification on integrated climate-land-energy-water system. The Journal of Indonesia Sustainable Development Planning 3:48−61

Rahayu SE, Febriaty H. 2020. Analysis of the development of Indonesian palm oil (CPO) export before and after traders of the United States of America-China. International Journal of Economic, Technology and Social Sciences (Injects) 1:106−116

Bhore S. 2013. Sustainable oil-palm cultivation: we need to use 'gene technology' to boost palm-oil production. Gene Technology 2:e105

Lai O. 2019. Palm oil, its fractions, and components. In Healthful Lipids, ed. Akoh CC. New York: AOCS Publishing. pp. 731−749 doi: 10.1201/9780429104497

Meixner O, Hackl S, Haas R. 2023. Assessing the sustainability of palm oil by expert interviews − an application of the analytic hierarchy process. Sustainability 15:16954

Jia X, Zhang Y, Tan RR, Li Z, Wang S, et al. 2022. Multi-objective energy planning for China's dual carbon goals. Sustainable Production and Consumption 34:552−564

Jiang Q, Yin Z. 2023. The optimal path for China to achieve the 'Dual Carbon' target from the perspective of energy structure optimization. Sustainability 15:10305

Tian J, Zhou S, Wang Y. 2023. Assessing the technical and economic potential of wind and solar energy in China − a provincial-scale analysis. Environmental Impact Assessment Review 102:107161

Agus F, Gunarso P, Sahardjo BH, Harris N, van Noordwijk M, et al. 2013. Historical CO₂ emissions from land use and land use change from the oil palm industry in Indonesia, Malaysia and Papua New Guinea. Reports from the Technical Panels of the 2nd Greenhouse Gas Working Group of the Roundtable on Sustainable Palm Oil (RSPO). RSPO, Kuala Lumpur. pp. 65−88 www.tropenbos.org/app/data/uploads/sites/2/5_historical_CO2_emissions_Agus_et_al-1.pdf

Petrenko C, Paltseva J, Searle S. 2016. Ecological impacts of palm oil expansion in Indonesia. Washington (US): International Council on Clean Transportation. pp. 1−21 https://theicct.org/publication/ecological-impacts-of-palm-oil-expansion-in-indonesia/

Lam WY, Kulak M, Sim S, King H, Huijbregts MAJ, et al. 2019. Greenhouse gas footprints of palm oil production in Indonesia over space and time. Science of The Total Environment 688:827−837

Rahutomo AB, Karuniasa M, Frimawaty E. 2025. Enhancing farmers' land productivity through sustainable palm oil certification: strategies for promoting environmental and economic benefits in agricultural practices. Journal of Agrosociology and Sustainability 2:97−112

Alias AF. 2024. EU deforestation ban creates a hazy trade future. www.reuters.com/breakingviews/eu-deforestation-ban-creates-hazy-trade-future-2024-09-23/?utm_source=chatgpt.com

Chalil D. 2016. Sustainability of sustainable palm oil: a market integration analysis. Journal of Management & Agribusiness 13:157−167

Tey YS, Brindal M, Djama M, Hadi AHIA, Darham S. 2021. A review of the financial costs and benefits of the Roundtable on Sustainable Palm Oil certification: implications for future research. Sustainable Production and Consumption 26:824−837

Henders S, Persson UM, Kastner T. 2015. Trading forests: land-use change and carbon emissions embodied in production and exports of forest-risk commodities. Environmental Research Letters 10:125012

Pacheco P, Gnych S, Dermawan A, Komarudin H, Okarda B. 2017. The Palm Oil Global Value Chain: Implications for Economic Growth and Socialand Environmental Sustainability. Bogor, Indonesia: Center for International Forestry Research. doi: 10.17528/cifor/006405

Siagian UWR, Wenten IG, Khoiruddin K. 2024. Circular economy approaches in the palm oil industry: enhancing profitability through waste reduction and product diversification. Journal of Engineering and Technological Sciences 56:25−49

Kurniawan TA, Ali M, Mohyuddin A, Haider A, Othman MHD, et al. 2025. Innovative transformation of palm oil biomass waste into sustainable biofuel: technological breakthroughs and future prospects. Process Safety and Environmental Protection 193:643−664

Umar MS, Jennings P, Urmee T. 2013. Renewable energy from palm oil wastes in Malaysia. World Renewable Energy Congress (WREC), 14−18 July 2013, Perth, Australia. www.academia.edu/145756699/Renewable_energy_from_palm_oil_wastes_in_Malaysia

Leegwater M, van Duijn G. 2012. Traceability of RSPO-certified sustainable palm oil. In Palm Oil. eds. Lai OM, Tan CP, Akoh CC. Amsterdam: Elsevier. pp. 713−736 doi: 10.1016/B978-0-9818936-9-3.50027-7

Fang L. 2025. Global trends of sustainable palm oil and China's pathway. 9^th RSPO China Forum & China Sustainable Agriculture Supply Chain Forum, 9 September 2025, Guilin, China. CFNA & RSPO. https://rspo.org/global-trends-of-sustainable-palm-oil-and-china-pathway/

Proya Cosmetics Co. Ltd. 2024. Proya secures RSPO supply chain certification. www.proya-group.com/en/news-info/1800

An Y, Wu Z, Zhang R, Zhang X, Tan Z, et al. 2025. Spatiotemporal dynamics of carbon sequestration capacity and its determinants in rubber plantation ecosystems of Hainan Island. Global Ecology and Conservation 57:e03431

Development Bank of Singapore. 2024. DBS continues to break new ground in China as first Southeast Asian bank to leverage PBOC's Carbon Emission Reduction Facility for issuance of green loan. www.dbs.com/newsroom/DBS_continues_to_break_new_ground_in_China_as_first_Southeast_Asian_bank_to_leverage_PBOCs_Carbon_Emission_Reduction_Facility_for_issuance_of_green_loan_sg?utm_source=chatgpt.com

Basiron Y. 2022. The launching of global framework principles of sustainable palm oil. https://cpopc.net/pressroom/read/the-launching-of-global-framework-principles-of-sustainable-palm-oil?utm_source=chatgpt.com

Jing Z, Zulyadi R, Ramadhan M. 2024. Environmental and green investment regulations: the impact of China's Belt and Green Road Initiative in Southeast Asia. ARBITER: Jurnal Ilmiah Magister Hukum 6:287−296

Argus. 2024. Beijing starts first municipal HVO blending trial. www.argusmedia.com/en/news-and-insights/latest-market-news/2618197-beijing-starts-first-municipal-hvo-blending-trial?utm_source=chatgpt.com

Sumathi S, Chai SP, Mohamed AR. 2008. Utilization of oil palm as a source of renewable energy in Malaysia. Renewable and Sustainable Energy Reviews 12:2404−2421

Mahidin, Saifullah, Erdiwansyah, Hamdani, Hisbullah, et al. 2020. Analysis of power from palm oil solid waste for biomass power plants: a case study in Aceh Province. Chemosphere 253:126714

Martin JJJ, Jerome J, Yarra R, Wei L, Cao H. 2022. Oil palm breeding in the modern era: challenges and opportunities. Plants 11:1395

Aziz M, Budianto D, Oda T. 2016. Computational fluid dynamic analysis of co-firing of palm kernel shell and coal. Energies 9:137

Danish M. 2021. Cabbage waste biochar and potting mixture in improving growth of Ocimum basilicum and water retention of soil. MS thesis. Hamad Bin Khalifa University (Qatar), Education City, Ar-Rayyan, Qatar. https://researchportal.hbku.edu.qa/en/studentTheses/cabbage-waste-biochar-and-potting-mixture-in-improving-growth-of-

Chang SH. 2014. An overview of empty fruit bunch from oil palm as feedstock for bio-oil production. Biomass and Bioenergy 62:174−181

Zhu Y, Frey HC. 2012. Integrated gasification combined cycle (IGCC) systems. In Combined Cycle Systems for Near-Zero Emission Power Generation, ed. Rao AK. Amsterdam: Elsevier. pp. 129−161 doi: 10.1533/9780857096180.129

Nuriana W, Suryanto A, Kamal M. 2019. Calorific value analysis, reduction of period weight, reaction rate, activation energy of old coconut, young coconut waste briquette burning, cocoa. IOP Conference Series: Materials Science and Engineering 588:012004

Amoako G, Mensah-Amoah P. 2019. Determination of calorific values of coconut shells and coconut husks. Journal of Materials Science Research and Reviews 2(2):1−7

Obeng GY, Amoah DY, Opoku R, Sekyere CKC, Adjei EA, et al. 2020. Coconut wastes as bioresource for sustainable energy: quantifying wastes, calorific values and emissions in Ghana. Energies 13:2178

Jariyapong M, Roongtawanreongsri S, Somboonsuke B. 2023. Estimating the economic value of carbon sequestration by sago palm (Metroxylon sagu Rottb.) in Thailand. International Journal of Design & Nature and Ecodynamics 18:1159−1167

Kongsager R, Napier J, Mertz O. 2013. The carbon sequestration potential of tree crop plantations. Mitigation and Adaptation Strategies for Global Change 18:1197−1213

Bernal B, Murray LT, Pearson TRH. 2018. Global carbon dioxide removal rates from forest landscape restoration activities. Carbon Balance and Management 13:22

Noirot LM, Müller-Stöver DS, Wahyuningsih R, Sørensen H, Sudarno, et al. 2022. Impacts of empty fruit bunch applications on soil organic carbon in an industrial oil palm plantation. Journal of Environmental Management 317:115373

Rudolf K, Hennings N, Dippold MA, Edison E, Wollni M. 2021. Improving economic and environmental outcomes in oil palm smallholdings: the relationship between mulching, soil properties and yields. Agricultural Systems 193:103242

Mu Z, Peng H, Jayarathna SPNC, Indrachapa MTN, Yang C, et al. 2025. The coconut palm in China: distribution, germplasm, and sustainable development through genomic and biotechnological approaches. Technology in Horticulture 5:e005

Widianto AY, Brian J, Zawawi ME, Purwanto E. 2026. Optimization of biodiesel production from palm oil via sodium-hydroxide-catalyzed transesterification in a tubular microreactor. Engineering Proceedings 128(1):2

Adisetya E, Gunawan S. 2024. The conceptual model of Indonesian palm oil supply chain based on blockchain. IOP Conference Series: Earth and Environmental Science 1377:012007

Muanruksa P, Winterburn J, Kaewkannetra P. 2021. Biojet fuel production from waste of palm oil mill effluent through enzymatic hydrolysis and decarboxylation. Catalysts 11:78

Ali Saand M, Li J, Wu Y, Zhou L, Cao H, et al. 2022. Integrative omics analysis of three oil palm varieties reveals (Tanzania × Ekona) TE as a cold-resistant variety in response to low-temperature stress. International Journal of Molecular Sciences 23:14926

Rival A, Jaligot E. 2010. Oil palm biotechnologies are definitely out of infancy. Oilseeds and fats, Crops and Lipids 17:368−374

Gu J, Gao Y, Xu X, Wu J, Yu L, et al. 2018. Biodiesel production from palm oil and mixed dimethyl/diethyl carbonate with controllable cold flow properties. Fuel 216:781−786