Volume 30, 2023
Palm and palm oil / Palmier et huile de palme
Article Number 28
Number of page(s) 6
Published online 18 December 2023
  • Aidoo OF, Hao M, Ding F, et al. 2022. The impact of climate change on potential invasion risk of Oryctes monoceros worldwide. Front Ecol Evol 10. DOI=10.3389/fevo.2022.895906 [CrossRef] [Google Scholar]
  • Abram NK, Xofis P, Tzanopoulos J, et al. 2014. Synergies for improving oil palm production and forest conservation in floodplain landscapes. PloS one, 9 (6): e95388. [CrossRef] [PubMed] [Google Scholar]
  • Ancrenaz M, Oram F Nardiyono, et al. 2021. Importance of orangutans in small fragments for maintaining metapopulation dynamics. Front For Glob Change 4: 560944. [CrossRef] [Google Scholar]
  • Austin KG, Mosnier A, Pirker J, McCallum I, Fritz S, Kasibhatla PS. 2017. Shifting patterns of oil palm driven deforestation in Indonesia and implications for zero-deforestation commitments, Land Use Policy 69: 41–48. [CrossRef] [Google Scholar]
  • Barral S. 2017. From indenture to entrepreneurship: labour issues in Indonesian palm tree plantations. Entrep Histoie (3) : 136–146. [Google Scholar]
  • Besar NA, Suardi H, Phua MH, James D, Mokhtar MB, Ahmed MF. 2020. Carbon stock and sequestration potential of an agroforestry system in Sabah, Malaysia. Forests 11 (2): 210. [CrossRef] [Google Scholar]
  • Bessou C, Verwilghen A, Beaudouin-Ollivier L, et al. 2017. Agroecological practices in oil palm plantations: examples from the field. OCL Oilseeds and Fats Crops and Lipids 24 (3). [Google Scholar]
  • Bhagwat SA, Willis KJ. 2008. Agroforestry as a solution to the oil‐palm debate. Conserv Biol 22 (6): 1368–1369. [CrossRef] [PubMed] [Google Scholar]
  • Carrere R. 2013. Oil palm in Africa. Past, present and future scenarios. WRM series on tree plantation No. 15. World Rainforest Movement. [Google Scholar]
  • Chalil D, Barus R. 2018. Analysis of smallholders’ progress in implementing sustainable management in North Sumatra, Indonesia. Indonesian J Agric Res 1 (3): 246–259. [Google Scholar]
  • Chalil D, Barus R. 2019. Risk analysis for sustainability of oil palm smallholdings. J Manaj Agribisnis 16 (1): 23. [Google Scholar]
  • Corley, R.H.V. and Tinker, P.B., 2016. The Oil Palm, 5th Edition. ISBN: 978-1-405-18939-2 Wiley-Blackwell, Oxford, UK 680 Pages. [Google Scholar]
  • Crowley MZ. 2020. Foreign labor shortages in the modelling palm oil industry: impacts and recommendations. Asian J Agric Dev 17(1362-2020-1833): 1–18. [Google Scholar]
  • Dislich, C., Keyel, A.C., Salecker, J., Kisel, Y., Meyer, K.M., Auliya, M., Barnes, A.D., Corre, M.D., Darras, K., Faust, H. and Hess, B., 2017. A review of the ecosystem functions in oil palm plantations, using forests as a reference system. Biological Reviews, 92(3), pp.1539–1569. [CrossRef] [PubMed] [Google Scholar]
  • Donfack, L.S., Röll, A., Ellsäßer, F., Ehbrecht, M., Irawan, B., Hölscher, D., Knohl, A., Kreft, H., Siahaan, E.J., Sundawati, L. and Stiegler, C., 2021. Microclimate and land surface temperature in a biodiversity enriched oil palm plantation. Forest Ecology and Management, 497, p.119480. [CrossRef] [Google Scholar]
  • Duffy C, Toth GG, Hagan RP, et al. 2021. Agroforestry contributions to smallholder farmer food security in Indonesia. Agrofor Syst 95 (6): 1109–1124. [CrossRef] [Google Scholar]
  • El Pebrian D, Mohiddin DNA. 2021. Exploring mechanization degree and capacity in Malaysia’s oil palm plantations. Agric Eng Int: CIGR J 23 (2). [Google Scholar]
  • Feintrenie L, Chong WK, Levang P. 2010. Why do farmers prefer oil palm? Lessons learnt from Bungo district, Indonesia. Small-Scale For 9: 379–396. [CrossRef] [Google Scholar]
  • Foster WA, Snaddon JL, Turner EC, et al. 2011. Establishing the evidence base for maintaining biodiversity and ecosystem function in the oil palm landscapes of South-East Asia. Philos Trans R Soc B. Biol Sci 366 (1582): 3277–3291. [CrossRef] [PubMed] [Google Scholar]
  • Gómez AM, Parra A, Pavelsky TM, Wise EK, Villegas JC, Meijide A. 2023. Ecohydrological impacts of oil palm expansion: a systematic review. Environ Res Lett. 18 (2023) 033005 DOI:10.1088/1748-9326/acbc38 [Google Scholar]
  • Khasanah N, van Noordwijk M, Slingerland M, et al. 2020. Oil palm agroforestry can achieve economic and environmental gains as indicated by multifunctional land equivalent ratios. Front Sustain Food Syst 122. [CrossRef] [Google Scholar]
  • Low G, Dalhaus T, Meuwissen MP. 2023. Mixed farming and agroforestry systems: A systematic review on value chain implications. Agric Syst 206: 103606. [CrossRef] [Google Scholar]
  • Masure A, Martin P, Lacan X, Rafflegeau S. 2022. Promoting oil palm-based agroforestry systems: an asset for the sustainability of the sector. Cahiers Agric 32: 16, 9 p. [Google Scholar]
  • Meijaard E, Brooks TM, Carlson KM, et al. 2020. The environmental impacts of palm oil in context. Nat Plants 6 (12): 1418–1426. [CrossRef] [PubMed] [Google Scholar]
  • Meijide A, Badu CS, Moyano F, Tiralla N, Gunawan D, Knohl A. 2018. Impact of forest conversion to oil palm and rubber plantations on microclimate and the role of the 2015 ENSO event. Agric For Meteorol 252: 208–219. [CrossRef] [Google Scholar]
  • Messier, C., Bauhus, J., Sousa-Silva, R., Auge, H., Baeten, L., Barsoum, N., Bruelheide, H., Caldwell, B., Cavender-Bares, J., Dhiedt, E. and Eisenhauer, N., 2022. For the sake of resilience and multifunctionality, let’s diversify planted forests!. Conservation Letters, 15(1), p.e12829. [CrossRef] [Google Scholar]
  • Miccolis A, Robiglio V, Cornelius JP, Blare T, Castellani D. 2019. Oil palm agroforestry: fostering socially inclusive and sustainable production in Brazil. Exploring inclusive palm oil production. ETFRN News Tropenbi-s − ISBN: 978-90-5113- 141–3 55–62. [Google Scholar]
  • Monzon JP, Slingerland MA, Rahutomo S, et al. 2021. Fostering a climate-smart intensification for oil palm. Nat Sustain 4 (7): 595–601. [CrossRef] [Google Scholar]
  • Murphy DJ, Goggin K, Paterson RRM. 2021. Oil palm in the 2020s and beyond: challenges and solutions. CABI Agric Biosci 2 (1): 1–22. [CrossRef] [Google Scholar]
  • Nair PKR. 2019. Tropical agroforestry systems and practices. In: Tropical Resources (pp. 227–250). Routledge. [CrossRef] [Google Scholar]
  • Ntawuruhunga D, Ngowi EE, Mangi HO, Salanga RJ, Shikuku KM. 2023. Climate-smart agroforestry systems and practices: A systematic review of what works, what do’sn’t work, and why. For Policy Econ 150: 102937. [CrossRef] [Google Scholar]
  • Nugroho HYSH, Indrajaya Y, Astana S, et al. 2023. A chronicle of Indonesia’s forest management: a long step towards environmental sustainability and community welfare. Land 12: 1238. [CrossRef] [Google Scholar]
  • Numata I, et al. 2022. Deforestation, plantation-related land cover dynamics and oil palm age-structure change during 1990–2020 in Riau Province, Indonesia. Environ Res Lett 17: 09402. [Google Scholar]
  • Paterson RRM. 2019. Ganoderma boninense disease of oil palm to significantly reduce production after 2050 in Sumatra if projected climate change occurs. Microorganisms 7 (1): 24. [CrossRef] [PubMed] [Google Scholar]
  • Paterson RRM, Sariah M, Lima N. 2013. How will climate change affect oil palm fungal diseases? Crop Protect 46: 113–120. [CrossRef] [Google Scholar]
  • Paterson RRM, Lima N. 2018. Climate change affecting oil palm agronomy, and oil palm cultivation increasing climate change, require amelioration. Ecol Evol 8 (1): 452–461. [CrossRef] [PubMed] [Google Scholar]
  • Pirker J, Mosnier A, Kraxner F, Havlík P, Obersteiner M. 2016. What are the limits to oil palm expansion? Glob Environ Change 40: 73–81. [CrossRef] [Google Scholar]
  • Purwanto E, Santoso H, Jelsma I, Widayati A, Nugroho HY, van Noordwijk M. 2020. Agroforestry as policy option for forest-zone oil palm production in Indonesia. Land 9 (12): 531. [CrossRef] [Google Scholar]
  • Rafflegeau S, Gosme M, Barkaoui K, et al. 2023. The ESSU concept for designing, modelling and auditing ecosystem service provision in intercropping and agroforestry systems. A review. Agron Sustain Dev 43 (4): 43. [CrossRef] [Google Scholar]
  • Rahmani TA, Nurrochmat DR, Hero Y, Park MS, Boer R, Satria A. 2021. Evaluating the feasibility of oil palm agroforestry in Harapan Rainforest, Jambi, Indonesia. For Soc 5 (2): 458–477. [Google Scholar]
  • Reith E, Gosling E, Knoke T, Paul C. 2022. Exploring trade-offs in agro-ecological landscapes: Using a multi-objective land-use allocation model to support agroforestry research. Basic Appl Ecol 64: 103–119. [CrossRef] [Google Scholar]
  • Rist L, Feintrenie L, Levang P. 2010. The livelihood impacts of oil palm: smallholders in Indonesia. Biodivers Conserv 19 (4): 1009–1024. [CrossRef] [Google Scholar]
  • Rival A. 2017. Breeding the oil palm (Elaeis guineensis Jacq.) for climate change. OCL − Oilseeds and fats, Crops and Lipids 24 (1): D107. [Google Scholar]
  • Rival A, Levang P. 2014. Palms of controversies: Oil palm and development challenges. Bogor, Indonesia: CIFOR. [Google Scholar]
  • Rival A, Ancrenaz M, Lackman I, et al. 2022. August. Innovative agroforestry designs for tropical plantation landscapes: the TRAILS project. In: XXXI International Horticultural Congress (IHC2022): International symposium on agroecology and system approach for sustainable, 1355, pp. 109–116. [Google Scholar]
  • Santika T, Sherman J, Voigt M, et al. 2022. Effectiveness of 20 years of conservation investments in protecting orangutans. Curr Biol 32 (8): 1754–1763. [CrossRef] [PubMed] [Google Scholar]
  • Sarkar MSK, Begum RA, Pereira JJ. 2020. Impacts of climate change on oil palm production in Malaysia. Environ Sci Pollut Res 27: 9760–9770. [CrossRef] [PubMed] [Google Scholar]
  • Savilaakso S, Garcia C, Garcia-Ulloa J, et al. 2014. Systematic review of effects on biodiversity from oil palm production. Environ Evidence 3 (1): 4. [CrossRef] [Google Scholar]
  • Seaman DJI, Voigt M, Bocedi G, et al. 2021. Orangutan movement and population dynamics across human-modified landscapes: implications of policy and management. Landsc Ecol 36: 2957–2975. [CrossRef] [Google Scholar]
  • Sinaga H. Buruh Siluman: the making and maintaining of cheap and disciplined labour on oil palm plantations in Indonesia. In: Bioeconomy and global inequalities: socio-ecological perspectives on biomass sourcing and production. Cham: Springer International Publishing, 2021, pp. 175–193 [CrossRef] [Google Scholar]
  • Stiegler, C., Meijide, A., Fan, Y., Ashween Ali, A., June, T., & Knohl, A. (2019). El Niño–Southern Oscillation (ENSO) event reduces CO 2 uptake of an Indonesian oil palm plantation. Biogeosciences, 16(14), 2873–2890. [CrossRef] [Google Scholar]
  • Terasaki Hart DE, Yeo S, Almaraz M, et al. 2023. Priority science can accelerate agroforestry as a natural climate solution. Nat Clim Change 1–12. [Google Scholar]
  • Tapia JFD, Doliente SS, Samsatli S. 2021. How much land is available for sustainable palm oil? Land Use Policy 102: 105187. [CrossRef] [Google Scholar]
  • USDA. 2023. Palm Oil Explorer − USDA Foreign Agricultural Servie − International Production Assessment Division. [Google Scholar]
  • Zemp DC, Ehbrecht M, Seidel D, et al. 2019. Mixed-species tree plantings enhance structural complexity in oil palm plantations. Agric Ecosyst Environ 283: 106564. [CrossRef] [Google Scholar]
  • Zemp DC, Guerrero-Ramirez N, et al. 2023. Tree islands enhance biodiversity and functioning in oil palm landscapes. Nature 1–6. [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.