Tree islands bring biodiversity to oil palm plantations
An international team of researchers led by the University of Göttingen – Collaborative Research Centre (CRC) "EFForTS – planted experimental islands of trees in plantations on the Indonesian island of Sumatra to counteract the species loss caused by the intensive cultivation of oil palms. The results were published in the journal Nature in May 2023.
The conversion of tropical forests into oil palm plantations leads to considerable losses of biodiversity and ecological functions. Worldwide, a total of about 21 million hectares of palm oil plantations are cultivated, mainly in Indonesia and Malaysia. To mitigate the negative impact on the environment, the scientists established 52 tree islands with local tree species in an industrial oil palm plantation. This has turned out to be a promising strategy for ecological restoration.
The research team had expected yields to deteriorate over time as the tree islands consumed resources for their own development at the expense of the oil palms. "However, even after five years after the experiment began, the oil palms have continued to flourish. And this has been accomplished without the use of artificial fertiliser in the tree islands," explains first author Professor Delphine Clara Zemp, now at the University of Neuchâtel/Switzerland. "Our results show that the industry can benefit from this intervention. There is real potential to develop these methods to enrich biodiversity on a large scale."
A chance to restore the ecology in large-scale oilpalm plantations
"Most studies of the ecology of palm oil plantations are limited to observing the loss of biodiversity and deterioration of the ecosystem," explains co-author Professor Holger Kreft, Head of Göttingen University’s Biodiversity, Macroecology and Biogeography Research Group. "Our approach to ecological restoration goes a step further and is unique world-wide, as it takes place against the backdrop of industrial-scale oil palm plantations across large areas. Using a rigorous experimental design, we can determine the optimal composition and size of islands of trees that will bring about the best possible way to restore the ecology."
The researchers analysed the biodiversity of soil microorganisms (such as bacteria or fungi), insects and other small invertebrates, plants, birds and bats three to five years after establishing the experiment. They also quantified the impacts in terms of water, carbon and nutrient cycle regulation, microclimate, soil quality, pollination and control of biological communities and invasive species.
Close cooperation with the owners of the plantation was essential for the smooth running of the research project. "The collaboration helped us to better understand issues relating to the agricultural and economic management of the plantation and how our experimental trials affect oil palm yields. These aspects are crucial for the industry," says Zemp.
The 40 authors of the study agreed that the top priority must continue to be the prevention of deforestation. "The encouraging results must not be allowed to jeopardise the conservation of tropical forests, which are home to irreplaceable biodiversity," the team concludes.
(University of Göttingen/wi)