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Australian palms
Australian Palms offers an updated and thorough systematic and taxonomictreatment of the Australian palm flora, covering 60 species in 21 genera. Of these,54 species occur in continental Australia and six species on the off-shore territoriesof Lord Howe Island, Norfolk Island and Christmas Island. Incorporating recent advances in biogeographic and phylogenetic research,Australian Palms provides a comprehensive introduction to the palm familyArecaceae, with reviews of botanical history, biogeography, phylogeny, ecology andconservation. Thorough descriptions of genera and species include notes on ecologyand typification, and keys and distribution maps assist with field recognition. Colourphotographs of habit, leaf, flowers, fruit and unique diagnostic characters alsofeature for each species. This work is the culmination of over 20 years of research into Australian palms,including extensive field-work and examination of herbarium specimens in Australia,South-East Asia, Europe and the USA.
eBook
Planet palm : how palm oil ended up in everything - and endangered the world
It's in our instant noodles and chocolate bars, our lipsticks and fuel tanks. But what even is palm oil, and how has it come to dominate our lives so completely? Jocelyn C. Zuckerman travels across four continents and back two centuries to find answers about the most widely used vegetable oil on Earth.
Book
Biofuel Plantations on Forested Lands: Double Jeopardy for Biodiversity and Climate
The growing demand for biofuels is promoting the expansion of a number of agricultural commodities, including oil palm ( Elaeis guineensis). Oil-palm plantations cover over 13 million ha, primarily in Southeast Asia, where they have directly or indirectly replaced tropical rainforest. We explored the impact of the spread of oil-palm plantations on greenhouse gas emission and biodiversity. We assessed changes in carbon stocks with changing land use and compared this with the amount of fossil-fuel carbon emission avoided through its replacement by biofuel carbon. We estimated it would take between 75 and 93 years for the carbon emissions saved through use of biofuel to compensate for the carbon lost through forest conversion, depending on how the forest was cleared. If the original habitat was peatland, carbon balance would take more than 600 years. Conversely, planting oil palms on degraded grassland would lead to a net removal of carbon within 10 years. These estimates have associated uncertainty, but their magnitude and relative proportions seem credible. We carried out a meta-analysis of published faunal studies that compared forest with oil palm. We found that plantations supported species-poor communities containing few forest species. Because no published data on flora were available, we present results from our sampling of plants in oil palm and forest plots in Indonesia. Although the species richness of pteridophytes was higher in plantations, they held few forest species. Trees, lianas, epiphytic orchids, and indigenous palms were wholly absent from oil-palm plantations. The majority of individual plants and animals in oil-palm plantations belonged to a small number of generalist species of low conservation concern. As countries strive to meet obligations to reduce carbon emissions under one international agreement (Kyoto Protocol), they may not only fail to meet their obligations under another (Convention on Biological Diversity) but may actually hasten global climate change. Reducing deforestation is likely to represent a more effective climate-change mitigation strategy than converting forest for biofuel production, and it may help nations meet their international commitments to reduce biodiversity loss.
Journal Article
Oil Palm
Oil palms are ubiquitous-grown in nearly every tropical country, they supply the world with more edible fat than any other plant and play a role in scores of packaged products, from lipstick and soap to margarine and cookies. And as Jonathan E. Robins shows, sweeping social transformations carried the plant around the planet. First brought to the global stage in the holds of slave ships, palm oil became a quintessential commodity in the Industrial Revolution. Imperialists hungry for cheap fat subjugated Africa's oil palm landscapes and the people who worked them. In the twentieth century, the World Bank promulgated oil palm agriculture as a panacea to rural development in Southeast Asia and across the tropics. As plantation companies tore into rainforests, evicting farmers in the name of progress, the oil palm continued its rise to dominance, sparking new controversies over trade, land and labor rights, human health, and the environment. By telling the story of the oil palm across multiple centuries and continents, Robins demonstrates how the fruits of an African palm tree became a key commodity in the story of global capitalism, beginning in the eras of slavery and imperialism, persisting through decolonization, and stretching to the present day.
eBook
Effect of oil palm sustainability certification on deforestation and fire in Indonesia
Many major corporations and countries have made commitments to purchase or produce only “sustainable” palm oil, a commodity responsible for substantial tropical forest loss. Sustainability certification is the tool most used to fulfill these procurement policies, and around 20% of global palm oil production was certified by the Roundtable on Sustainable Palm Oil (RSPO) in 2017. However, the effect of certification on deforestation in oil palm plantations remains unclear. Here, we use a comprehensive dataset of RSPO-certified and noncertified oil palm plantations (∼188,000 km²) in Indonesia, the leading producer of palm oil, as well as annual remotely sensed metrics of tree cover loss and fire occurrence, to evaluate the impact of certification on deforestation and fire from 2001 to 2015. While forest loss and fire continued after RSPO certification, certified palm oil was associated with reduced deforestation. Certification lowered deforestation by 33% from a counterfactual of 9.8 to 6.6% y−1. Nevertheless, most plantations contained little residual forest when they received certification. As a result, by 2015, certified areas held less than 1% of forests remaining within Indonesian oil palm plantations. Moreover, certification had no causal impact on forest loss in peatlands or active fire detection rates. Broader adoption of certification in forested regions, strict requirements to avoid all peat, and routine monitoring of clearly defined forest cover loss in certified and RSPO member-held plantations appear necessary if the RSPO is to yield conservation and climate benefits from reductions in tropical deforestation.
Journal Article
Improving Sustainability of Palm Oil Production by Increasing Oil Extraction Rate: a Review
Palm oil is the world’s most-produced vegetable oil that is serving as an important source of food and energy for many developing and underdeveloped countries. The global demand for palm oil will continue to rise, owing to the growing population and economy. Presently, tremendous efforts have been devoted to improving the sustainability of palm oil production. One strategy is to improve the oil extraction rate (OER) during the milling process. The average OER in Malaysia has remained stagnant between 19 and 21% for the past 40 years. Based on the world production of palm oil in 2018, approximately 3 million tonnes of additional palm oil can be produced globally with a 1% increase in OER. In this paper, the current status of the palm oil milling process and the factors affecting the OER are discussed. Subsequently, the methods to improve the OER are reviewed. Furthermore, the importance of producing good quality oil whilst improving the OER is emphasised. In conclusion, some of the methods reviewed have the potential for industrial application and they warrant further investigation.
Graphical Abstract
Journal Article