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    Mongabay, a leading resource for news and perspectives on environmental and conservation issues related to the tropics, has launched Tropical Conservation Science - a new, open access academic e-journal. It will cover a wide variety of scientific and social studies on tropical ecosystems, their biodiversity and the threats posed to them. Tropical Conservation Science - March 8, 2008.

    At the 148th Meeting of the OPEC Conference, the oil exporting cartel decided to leave its production level unchanged, sending crude prices spiralling to new records (above $104). OPEC "observed that the market is well-supplied, with current commercial oil stocks standing above their five-year average. The Conference further noted, with concern, that the current price environment does not reflect market fundamentals, as crude oil prices are being strongly influenced by the weakness in the US dollar, rising inflation and significant flow of funds into the commodities market." OPEC - March 5, 2008.

    Kyushu University (Japan) is establishing what it says will be the world’s first graduate program in hydrogen energy technologies. The new master’s program for hydrogen engineering is to be offered at the university’s new Ito campus in Fukuoka Prefecture. Lectures will cover such topics as hydrogen energy and developing the fuel cells needed to convert hydrogen into heat or electricity. Of all the renewable pathways to produce hydrogen, bio-hydrogen based on the gasification of biomass is by far both the most efficient, cost-effective and cleanest. Fuel Cell Works - March 3, 2008.


    An entrepreneur in Ivory Coast has developed a project to establish a network of Miscanthus giganteus farms aimed at producing biomass for use in power generation. In a first phase, the goal is to grow the crop on 200 hectares, after which expansion will start. The project is in an advanced stage, but the entrepreneur still seeks partners and investors. The plantation is to be located in an agro-ecological zone qualified as highly suitable for the grass species. Contact us - March 3, 2008.

    A 7.1MW biomass power plant to be built on the Haiwaiian island of Kaua‘i has received approval from the local Planning Commission. The plant, owned and operated by Green Energy Hawaii, will use albizia trees, a hardy species that grows in poor soil on rainfall alone. The renewable power plant will meet 10 percent of the island's energy needs. Kauai World - February 27, 2008.


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Tuesday, September 16, 2008

Oil palm plantations no substitute for tropical rainforests - study


The continued expansion of oil palm plantations will worsen the dual environmental crises of climate change and biodiversity loss, unless rainforests are better protected, warn scientists in a comprehensive review of the subject. Lead author Emily Fitzherbert from the Zoological Society of London and University of East Anglia says there has been much debate over the role of palm oil production in tropical deforestation and its impacts on biodiversity. The researchers wanted to put the discussion on a more scientific footing. They point to the potential threats of an unregulated expansion of palm oil plantations, but they also offer some strategies to reduce these pressures.

The authors did not take into account the socio-economic arguments often heard in countries where palm oil production is a major contributor to the economy. These arguments boil down to the idea that, without palm oil, it would be difficult progress economically, and that, in the long-run, stagnation is equally or even more damaging to the environment. In a country like Malaysia, timber and palm oil combined are the second biggest export earner, after petroleum and natural gas. Any analysis of the damaging impacts of the palm oil industry must be balanced against these immediate 'benefits', some argue. The environmental effects of economic regression must be projected and taken into account as well.

Some of these countries go so far as to say that rich nations in the West have been able to develop by deforesting most of their land over the past 200 years. Because of the wealth they have accumulated during this period, these countries now have the economic means to engage in reforestation efforts. If these wealthy countries want to prevent developing nations from following a similar pathway, they should at least compensate the poorer nations. Thus, it is argued, a more comprehensive approach of the palm oil debate is needed. One that takes into account not only the immediate effects of oil palm expansion, but the history of modernity as such and the complex socio-economic drivers of deforestation in the tropics.

Palm oil, used in food, cosmetics, biodiesel and other products, is now the world's leading vegetable oil. It is derived from the fruit of the oil palm, grown on more than 50,000-square miles of moist, tropical lowland areas, mostly in Malaysia and Indonesia. These areas, once covered in tropical rainforest, the globe's richest wildlife habitat on land, are also home to some of the most threatened species on earth.

The review, published today in the journal Trends in Ecology and Evolution, singles out deforestation associated with plantation development as by far the biggest ecological impact, but finds that the links between the two are often much more complex than portrayed in the popular press:
Most land-cover statistics do not allow us to distinguish where oil palm has actually driven forest clearance. Oil palm certainly has directly replaced tropical forest in some areas, but oil palm companies also often have close links with timber or paper pulp companies, giving additional motives for deforestation. - Matt Struebig, co-author, Queen Mary, University of London
Within countries, oil palm is usually grown in a few productive areas, but it looks set to spread further. Demand is increasing rapidly and 'its potential as a future agent of deforestation is enormous', the study says. Most of the suitable land left is within the last remaining large areas of tropical rainforest in Central Africa, Latin America and Southeast Asia. Where oil palm has replaced tropical forest the impact on wildlife depends on what species survive in the new oil palm habitat:
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The study confirmed that oil palm is a poor substitute habitat for the majority of tropical forest species, particularly forest specialists and those of conservation concern.
By compiling scientific studies of birds, bats, ants and other species, we were able to show that on average, fewer than one-sixth of the species recorded in primary forest were found in oil palm. Degraded forest, and even alternative crops such as rubber and cocoa, supported higher numbers of species than oil palm plantations. - Emily Fitzherbert, lead author, Zoological Society of London and University of East Anglia
Even this estimate is likely to be optimistic, because forest habitats are more difficult to survey and some species inhabit plantations briefly before going extinct.

There is little potential to help wildlife within plantations, so ensuring that new plantations do not replace forest and protecting what is left of native forest in and around plantations are the only real options for protecting the majority of species, the researchers say.

International policies demanding evidence of environmental responsibility, in particular that land of high conservation value is not converted to oil palm, can help.
There is enough non-forested land suitable for plantation development to allow large increases in production without further deforestation. - Ben Phalan, co-author, University of Cambridge
However, in identifying these areas, there needs to be a careful distinction between degraded land that is of low conservation value, such as imperata grasslands, and partially logged or degraded forest areas which can still harbour relatively high levels of biodiversity and bring greater wildlife and carbon storage benefits if restored.

Unless governments in producer countries show stronger leadership in controlling logging, protecting forests and ensuring that crops are planted only in appropriate areas, the impacts of oil palm expansion on biodiversity will be substantial, adds Phalan.

This study is released as pressure mounts on UK and EU officials to rethink targets for biofuel sales. The UK's Renewable Fuels Agency estimates that more than 80 per cent of UK biofuels were not meeting voluntary environmental standards and has urged the UK government to slow the introduction of biofuels until more is known about their negative impacts.

While increases in palm oil based biofuel use will almost certainly add to pressure on tropical forests, the study highlights how those pressures might be reduced.

A recent initiative, the Roundtable on Sustainable Palm Oil, has encouraged 40 per cent of the palm oil industry to commit to saving wildlife on and around plantations. The scientists hope that the Roundtable will continue to attract many of the remaining 60 per cent.

In Indonesia, some NGOs are using satellite technology and the internet to investigate illegal forest clearance by oil palm companies and to put public pressure on them to improve. These initiatives will help, but the study warns that unless they are scaled up and better supported by stronger government action against deforestation, damage to rainforests and their unique wildlife will continue.

References:
Emily B. Fitzherbert, Matthew J. Struebig, Alexandra More, Finn Danielsen, Carsten A. Brüh, Paul F. Donald and Ben Phalan, "How will oil palm expansion affect biodiversity?", Trends in Ecology and Evolution, doi:10.1016/j.tree.2008.06.012



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