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Palm Plantations (palm + plantation)

Distribution by Scientific Domains
Life Sciences83%

Kinds of Palm Plantations

  • oil palm plantation
    		•

    Selected Abstracts

    Vulnerability, Control and Oil Palm in Sarawak: Globalization and a New Era?

    DEVELOPMENT AND CHANGE, Issue 2 2002
    Fadzilah Majid Cooke
    In the post logging era, Sarawak is being restructured to make way for large-scale oil palm plantations. In this restructuring, the vulnerabilities of particular areas are being used in a wider battle to control production, particularly for export. Native customary lands, considered ,unproductive' or ,idle' by officials, are the target of oil palm plantation development under a new land development programme called Konsep Baru (New Concept). This article looks at the contradictions generated by the complex process of laying claims to ,idle' native customary land and focuses on Dayak organizing initiatives in northern Sarawak, Malaysia. [source]

    Conservation value of degraded habitats for forest birds in southern Peninsular Malaysia

    DIVERSITY AND DISTRIBUTIONS, Issue 5 2006
    Kelvin S.-H.
    ABSTRACT Clearance of tropical forest for agricultural purposes is generally assumed to seriously threaten the survival of forest species. In this study, we quantified the conservation value, for forest bird species, of three degraded habitat types in Peninsular Malaysia, namely rubber tree plantations, oil palm plantations, and open areas. We surveyed these degraded habitats using point counts to estimate their forest bird species richness and abundance. We assessed whether richness, abundance, and activities of different avian dietary groups (i.e. insectivores and frugivores) varied among the habitats. We identified the critical habitat elements that accounted for the distribution of forest avifauna in these degraded habitats. Our results showed that these habitats harboured a moderate fraction of forest avifauna (approximately 46,76 species) and their functions were complementary (i.e. rubber tree plantations for moving; open habitats for perching; shrubs in oil palm plantations for foraging). In terms of species richness and abundance, rubber tree plantations were more important than oil palm plantations and open habitats. The relatively high species richness of this agricultural landscape was partly due to the contiguity of our study areas with extensive forest areas. Forecasts of forest-species presence under various canopy cover scenarios suggest that leaving isolated trees among non-arboreal crops could greatly attract relatively tolerant species that require tree canopy. The conservation value of degraded habitats in agricultural landscapes seems to depend on factors such as the type of crops planted and distance to primary forest remnants. [source]

    Predation by an exotic lizard, Anolis sagrei, alters the ant community structure in betelnut palm plantations in southern Taiwan

    ECOLOGICAL ENTOMOLOGY, Issue 5 2008
    SHAO-CHANG HUANG
    Abstract 1.,Predators can affect prey directly by reducing prey abundance and indirectly by altering behavioural patterns of prey. From previous studies, there is little evidence that ant community structure is affected by vertebrate predation. 2.,Researchers tend to consider the interactions between vertebrate predators and ants to be weak. The present study examined the impact of the exotic invasive lizard, Anolis sagrei, on the ant community structure by manipulating the density of lizards within enclosures. The natural density of A. sagrei in the field was surveyed and used as the stocking density rate in the lizard-present sub-enclosures. 3.,Before the lizard density was manipulated, there was no difference in the ant diversity between sub-enclosures. After the lizard density manipulation, the ant diversity in sub-enclosures with A. sagrei present was significantly different from that of enclosures where the lizards were absent, although the overall ant abundance did not differ significantly. 4.,The ant diversity difference was generated by a significant reduction of the ant species Pheidole fervens in sub-enclosures with A. sagrei present. Such an abundance change might be the result of direct predation by the lizards, or it might be generated by a foraging site shift by this ant. 5.,The results of this study thus demonstrated that the invasion of an exotic vertebrate can significantly alter the community structure of ants, perhaps through the combined direct and indirect effects of lizards on ants. [source]

    Acephate, methamidophos and monocrotophos residues in a laboratory-scale oil refining process

    EUROPEAN JOURNAL OF LIPID SCIENCE AND TECHNOLOGY, Issue 6 2009
    Chee Beng Yeoh
    Abstract Acephate, methamidophos and monocrotophos are insecticides used in oil palm plantations for the control of bagworms and leaf-eating caterpillars. The main purpose of this study was to determine whether the physical refining process at laboratory scale, which simulated the manufacturing process, could remove the residues of these three insecticides in crude palm oil, in the unlikely event that crude palm oil were contaminated with these organophosphorus insecticides. A series of crude palm oil samples spiked with low (0.1,µg/g) and high (1.0,µg/g) levels of these insecticides were subjected to a laboratory-scale physical oil refining process. Oil samples drawn at various stages of the refining process, namely, degumming, bleaching and deodorization, were analyzed using an in-house analytical method. The results obtained from these experiments suggest that the physical refining process is capable of effectively removing residual insecticides from crude palm oil. The final product of crude palm oil refining, the refined, bleached and deodorized palm oil, was found to have no detectable levels of acephate, methamidophos and monocrotophos. [source]

    Can oil palm plantations be made more hospitable for forest butterflies and birds?

    JOURNAL OF APPLIED ECOLOGY, Issue 4 2008
    Lian Pin Koh
    Summary 1Rising global demand for palm oil is likely to exacerbate deforestation rates in oil palm-producing countries. This will lead to a net reduction in biodiversity unless measures can be taken to improve the value of oil palm plantations. 2Here, I investigate whether the biodiversity of oil palm plantations can be increased by determining how forest-dwelling butterflies and birds in these plantations are affected by vegetation characteristics at the local level (e.g. epiphyte prevalence) and by natural forest cover at the landscape level (e.g. old-growth forests surrounding oil palm estates). 3Across transects, vegetation variables explained 0,1·2% of the variation in butterfly species richness and 0,7% of that in bird species richness. The most important predictors of species richness across transects were percentage ground cover of weeds for butterflies; and epiphyte prevalence and presence of leguminous crops for birds. Across estates, natural forest cover explained 1·2,12·9% of the variation in butterfly species richness and 0·6,53·3% of variation in bird species richness. The most important predictors of species richness across estates were percentage cover of old-growth forests surrounding an estate for butterflies; and percentage cover of young secondary forests surrounding an estate for birds. 4Synthesis and applications. In order to maximize biodiversity in oil palm plantations, oil palm companies and local governments should work together to preserve as much of the remaining natural forests as possible by, for example, creating forested buffer zones around oil palm estates or protecting remnant forest patches in the landscape. [source]