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Seedling Production Methods of DipterocarpsBACKGROUNDAvailable with subscription or purchase |
Experience with Planting Dipterocarps in Peninsular MalaysiaBackgroundAvailable with subscription or purchase |
Reforestation Experiences with Dipterocarp Species on GrasslandbackgroundAvailable with subscription or purchase |
Performance of 45 Native Tree Species on Degraded Lands in SingaporebackgroundThis paper evaluates research on the reforestation potential of 45 native tree species in Singapore, with a specific focus on identifying species that can quickly form a closed canopy. Open access copy available |
Enrichment Planting of Dipterocarps in Logged-Over Secondary Forests: Effect of Width, Direction and Maintenance Method of Planting Line on Selected Shorea SpeciesbackgroundIn this study, three different planting design experiements were conducted using three Dipterocarp tree species planted in a heavily logged area of South Kalimantan. The area was logged in 1979 and used for shifting cultivation until 1988. Available with subscription or purchase |
Rehabilitation of Degraded Forest with Shorea leprosula and S. selanica CuttingsbackgroundThis article describes limits to dipterocarp-based reforestation due to irregular flowering pattern, short seed storage period, and uncertain planting techniques in Southeast Asia. In West Java, Indonesia, the authors test the effectiveness of vegetative propagation for two species of fast-growing dipterocarps: Shorea leprosula and Shorea selanica. Open access copy available |
The Sabah Biodiversity Experiment: A Long-Term Test of the Role of Tree Diversity in Restoring Tropical Forest Structure and FunctioningbackgroundThis article details the initial stages of an experiment in Borneo which aims to study the relationship between tree diversity and lowland dipterocarp rainforest functioning during restoration after selective logging. Open access copy available |
Growth of dipterocarp seedlings in artificial gaps: An experiment in a logged-over rainforest in South Kalimantan, IndonesiaBackgroundRegeneration of dipterocarps following logging has become a crucial issue in tropical forest management. Secondary forest frequently and rapidly replaces dipterocarps in large logged-over patches. If unmanaged, these secondary forest patches are often composed of unmerchantable early-succession species. It has been hypothesized that dipterocarps grow most successfully in small gaps. Available with subscription or purchase |