6 research outputs found
Beetles diversity (Order: Coleoptera) of R.E.A.C.H Biodiversity Centre, Cameron Highlands, Pahang, Malaysia
R.E.A.C.H Biodiversity Centre, Cameron Highlands is surrounded by 16 years old rehabilitated forest. This forest is currently managed by an NGO, Regional Environmental Awareness Cameron Highlands (R.E.A.C.H). A study on the diversity of Coleoptera was conducted at the area from July to August 2016. The beetles were sampled using four methods, namely the light trap, yellow pan trap, pitfall trap and manual collection on two trails. A total of 16 species comprise of 34 individuals from eight families was recorded. The Shannon-Wiener Diversity Index is high with H’=2.51 recorded. The most dominant beetles collected was the Scarabaeidae followed by Carabidae. Other beetles that were obtained are Cerambycidae, Colydiidae, Curculionidae, Lucanidae and Cetoniidae. They are all nocturnal beetles except one species, Thaumastopeus pugnator (Cetoniidae) which is diurnal. Coleopterans presence in this rehabilitated forest showed that the rehabilitation effort was successful as the replanted plants managed to attract the coleopterans. Further study at R.E.A.C.H Biodiversity Centre should be conducted in future to identify the changes in the beetle species composition over time
Termite fauna of Sungai Kangkawat, Imbak Canyon Conservation Area (ICCA), Sabah
Termites are important inhabitants of the tropical rain forest, and they are commonly found in tropical soils. They have great importance in tropical terrestrial ecosystems especially in the decomposition process, mediate ecosystem processes and facilitate to improve the structure and quality of the soil. This study was conducted to identify the termite fauna of Sungai Kangkawat, Imbak Canyon Conservation Area (ICCA). Termites were collected using a standardized 100mx2m line transect at South Rim Trail and also through casual collection around the study site. A total of 31 termite species were recorded in this study. The termite assemblage comprises two families namely, Rhinotermitidae and Termitidae. Family Termitidae dominated the termite assemblage with 87.1% (27 species). The collected termite species in this study comprises 30% of recorded termite species of Sabah. Seven subfamilies that are commonly recorded in the tropical forest were identified in this study. Subfamily Termitinae and Nasutitermitinae from family Termitidae dominated the termite assemblage of Sungai Kangkawat with 12 species and ten species respectively. The previous study conducted at ICCA recorded 29 species which have 43.9% similarity with the current study. A total of 12 species were identified as new records for ICCA through this study. Hence, the total number of termite species of ICCA is 41. This study has provided the checklist of termite fauna in Sungai Kangkawat and updated the termite checklist of ICCA
First report on pollinating behavior of the small carpenter bee Ceratina ridleyi Cockerell (Hymenoptera, Apidae) in Globba leucantha var. bicolor Holttum (Zingiberaceae)
Small carpenter bees of the genus Ceratina are widespread, but little-studied as pollinators despite their presence in various pollinator assemblages. This study documents the importance of Ceratina ridleyi as a pollinator of the small-flowered Malaysian ginger Globba leucantha var. bicolor. Species of Zingiberaceae are defined by peculiar floral morphologies (e.g staminodes and a single functional anther) but are rarely studied for their insect pollinators. Surprisingly, C. ridleyi was revealed as the single pollinator of Globba leucantha’s showy flowers even though the presence of Apis sp., Trigona sp., and Amegilla sp. were observed in the study site. This small carpenter bee collects both pollen and nectar from the ginger flower. Pollen grains were observed attached to its scopal hairs and hairs on the ventral thorax and ventral abdomen. The bee contacts the flower’s sole stigma only during foraging for pollen, where the stigma contacts pollen accumulated on hairs of the bee’s ventral thorax and ventral abdomen. This study represents the first pollination report of a Ceratina pollinating a species of Zingiberaceae, and only the second report of any Ceratina pollinating a flower with complex morphology
An overview of the pollination interactions between the ginger family (Zingiberaceae) and insects in Asia
The plant-biotic pollinator interaction is crucial for the survival of both organisms. Insects are recognised as effective biotic pollinators. As there are few specific studies on the pollination of angiosperms, the emphasis of this review is on understanding the pollination process by reviewing the knowledge of the ginger-insect pollinator interaction in Asia. Currently the plant-pollinator interaction of only 5% of Asian species of Zingiberaceae is evaluated. Previous studies indicate that bees, such as, halictid and blue-banded bees are, among the many floral vistors, the most important pollinators of ginger plants in Asia. Knowledge of non-bee pollinators is still scarce. In order to obtain a more detailed understanding of the interrelationship of the pollinators of ginger plants with the morphology of their flowers, floral scent and geographical factors, further research is needed
Evolution of endemismon a young tropical mountain
Tropical mountains are hot spots of biodiversity and endemism(1-3), but the evolutionary origins of their unique biotas are poorly understood(4). In varying degrees, local and regional extinction, long-distance colonization, and local recruitment may all contribute to the exceptional character of these communities(5). Also, it is debated whether mountain endemics mostly originate from local lowland taxa, or from lineages that reach the mountain by long-range dispersal from cool localities elsewhere(6). Here we investigate the evolutionary routes to endemism by sampling an entire tropical mountain biota on the 4,095-metre-high Mount Kinabalu in Sabah, East Malaysia. We discover that most of its unique biodiversity is younger than the mountain itself (6 million years), and comprises a mix of immigrant pre-adapted lineages and descendants from local lowland ancestors, although substantial shifts from lower to higher vegetation zones in this latter group were rare. These insights could improve forecasts of the likelihood of extinction and 'evolutionary rescue'(7) in montane biodiversity hot spots under climate change scenarios