Atsalek Rattanawannee scite author profile

Morphometrics is a relatively powerful analytical tool for the identification of distinct species and subspecies of bees. Typically, within honey bees (Apidae: Apis), morphometric analysis has been used to differentiate the groups and species by using multiple body characteristics. However, these procedures are time-consuming for the suitable preparation of the samples and orientating each part into the correct plane for accurate measurement. Here, we were able to discriminate four honey bee species based on their wing venation pattern information only. Geometric morphometric measurements of the right forewing of drones and workers of Apis andreniformis Smith, Apis cerana F., Apis dorsata F., and Apis florea F. were analyzed. The results demonstrated that the patterns of forewing venation of native Thai honey bees between sexes in the same species were more closely related to each other than to honey bees of the same sex in another species. The wing venation pattern carried sufficient information to discriminate 99% of the individuals, and so the geometric morphometric analysis of the wing alone could be used to identify Asian honey bee species in most circumstances. In addition, the sex of the individual did not obstruct identification. Therefore, morphometric analysis of a single wing might be a useful tool for biodiversity studies of bees and other insects or fossil records. Many insect fossils are only known from a wing, including several fossil honey bees.

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Consensus building in giant Asian honeybee, Apis dorsata, swarms on the move

Makinson

Schaerf

Rattanawannee

et al. 2014

Animal Behaviour

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Preliminary Screening for Various Bioactivities in Honey and Propolis Extracts from Thai Bees

Kaewmuangmoon¹,

Nonthapa²,

Rattanawannee³

et al. 2012

EJMP

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Morphometric and genetic variation of small dwarf honeybees Apis andreniformis Smith, 1858 in Thailand

2007

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The small dwarf honey bee, Apis andreniformis, is a rare and patchily distributed Apis spp. and is one of the native Thai honey bees, yet little is known about its biodiversity. Thirty (27 Thai and 3 Malaysian) and 37 (32 Thai and 5 Malaysian) colonies of A. andreniformis were sampled for morphometric and genetic analysis, respectively. For morphometric analysis, 20 informative characters were used to determine the variation. After plotting the factor scores, A. andreniformis from across Thailand were found to belong to one group, a notion further supported by a cluster analysis generated dendrogram. However, clinal patterns in groups of bee morphometric characters were revealed by linear regression analysis. The body size of bees increases from South to North but decreases from West to East, although this may reflect altitude rather than longitude. Genetic variation was determined by sequence analysis of a 520 bp fragment of the mitochondrial cytochrome oxidase subunit b (cytb). DNA polymorphism among bees from the mainland of Thailand is lower than that from Phuket Island and Chiang Mai. Although two main different groups of bees were obtained from phylogenetic trees constructed by neighbor-joining and unweighted pair-group method using arithmetic averages programs, no clear geographic signal was present. Thus, while the minor group (B) contained all of the samples from the only island sampled (Phuket in the south), but not the southern mainland colonies, it also contained samples from the far northern inland region of Chiang Mai, other samples of which were firmly rooted in the major group (A).

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Southeast Asian Meliponiculture for Sustainable Livelihood

Rattanawannee¹,

Duangphakdee²

2020

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Stingless bees (Apidae: Meliponini) are one of the most important pollinators of native plants and economic crops in tropical and subtropical parts of the world. They not only establish large perennial colonies with complex social organization but also have a diverse nesting biology. The economic utilization of a total of 60 stingless bee species in Asia has been reported. The current status of meliponiculture in Southeast Asia is mainly focused on pollination utilization and honey and propolis production. This chapter shows that small-scale beekeeping of stingless bees, which is suitable for the flowering pattern in the tropics, is one of the best potential alternative opportunities. The cost-effectiveness analysis based on production yield, investment cost, and profit-return rate is reviewed. Finally, a sustainable utilization of stingless bees is considered to be an enhancer of pollination services both in an agricultural crop and natural ecosystem.

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Geometric morphometric analysis of giant honeybee (Apis dorsata Fabricius, 1793) populations in Thailand

Rattanawannee

Chanchao

Wongsiri

2012

Journal of Asia-Pacific Entomology

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Genetic structure of a giant honey bee (Apis dorsata) population in northern Thailand: implications for conservation

Rattanawannee

Chanchao

Lim

et al. 2012

Insect Conserv Diversity

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Abstract. 1. The giant honey bee, Apis dorsata, is a keystone pollinator. The species is heavily hunted throughout Thailand. Furthermore, forest clearing, widespread use of pesticides and proliferation of street lighting (which attracts bees, often resulting in their death) are likely to have significant impacts on population viability. 2. We examined the relatedness and genetic variation within and between aggregations of A. dorsata nests. Microsatellite analysis of 54 nests in three aggregations showed that no colonies were related as mother–daughter. Thus, if reproduction occurred at our study sites, daughter colonies dispersed. This suggests that rapid increases in A. dorsata colony numbers during general flowering events most likely occur by swarms arriving from other areas rather than by in situ reproduction. 3. The population has high levels of heterozygosity. Fst values between aggregations were not significantly different from zero (P > 0.05). This suggests that despite the formidable anthropogenic pressures that the A. dorsata population endures in northern Thailand, the species continues to enjoy a large effective population size and has high connectedness. 4. We conclude that A. dorsata is currently able to tolerate habitat fragmentation and annual harvesting. We speculate that the population is sustained by immigration from forested regions to the northwest of our study sites in Burma.

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Genetic Structure of the Aphis craccivora (Hemiptera: Aphididae) From Thailand Inferred From Mitochondrial COI Gene Sequence

Wongsa¹,

Duangphakdee²,

Rattanawannee³

2017

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The cowpea aphid, Aphis craccivora Koch (Hemiptera: Aphididae), is one of the most destructive insect pests of legume plants worldwide. Although outbreaks of this pest occur annually in Thailand causing heavy damage, its genetic structure and demographic history are poorly understood. In order to determine genetic structure and genetic relationship of the geographic populations of this species, we examined sequences of mitochondrial cytochrome c oxidase subunit I (COI) gene of 51 individuals collected from 32 localities throughout Thailand. Within the sequences of these geographic populations, 32 polymorphic sites defined 17 haplotypes, ranging in sequence divergence from 0.2% (1 nucleotide) to 2.7% (16 nucleotides). A relatively high haplotype diversity but low nucleotide diversity was detected in the populations of A. craccivora, a finding that is typical for migratory species. Phylogenetic analysis revealed a weak phylogeographic structuring among the geographic populations and among the haplotypes, indicating their close relationship. Considering the distance between the sampling sites, the occurrence of identical haplotypes over wide areas is noteworthy. Moreover, the low genetic distance (FST ranging from −0.0460 to 0.3263) and high rate of per-generation female migration (Nm ranging from 1.0323 to 20.3333) suggested population exchange and gene flow between the A. craccivora populations in Thailand.

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