Household sweet waste's extracts: Potential man-made nectar sources for dengue vectors in nature
In nature, adult mosquitoes typically utilize nectar, which is not always available, as their main energy source, but they can switch to other as yet unidentified sugary fluids. These include Aedes vectors that commonly use man-made containers as their major habitat, but can colonize any items rep...
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| Format: | Final Year Project Report |
| Language: | English |
| Published: |
Universiti Malaysia Sarawak, (UNIMAS)
2017
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| Subjects: | |
| Online Access: | http://ir.unimas.my/id/eprint/31383/2/Nur%20Khairatun%20Khadijah.pdf http://ir.unimas.my/id/eprint/31383/ |
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| Summary: | In nature, adult mosquitoes typically utilize nectar, which is not always available, as their main energy source, but they can switch
to other as yet unidentified sugary fluids. These include Aedes vectors that commonly use man-made containers as their major
habitat, but can colonize any items replenished by rainfall. Contemporary lifestyles of human, with their associated unwillingness
to consume leftovers and improper disposal of waste, have resulted in the disposal of huge amounts of waste into the environment
at time when collection frequency is reducing. Such refuse often contains unfinished food items, many of which contain sugar and
some of which can collect water from rain and produce juices or fed upon by other animals and generate holes. Despite evidence
that mosquitoes can feed on semi-liquids or decaying fruits and that Aedes larvae can thrive in organic waste material-resembling
containers, the capacity of organic waste materials to accumulate rainwater. Also, the impacts of sweet waste fluids on dengue
vectors are unknown. Through a field survey and laboratory bioassays, we investigated the abundance of sweet leftovers at
garbage sites, and the rainwater retention capacity of some organic materials. We also checked whether the extracts from some
familiar sweet home waste impact key components of vectorial capacity of Aedes aegypti. It was found that sweet products with
leftovers are considerably prevalent in garbage. When exposed under rains, food items (Banana, Sweet Potato and Sweet Milk
can) retained water. For both males and females, maintenance on BAK extract resulted in marked survival levels that were similar
to those seen with SUG. Sweet waste extracts provided better substrates for survival compared to water, but this superiority was
mostly seen with BAK. Females maintained on BAK, YOG, and BAN exhibited shorter response times to a host compared to
their counterparts maintained on SUG. The levels of egg production were equivalent in waste extract- and SUG-fed females. The
findings presented here illustrate the potential of sweet waste-derived fluids to contribute to the vectorial capacity of dengue
vectors and suggest the necessity of readdressing the issue of waste disposal, especially that of unfinished sweet foods. Such
approaches can be particularly relevant in dengue endemic areas where rainfall is frequent and waste collection infrequent. |
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