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Forest Restoration and the Zoonotic Vector Anopheles balabacensis in Sabah, Malaysia
Anthropogenic changes to forest cover have been linked to an increase in zoonotic diseases. In many areas, natural forests are being replaced with monoculture plantations, such as oil palm, which reduce biodiversity and create a mosaic of landscapes with increased forest edge habitat and an altered...
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Published in: | EcoHealth 2024-03, Vol.21 (1), p.21-37 |
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Main Authors: | , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites |
Online Access: | Get full text |
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Summary: | Anthropogenic changes to forest cover have been linked to an increase in zoonotic diseases. In many areas, natural forests are being replaced with monoculture plantations, such as oil palm, which reduce biodiversity and create a mosaic of landscapes with increased forest edge habitat and an altered micro-climate. These altered conditions may be facilitating the spread of the zoonotic malaria parasite
Plasmodium knowlesi
in Sabah, on the island of Borneo, through changes to mosquito vector habitat. We conducted a study on mosquito abundance and diversity in four different land uses comprising restored native forest, degraded native forest, an oil palm estate and a eucalyptus plantation, these land uses varying in their vegetation types and structure. The main mosquito vector,
Anopheles balabacensis
, has adapted its habitat preference from closed canopy rainforest to more open logged forest and plantations. The eucalyptus plantations
(Eucalyptus pellit
a) assessed in this study contained significantly higher abundance of many mosquito species compared with the other land uses, whereas the restored dipterocarp forest had a low abundance of all mosquitos, in particular,
An. balabacensis
. No
P
.
knowlesi
was detected by PCR assay in any of the vectors collected during the study; however,
P. inui
,
P. fieldi
and
P. vivax
were detected in
An. balabacensis
. These findings indicate that restoring degraded natural forests with native species to closed canopy conditions reduces abundance of this zoonotic malarial mosquito vector and therefore should be incorporated into future restoration research and potentially contribute to the control strategies against simian malaria. |
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ISSN: | 1612-9202 1612-9210 |
DOI: | 10.1007/s10393-024-01675-w |