We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Response of Odonata assemblages to disturbance in urban freshwater habitats
Summary
This paper is not about microplastics — it investigates how Odonata (dragonfly and damselfly) assemblages respond to different levels of habitat disturbance caused by urbanization in freshwater habitats in Ghana.
Abstract Urbanisation continues to increase at an alarming rate and its effects on the natural environment are very profound now more than ever. Moreover, studies on terrestrial urban landscapes seems to be more than that on urban freshwater habitats. Furthermore, studies have shown that the Odonata are effective indicators of the effects of urbanisation on freshwater habitats. However, not much is known about their responses to urbanisation in sub‐Saharan Africa, especially given the unique set of conditions that characterise the area. Therefore, this study was conducted to investigate differences in Odonata responses, measured as the proportion of habitat generalists, to three levels of habitat disturbance in the Cape Coast Metropolis of Ghana. Results showed that Phaon camerunensis was a potential indicator of habitat disturbance. Also, differences in habitat disturbance significantly affected Odonata composition. The most important variables that influenced Odonata responses were the individual and interaction effects of altitude and preservation of riparian vegetation. Therefore, conservation strategies that are targeted at reducing the impacts of urbanisation on Odonata must focus on these variables.
Sign in to start a discussion.
More Papers Like This
The effects of land‐use change on semi‐aquatic bugs (Gerromorpha, Hemiptera) in rainforest streams in Sabah, Malaysia
Not relevant to microplastics — this ecological study investigates how logging and conversion to oil palm plantation affects the abundance and diversity of semi-aquatic insects in streams in Sabah, Malaysia.
Effects of anthropogenic activities on microplastics in deposit-feeders (Diptera: Chironomidae) in an urban river of Taiwan
Researchers quantified microplastic abundance and types in midge larvae (Chironomidae) from an urban river and found that multiple anthropogenic activities including industrial discharge, agriculture, and residential runoff were associated with elevated microplastic levels in these freshwater deposit-feeders.
High macroplastic pollution in a subtropical urban lake affects macroinvertebrate community structure
Researchers examined the effects of high macroplastic pollution in a subtropical urban lake on macroinvertebrate communities, finding that plastic debris significantly altered benthic assemblages and reduced biodiversity in freshwater ecosystems that have received less ecological attention than marine environments.
Microplastic accumulation in benthic macroinvertebrates is widespread, regardless of the river ecological status
A broad survey of freshwater benthic macroinvertebrates across multiple rivers found that microplastic accumulation was widespread regardless of local urban development levels, suggesting that factors beyond proximity to urban areas—such as river hydrology and upstream sources—drive MP exposure in freshwater invertebrates.
Do Urban Rivers Provide Sanctuaryto Macroinvertebrates? A Case Study of an UrbanStretch of the Apies River in Pretoria, South Africa
Researchers assessed macroinvertebrate community health along an urban stretch of the Apies River in Pretoria, South Africa, evaluating whether urban rivers can provide refuge to macroinvertebrates amid impoundment, channel modification, and pollution from agriculture, mining, and wastewater discharges.