Assessment of the Impacts of Anthropogenic Activities on a Large River Using Longfin Eel as a Bioindicator

Olivier Champeau,James M Ataria,Andrew Barrick,Louis A Tremblay,Gen Kume,Grant L Northcott

doi:10.3390/su12208412

Olivier Champeau, James M Ataria + Show 4 more

Open Access

https://doi.org/10.3390/su12208412

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Journal: Sustainability	Publication Date: Oct 13, 2020
Citations: 2	License type: CC BY 4.0

Affiliation: Cawthron Institute, Kagoshima University

Abstract

The Matāura River is the sixth largest river system in New Zealand and has long been subject to agricultural, industrial, and residential land use activities. The catchment has economic value and is of great cultural importance for local Māori, who have concerns over potential adverse impacts that anthropogenic stressors exert on the health of the river. There is a dearth of information on the impacts of these stressors towards the health of native species such as the longfin eel Anguilla dieffenbachii. This study assessed the environmental status of the Matāura River using biological and chemical methodologies incorporating A. dieffenbachii as a bioindicator species for exposure to multiple anthropogenic stressors. A range of biomarkers were measured in caged and wild-caught eels (when available) to characterize site-specific responses to anthropogenic stressors. While there was no clear indication of cumulative impacts moving from pristine headwaters to the lower reaches of the Matāura River, biomarkers of xenobiotic metabolization were induced in A. dieffenbachia and there was evidence of chemical contamination in sediment and tissue samples.

Highlights

River systems span a broad range of ecosystems and can transport chemicals and particles long distances before being deposited in the ocean
As headwaters progress through the landscape, they can potentially accumulate contaminants, in part due to increasing anthropogenic activity and pressure
An assessment of ecosystem health at multiple points along a river system can provide evidence of whether there are potential adverse effects on the environment due to anthropogenic activity, and insight into their potential sources. In this sense the Mataura River, which lies in the Murihiku (Southland) region of the South Island of New Zealand, is an ideal case study

Summary

Introduction

River systems span a broad range of ecosystems and can transport chemicals and particles long distances before being deposited in the ocean. As headwaters progress through the landscape, they can potentially accumulate contaminants, in part due to increasing anthropogenic activity and pressure This can impact multiple ecosystems with increasing severity as contaminants accumulate along the river, in zones of reduced energy that typically predominate in lower reaches. An assessment of ecosystem health at multiple points along a river system can provide evidence of whether there are potential adverse effects on the environment due to anthropogenic activity, and insight into their potential sources. In this sense the Mataura River, which lies in the Murihiku (Southland) region of the South Island of New Zealand, is an ideal case study. It is New Zealand’s sixth longest river with a length of 240 km and encompasses the Southland region’s second largest catchment (5360 km2) in both area and water flow [1,2]

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