Elsevier

South African Journal of Botany

Volume 135, December 2020, Pages 317-329
South African Journal of Botany

Changes in invasive alien aquatic plants in a small closed estuary

https://doi.org/10.1016/j.sajb.2020.09.016Get rights and content
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Highlights

  • Water hyacinth was present in the uThongathi Estuary by the late 1970s.

  • Numerous Category 1b prohibited aquatic plant species now infest the estuary.

  • Increased nutrient availability and freshwater flow modifications are key drivers.

  • Expansion of the invasive aquatic plants reduced the open water habitat by 20–40%.

  • Restoring estuary function is required to prevent continued infestation.

Abstract

Invasive alien aquatic plants (IAAPs) are rapidly spreading in South African estuaries because of anthropogenic nutrient loading and persistent freshwater conditions. This study investigated changes in IAAP cover in relation to development pressures in the temporarily closed, subtropical uThongathi Estuary. Changes over time (1937-2018) were assessed using historical aerial photographs and rectified satellite imagery. The IAAP cover was assessed quarterly in relation to river flow, physico-chemical and nutrient monitoring data (2015-2018). The estuary floodplain has been transformed by sugarcane farming, urban development, uncultivated fields and sand mining operations, occupying 27% of the estuarine functional zone. In the past, agricultural return flow and urban runoff facilitated the sporadic growth of IAAPs in the estuary. Since 1983, discharges from the Tongaat Central Wastewater Treatment Works (WWTW) increased daily nutrient loads (current contribution: 1.8 kg d−1 N and 9.63 kg d−1 P), resulting in persistent IAAP growth in the estuary. Discharge from the WWTW represents 15% of the estuary volume and the increased inflow has changed the estuary functionality to a predominantly open, low salinity state. Aerial photograph analysis showed that IAAPs have established along the entire length of the estuary (∼7 km) and are abundant during all mouth states. They are flushed out of the estuary during high flow events (≥ 5 m3s−1) but steadily re-establish (within 3 months) after floods. The likely source of IAAPs are heavily infested upstream dams. A nutrient management reduction strategy integrated with manual/biological control methods and increased salinity (> 5) are needed to restore estuary function and prevent infestations.

Keywords

Catchment land-use change
Flow modification
Wastewater treatment works
Eutrophication
Estuarine functionality

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