Abstract
Meeting long-term rural community water supply needs requires diligent geohydrological conceptualisation. Study of Malawi’s Lake Chilwa Basin, including sampling of 330 water points in Phalombe District, enabled assessment of groundwater quality influence upon supply. The control of larger Lake Chilwa paleo-environments on current Basin groundwater quality is demonstrated. Lacustrine sediment deposition forming high-level deposits under open lake conditions and terrace deposits under open and closed lake conditions significantly control the groundwater major-ion quality and salinity now observed. Paleo-lake extent marks the transition between low-TDS (total dissolved solids) groundwater suitable for water supply at higher elevations and high-TDS brackish groundwater in areas overlain by lacustrine deposits closer to the current lake level. Low-TDS groundwater is limited to mid-to-low reach influent leakage of rivers incising terraces. Permeable fluvial deposits within the deeper paleo-river channel may possibly provide low-TDS water. The conceptual model, whereby paleo-lake controls groundwater salinity, provides science-based evidence to address policy to manage the significant water point functionality concerns quantified at the district and river basin scales. Targeting of the low-TDS groundwater alongside improved use of upland low-TDS stream/river sources with fewer, but larger capacity, and better maintained gravity-fed supply schemes are recommended. This study hence shows the value of paleo-geohydrology interpretation of the lake–groundwater system conceptualisation to inform Sustainable Development Goal 6 (SDG 6.5.1)—integrated water resources management policy for rural water supply.
Highlights
The Scottish explorer Dr David Livingstone visited this study area in April 1859 [1]
Lake Chilwa that may provide ecological refuge; Groundwater baseflow, with focused discharge to lower river reaches/deep holes or else diffuse upward leakage to lake perimeter shoreline/wetlands; Flood driven rapid lake level rise inducing local flow reversals and lake water recharge of lake-perimeter groundwater; Changing flow regimes with time due to climate change, deforestation, agricultural and water extraction influences; Thin crust, steep geothermal gradient, hot springs caused by convection of shallower groundwater and utilisation of intrusion-country rock boundaries as vertical conduits
We have shown that paleo-environments of a previously much larger Lake Chilwa have a significant control on groundwater quality
Summary
The Scottish explorer Dr David Livingstone visited this study area in April 1859 [1]. His expeditions were the first to map the extent of Lake Chilwa, observed to approach the foothills of Mount. With a lake area of 683 km and a considerable additional area of wetlands, it forms Malawi’s second largest lake after Lake Malawi. It is among Africa’s larger lakes of the 670 recorded [8].
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