In 1993 concerns were expressed by English Nature that Devon's three largest sand dune systems Braunton
Burrows, Northam Burrows and Dawlish Warren were drying out to the detriment of the dune habitat flora
and fauna. Research was therefore required to understand how these systems functioned hydrologically, to
determine whether they were drying out and if so to recommend sustainable management options aimed at
reinstating former water levels, or preventing any further lowering of the water tables. At Braunton water
table elevations have been monitored on a monthly basis by the Nature Conservancy, the Nature Conservancy
Council and English Nature since 1972. These data were invaluable in describing the spatial and temporal
hydrological characteristics and functioning of the groundwater system. Braunton Burrows was the main
study site of the research. At both Northam and Dawlish, at the start of the fieldwork programme a dipwell
monitoring network was installed and water table elevations were recorded weekly. Hydrological
characteristics of each dune system were related to temporal variability in effective precipitation, the tide,
the underlying geology and sediment properties.
The groundwater system at Braunton was mounded, with effective inputs accumulating over an impermeable
basal layer close to mean sea level. The system was very sensitive to seasonal variability in effective
precipitation. At the centre of the groundwater mound, during the winter months, the elevation of the water
table was 10 m above OD. The groundwater mound was asymmetric, with the highest water table elevations
occurring along the eastern margin of the system. The transitional zone from dune sands to marshland, of
a lower permeability, was restricting the inland lateral drainage regime and was controlling both the shape
and elevation of the water table. At Northam the groundwater system was also mounded and again the shape
and elevation of the water table were dependent upon effective precipitation. Unfortunately the monitoring
network at Dawlish proved insufficient to describe either the shape or elevation of the groundwater table.
Within the smaller systems of Northam and Dawlish variable sediment properties lead to intra-site variability
in annual cyclical water table fluctuations.
A prominent trend in the long-term water table data for Braunton Burrows was the general overall decline
in the elevation of the water table from 1983 to mid 1992. With precipitation as the primary source of
groundwater recharge, consecutive years with below average effective precipitation (1983-1992) was
undoubtedly the primary cause, but was exacerbated by the drainage improvement works carried out on West
Boundary Drain in 1983. Scrub growth, artificial drainage of the golf course and marine erosion were also
possibly influencing the groundwater drainage regime. At Northam and Dawlish, without historical data it
was not possible to determine if the systems were drying out, however factors influencing annual cyclical
water table elevations were identified. Again climate was the key variable controlling the long-term elevation
of the water table and undoubtedly the dry spell between 1983 and 1992 would have had repercussions on
the elevation of the water table within these two systems. At Northam the drainage ditch network and reduced
tidal inundation were the other main factors influencing groundwater levels. At Dawlish the golf course
pump drainage system and scrub encroachment were effectively reducing annual groundwater recharge.
At Braunton a numerical groundwater flow model was used as a predictive management tool, to assist in the
recommendation of sustainable water level management options. A range of commercial groundwater flow
models were reviewed and Visual MODFLOW, incorporating the original United States Geological Survey's
MODFLOW code, with a fully integrated pre and post processor, was selected as the most suitable model
for the Braunton scenario. The modelling exercise had three objectives; to test whether a commercial model
such as Visual MODFLOW could be applied successfully to simulate the hydrology of Braunton Burrows;
to gain further detail on the hydrological functioning of the system and ultimately if the model was calibrated
to test a set of management scenarios to predict the hydro-ecological consequences of introducing new
management practices into the system.
Having identified the most probable factors influencing water table elevations within each dune system,
sustainable hydrological management options were recommended with the aim of raising water levels, or
preventing any further decline in water table elevations. The management options afforded nature
conservation the highest priority, but also took into consideration the long-term requirements of all the other
land user groups. At Braunton when formulating the management recommendations the modelling predictions
were also taken into consideration.
Potential areas for future research were also identified. Water level monitoring should continue at all three
sites, so that the longer-term impact of any water level management strategies implemented as a result of this
research can be evaluated. Also at both Northam and Dawlish a more detailed analysis of the geology and
sediment properties would be invaluable in providing a more comprehensive hydrological description of the
functioning of the groundwater systems. The Braunton groundwater model could be developed further,
addressing and overcoming problems encountered in this study and evaluating a wider range of water level
management scenarios.
As a result of this research far more is understood about the hydrological functioning of Devon's three largest
dune systems and the recommendation of sustainable remedial/restorative water level management options
will help to ensure that these ecologically diverse habitats are conserved for future generations. This research
has also provided both the applied and theoretical framework to address water resource management problems
within small and large scale dune systems around the shores of Great Britain.
Date of Award | 1998 |
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Original language | English |
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Awarding Institution | |
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A HYDROLOGICAL INVESTIGATION OF THREE DEVON SAND DUNE SYSTEMS; BRAUNTON BURROWS, NORTHAM BURROWS AND DAWLISH WARREN
BURDEN, R. J. (Author). 1998
Student thesis: PhD