River Rother, West Sussex
The River Rother flows from Empshott in Hampshire, England, to Stopham in West Sussex, where it joins the River Arun. At long, most of the river lies within West Sussex except for the first which lie in Hampshire. The upper river, from its source to Midhurst, has been used to power watermills, with the earliest recorded use being in 1086, when the Domesday survey was conducted. Although none are still operational, many of the buildings which housed the mills still exist, and in some cases, still retain their milling machinery. This upper section is also noted for a number of early bridges, which have survived since their construction in the fifteenth, sixteenth and seventeenth centuries.
The lower river, from Midhurst to its junction with the River Arun, has been used for navigation. Boats used the section from the Arun to Fittleworth following improvements made to the Arun in 1615, and after the Arun Navigation was completed in 1790, the Earl of Egremont made the river navigable up to Midhurst by constructing eight locks and some small cuts. The work was completed in 1794, and many of the bridges built at that time still survive. With the opening of the Mid-Sussex Railway branch to Midhurst in 1859, traffic declined, and commercial use of the river had ceased by the 1880s. Pleasure boats continued to be used on the river for many years, and published accounts of journeys along the decaying navigation appeared in 1914 and 1920. The navigation was officially abandoned in 1936, after an undergraduate pointed out that it was still a public right of way.
The river flows through the South Downs National Park, and is a designated Site of Nature Conservation Importance, in recognition of its value for wildlife. It supports a wide range of fish, and its upper reaches are the only location in Sussex where native white clawed crayfish can be found. The quality of the water is generally good, and the river is measured at four gauging stations, three on the main channel, and one of the River Lod, just before its junction with the Rother. Water from the underlying Lower Greensand aquifer and the adjacent chalk aquifer helps to maintain the flows during the summer months, despite the fact that large volumes are abstracted from both the aquifers and the river for the public water supply.
History
Following improvements to the River Arun in 1615, which allowed boats to reach Pallingham, they could also navigate part of the Rother, as far upstream as Fittleworth. The canal engineer William Jessop was asked to survey the river below Petworth Mills in 1783, and was recalled in 1790, when he surveyed it below Midhurst. In the same year, the construction of the Arun Navigation was finished, and in 1791, George Wyndham, 3rd Earl of Egremont, who was based at Petworth House, obtained an Act of Parliament which would enable him to improve the Rother. The Act also authorised a branch canal to Petworth. Since he owned most of the land adjacent to the river, the precise route of the navigation was not specified, and he was free to improve the channel or make cuts as he saw fit. The only restriction was that cuts could not be made through gardens or enclosed grounds. Compared to most other canals at the time, the charges for using the navigation were low, as the Earl wanted to develop the region rather than make a profit.The river's lower section, below Midhurst, was made navigable by the construction of the Western Rother Navigation in 1794. The length of the navigation was of which less than consisted of new cuts, with the rest following the existing channel. It rose through from Stopham to Midhurst by a series of eight locks, and cost £13,300 to build. Traffic consisted of coal transported up-river, with cargoes of timber, corn and Petworth marble in the other direction. A branch connected it to Petworth by the short Petworth Canal, which was long with two locks, and terminated at Haslingbourne to the south of the town. It was opened in 1793, having cost the Earl £5,000 to build, but only lasted for a few years, until a turnpike road was diverted. This made access to Petworth easier, and the canal ceased to be used.
Unlike many canals, where navvies were brought into the neighbourhood to carry out the work, the Earl employed local men on the project, most of them already employed by him, and a clergyman praised him for this when writing in 1808, as it led to much less disruption, but provided increased income for those who worked on the scheme. Wages rose from 8 or 9 shillings per week to 14 or 15 shillings. During his life, the Earl invested some £100,000 in waterways, some in his native county of Sussex, but also in attempts to build a canal from London to Portsmouth. Between 1802 and 1831, the average income from the canal was around £550 per year. Competition arrived in 1859, when the Mid-Sussex Railway opened a line from Horsham through Pulborough to Petworth. Traffic declined, and by the 1880s, the navigation was no longer used by commercial boats, although it was not officially abandoned until 1936.
Closure
Despite the navigation being closed, a guide to Midhurst published in 1895 advertised that skiffs could be hired, and fishing could be enjoyed. The boats were hired out by a plumber called William Port, and his business continued to prosper until 1912, when his boathouse burned down. Rowing boats were also available for hire at Coultershaw and Fittleworth. Another book called A New Oarsman's Guide, published in 1896, suggested that the river could be canoed from Iping to the Arun, a distance of, when there was sufficient water. By that time, none of the locks were workable, and boats had to be carried around them.In 1887, part of the river bank near Todham Lock, which bordered the Cowdray estate of the Earl of Egmont, had collapsed, and the Earl suggested that Lord Leconfield of Petworth, a successor to the Earl of Egremont, should pay for its repair. After some disagreement, a compromise was reached, under which the bank was repaired and a floodgate was fitted at the upper end of the lock, with both men paying half of the cost. Lord Leconfield assumed that when the Arun Navigation finally obtained an Act of Abandonment in 1896, his responsibilities for the maintenance of the River Rother had ended. However, in 1903 heavy rain and floods destroyed the floodgate and part of the adjacent weir, resulting in river levels though the 8th Earl of Egmont's estate dropping by. The Earl, Augustus Arthur Perceval, issued a writ against Lord Leconfield for damages. The case was heard in the High Court, at which it was agreed that the navigation was now useless, but that the two men would share the costs of rebuilding the floodgate, after which responsibility for its maintenance would pass to the Earl, who could also dredge the river above the lock.
P Bonthron, who published a book entitled My Holidays on Inland Waterways in 1916, described a journey down the river that he had made with friends in 1908, in a boat hired from William Port at Midhurst. They reached Arundel on the River Arun after two days, from where the boat was sent back to Midhurst by train. Another account of a similar journey made in 1914 by Eleanor Barnes and a friend appeared in As the Water Flows, first published in 1920, which described canoe journeys on the rivers of southern England made by her over a period of seven or eight years. The warrant of abandonment was obtained jointly by the estates at Petworth and Cowdray after an Oxford undergraduate called Roger Sellman pointed out that the river was still officially a right of way, and that anyone could therefore offer to pay the appropriate tolls to use a boat on it, and expect the owners to rebuild the locks. The powers of the Railway & Canal Traffic Act 1888 were invoked to declare that the navigation was no longer necessary, and despite objections from the River Arun Catchment Board and a canoe club, the warrant was granted on 15 April 1936. However, the Environment Agency noted in 2003 that although there used to be navigation rights on the river, "the existing status of the navigation is unknown."
Hydrology
The river flows through the South Downs, an Area of Outstanding Natural Beauty and since 2011, a designated national park. There are two large aquifers in the area, one consisting of chalk, to the south of the river valley, and the other the Lower Greensand Group, underlying the whole of the river. The aquifers are separated by a Gault Formation, which consists of clay. At the western edge of the region, both the chalk and the gault turn to the north, creating a scarp slope. The base flow of the river consists of water from the Lower Greensand aquifer, and from springs along the bottom of the chalk scarp slope. These help to maintain the flows in the river during the summer months, although there have been significant periods where flows have been low, notably in the drought of the early 1990s, and again in 1995/96. These led to declines in the populations of the macro-invertebrates which are used to measure the health of a river, but these have subsequently recovered. In order to monitor the hydrology, the Environment Agency has a series of observation boreholes along the valley, and maintains gauging stations at Princes Marsh, close to the source, at Iping Mill, at Halfway Bridge on the River Lod just above its junction with the Rother, and at Hardham, just before the river joins the Arun.Flows in the river are swelled by discharges from several sewage treatment works. The three largest are at Princes Marsh, Petersfield and Ambersham, all of which have outflows between per day, with another three discharging between per day at Rogate, Coultershaw and Fittleworth. The entire river, including parts of some of its tributaries, is designated as a Site of Nature Conservation Importance by the local authorities through which it flows, in recognition of its value for wildlife. The upper reaches of the Rother are important for their fish populations of brown trout, grayling, juvenile sea trout, and the spawning and early development of salmonids. There are also populations of bullhead, eel, lamprey, minnow and stone loach. There has been some concern about declining fish stocks, thought to be partly caused by soil erosion, leading to silt and sediments being deposited on the river bed, which has been exacerbated by low flows in the river. Parts of the lower river support the same types of fish, but there are areas, particularly immediately upstream of weirs, where the major species are bream, pike and roach, with chubb, dace and perch on the lowest reaches. In order to assist the movement of fish along the river, particularly those that migrate to the headwaters to spawn, fish passes have been constructed around the gauging stations. The only known population of native white clawed crayfish in Sussex is located in the upper reaches of the Rother.
The quality of the water is generally good, helped by the fact that the groundwater in the chalk aquifer is of very high quality. However, some of the small streams in the upper reaches are polluted by discharges of effluent which are not licensed, and there are areas where the water in the aquifer, and hence the river, has raised levels of nitrates, largely caused by agricultural fertilisers. The Environment Agency has produced improvement plans to address a number of sources of both agricultural and urban pollution. Natural flows in the river are affected by the abstraction of water for the public water supply. There are many locations at which water is abstracted along the course of the river, including a site in the upper reaches where more than per day is abstracted from the aquifer, and another where the volume exceeds. Just above the junction with the River Arun, the Hardham Water Treatment Works removes more than per day from the river.
Etymology
The river takes its name from Rotherbridge, not the other way round. Rotherbridge is derived from the Anglo-Saxon Redrebruge, meaning cattle bridge, which was also the name of the Saxon Hundred or administrative group of parishes. Before this the river was known as the Scir.Route
The route description has been split into two sections. From its source to Midhurst, the river has powered several mills, but has never been navigable. Below Midhurst, it was navigable until the navigation closed in the 1880s. There were eight locks on this section, some of which bypassed additional water mills.Midhurst to mouth
The terminus of the Rother Navigation was on a side stream, at the southern edge of Midhurst. There was a wharf and basin, close to a road which is still called The Wharf, and an ashlar bridge crosses the navigation between the wharf and the junction with the main river. It was built in 1794, and was restored in 1977 to commemorate the silver jubilee of Queen Elizabeth II. The first lock was near Little Topham farm. There was a lock cut across a loop to the north. Costers Brook, which flows north from springs near Cocking, and then alongside the river for a short distance, joins below the site of the lock. The bridge at South Ambersham was built of stone rubble in 1791, with a main arch across the navigation and a smaller arch to the north, which has been repaired with brick. Moorland Lock was on a straight cut across a large meander to the south, close to Moorlands Farm. Lodsbridge Lock also bypasses a meander to the south, which fed Lodsbridge Mill. The mill building dates from the eighteenth century, and has been converted into a house. The seventeenth-century timber-framed mill house is also a listed building. There was a motte castle immediately to the south of the mill. A modern timber yard and saw mill is located to the north of the lock site, and Lods Bridge, which carries a minor road over the river, dates from the construction of the navigation. The River Lod joins on the north bank just below the bridge.A widening in the modern river, close to the dismantled Midhurst branch of the London, Brighton and South Coast Railway, marks the site of Ladymead Lock, with a weir to the south and the lock structure to the north. The fourth lock was Coultershaw Lock. The river at this point runs to the south, and there was a large meander to the west with a weir at its head. The mill stream ran to the east, and the lock was built just to the west of the mill. Coultershaw Bridge now carries the A285 road over the mill stream, near which is Coultershaw Beam Pump; it was built in 1782 to provide a better water supply to Petworth House. The pump is powered by a water wheel, cast at Cocking Foundry, which is in diameter. There were two corn mills and a malt mill recorded on the site in 1534. The mill was modernised in 1910, when turbines replaced the wheels, and standby engines were installed in 1919. It was destroyed by fire in 1923, and a steel-framed concrete building replaced it. When it ceased to operate in 1972, the building was demolished, but the beam pump, which was located beneath the building, was rescued and has been restored. The pump no longer performs its original function, but supplies a fountain near the visitor centre.
Shopham Lock was another where the lock cut was built across a large meander to the north. The bridge at the tail of the lock is built from red and grey brick, and has a single, round-headed arch. It dates from the construction of the navigation, and is virtually unaltered. Nearby, the Petworth Canal headed northwards to Haslingbourne Bridge. Below the end of the cut, the river is joined by the stream from Burton Mill Pond, which supplied an iron forge built in 1789. It is crossed by Shopham Bridge, built in the nineteenth century from red brick with grey headers and a parapet in stone, with three segmental arches. At Lower Fittleworth, there is another mill building, although it is unused and in poor condition. It was built in 1628 and enlarged in 1742. It stands in the grounds of the mill house, which was rebuilt in 1913. The lock cut ran along the south-western edge of the site. Fittleworth Bridge consists of a southern section, originally built in the sixteenth century, which was rebuilt between 1717 and 1739, and modified when the navigation was built, to enable boats to pass through the centre arch. A north section, adjacent to the millpond, dates from 1811-12.
Near its junction with the River Arun, the river loops to the south in a large meander. A cut ran from the start of the meander to join the Arun above the original junction, with a lock towards the downstream end. The meander fed Hardham Corn Mill. A lock bypassed the mill and the millstream, to enable boats to reach the Hardham Tunnel cut, which headed south from a junction above the mill. The Tunnel Branch was destroyed by the construction of a water treatment works, and the modern weir near the mouth is much closer to the junction than the lock was.
Conservation
The Arun & Rother Rivers Trust was set up in 2011 with the objective of enhancing and protecting the river and other connected waterways. It is a charity with further objectives concerning education, fisheries, biodiversity, access and pollution. The organisation is registered as a limited company, and was asked in 2012 to produce a Catchment Management plan by the Department for Environment, Food and Rural Affairs. It worked with the Arun and Rother Connections Partnership and the South Downs National Park Authority to ensure that local opinion was adequately represented in the document.Water quality
The Environment Agency measure the water quality of the river systems in England. Each is given an overall ecological status, which may be one of five levels: high, good, moderate, poor and bad. There are several components that are used to determine this, including biological status, which looks at the quantity and varieties of invertebrates, angiosperms and fish, and chemical status, which compares the concentrations of various chemicals against known safe concentrations. Chemical status is rated good or fail.The water quality of the River Rother system was as follows in 2016.
Section | Ecological Status | Chemical Status | Overall Status | Length | Catchment |
The reasons for the quality being less than good include sewage discharge affecting most of the river, some physical modification of the channel, the presence of North American signal crayfish, which are an invasive species, and runoff of chemicals as a result of agriculture and land management.