“English Channel”的意思、由来-百科全书

English Channel

channel, Europe

Introduction

also called The Channel, French La Manche

narrow arm of the Atlantic Ocean separating the southern coast of England from the northern coast of France and tapering eastward to its junction with the North Sea at the Strait of Dover (French: Pas de Calais). With an area of some 29,000 square miles (75,000 square kilometres), it is the smallest of the shallow seas covering the continental shelf of Europe. From its mouth in the North Atlantic Ocean—an arbitrary limit marked by a line between the Scilly Isles and the Isle of Ushant—its width gradually narrows from 112 miles (180 kilometres) to a minimum of 21 miles, while its average depth decreases from 400 to 150 feet (120 to 45 metres). Although the English Channel is a feature of notable scientific interest, especially in regard to tidal movements, its location has given it immense significance over the centuries, as both a route and a barrier during the peopling of Britain and the emergence of the nation-states of modern Europe. The current English name (in general use since the early 18th century) probably derives from the designation “canal” in Dutch sea atlases of the late 16th century. Earlier names had included Oceanus Britannicus and the British Sea, and the French have regularly used La Manche (in reference to the sleevelike coastal outline) since the early 17th century.

For map coverage of the English Channel, see the article Baltic Sea.

Physical features

Geology

The contemporary English Channel probably is the result of a complex structural downfolding dating from the mid-Tertiary (about 40 million years ago), although signs of a downwarp tendency occur as early as 270 million years ago. The direct ancestor of the channel may well have been a sea occupying the downfold one to two million years ago, with a sea level 600 to 700 feet higher than the present level.

The withdrawal of water by the Pleistocene (Pleistocene Epoch) glaciers produced, about 25,000 years ago, a sea level at least 300 feet lower than the present. Later the melting of the ice raised the sea level to its present mark, and the ecologically important land bridge across the Strait of Dover finally was submerged about 8,000 years ago.

Physiography

The seafloor dips fairly steeply near the coasts but is generally flat and remarkably shallow (especially in relation to nearby land elevations); its greatest depth, 565 feet (172 metres) in the Hurd Deep, is one of a group of anomalous deep, enclosed troughs in the bed of the western channel. The channel has been shaped by the effect upon its rock strata (with their varying degrees of hardness) of such forces as weathering and erosion (when much of the area was dry land), sea-level changes, and contemporary erosion and deposition by marine currents.

The floor of the western channel generally is 200 to 400 feet deep and is relatively flat and featureless, reflecting fairly uniform rock types, mostly limestone. Harder igneous rocks cause shoals to emerge—as in the case of the Scilly Isles and Channel Islands—and submerged cliffs and narrow depressions provide some additional variety.

In the central channel (150 to 200 feet deep), depths are fairly uniform over chalk outcrops, but alternations of clays and limestones give rise to an undulating terrain, with deeps reaching almost twice the average. A continuation of the Seine River valley system north of the Cotentin Peninsula of Normandy complicates the relief forms. Farther east again, the seafloor is smoother and the geology simpler. Depths range from 6 to 160 feet, with such elongated banks as the Varne and the Ridge greatly constricting shipping lanes.

Because the English Channel, unlike the Irish or North seas, lay beyond the action of Pleistocene glaciers, superficial deposits are either very thin (three feet or less) or entirely absent. They represent a complex reworking of deposits of various ages, and their distribution reflects tidal streams. Where the streams are strong, the seabed is bare except for pebbles; decreasing velocities give rise to sand and gravel ribbons and waves (the latter up to 40 feet thick) and to thick beds of fine-grained deposits in sheltered areas, notably the Gulf of Saint-Malo.

Hydrology

Tides (tide) in the English Channel generally are strong, especially in the Strait of Dover, and may be visualized as an oscillation (modified by the Earth's rotation and configuration) about a north-south line through the centre of the channel—i.e., with a rise to the west accompanying a fall to the east. The central portion experiences semidiurnal (twice-daily) tides (helpful to shipping movements at Southampton, which has a double, or prolonged, high tide), and the Gulf of Saint-Malo experiences the greatest tidal range, 28 feet or more.

Surface temperatures (temperature) range from 45° F (7° C) in February to 61° F (16° C) in September, although shallow coastal waters are warmer in summer. There is little temperature change with depth in the well-mixed eastern waters of the channel, but bottom-water temperatures fall to 41° F (5° C) in the west. Surface salinities decline eastward from slightly less than the Atlantic level of 35.5 parts per thousand; coastal salinity readings are further reduced by the influx of river water, especially from the larger French landmass. There is an overall water flow through the English Channel to the North Sea, with complete replacement taking about 500 days.

Climate

The weather over the English Channel is highly variable. Often, but especially from October to April, it is cloudy, chilly, and wet, with strong winds and poor visibility. At other times, it is fair and dry, with light winds and good visibility. During periods of unsettled weather, daytime high temperatures rise to about 54° F (12° C) in winter and 68° F (20° C) in summer. When the weather is clear, temperature extremes can range from a winter morning low of 23° F (−5° C) to more than 86° F (30° C) on a summer afternoon. Precipitation averages 28 to 39 inches (700 to 1,000 millimetres) per year. Gales may blow from any direction but most commonly come from the southwest or west.

Economic aspects

Resources

Connecting the Atlantic Ocean and the North Sea, the respective waters of which are rich in warm- and cold-water plankton, the English Channel is favoured from the latter with cod, herring, and whiting and from the former with hake, pilchard, and mullet. The traditional fishing industry (commercial fishing) declined in the 20th century with the development of deep-sea fishing, the exhaustion of resources, and the advent of pollution problems, but coastal fishing remains important in Brittany.

A good climate, sandy beaches, and an attractive coast have encouraged the growth of tourism on both sides of the channel, starting with the fashionable resorts of the late 18th century. The English ports of Portsmouth and Plymouth have declined from their former levels of naval and commercial activity. Cherbourg on the Contentin Peninsula has changed little in character, but Southampton and Le Havre have lost passenger traffic while gaining tremendous container and oil-refining capacity and also experiencing a general commercial growth. Both England and France use channel waters for cooling nuclear-powered generating stations, while the tidal-power generating station on the Rance River (in Brittany), utilizing a tidal range of 35 feet and more, is a unique feature.

Transportation

The English Channel is a major route for passenger and freight traffic. Crossings are provided by ferry and air services. Hundreds of watercraft traverse the Strait of Dover daily; and this frequency, as well as the increase in ship size and speed, has led to the introduction of sophisticated navigational safeguard systems, including radar tracking of all ships in the strait.

The idea of a Channel Tunnel was first conceived in 1802, and in the late 19th century such a tunnel was actually initiated and then abandoned. In 1957 the idea was revived, and in 1973 Britain and France decided to carry out the project (the “Chunnel”) jointly. Work was begun, only to be canceled early in 1975, but in 1978 the matter of a channel crossing was again raised, this time by the British and French national railways and the European Communities. Construction resumed in 1987 on twin single-track railway tunnels and a central service tunnel for ventilation, maintenance, and emergency evacuation; by 1990 the service tunnel had been completed. The Eurotunnel (as it came to be called) connects the road and rail networks of Britain and the Continent by carrying both rail freight and automobiles. The terminals are located at Folkestone in England and Calais in France.

Study and exploration (European exploration)

From earliest times, depending on historical factors, the English Channel served as a route for, and a barrier to, invaders of Britain from the Continent. Early Stone Age people crossed the Strait of Dover; later invaders crossed the western end of the channel, trading the copper, tin, and lead they found in Devon and Cornwall, and successive Bronze and Iron Age invaders followed the same route. Julius Caesar's invasion of 55 BC again favoured the Dover route in the east, while William the Conqueror in 1066 crossed from Normandy to Hastings. With Britain's later loss of Normandy, the channel again became a defensive line. In the 20th century its strategic role was critical during the two world wars, particularly during the Allied invasion of France in 1944.

Scholars adduced reasons for the English Channel's existence as early as the 17th century, but detailed scientific study awaited the first official hydrographic surveys (French coast, 1829; English coast, 1847). The geologic map of the seabed based on borings made in 1866 was the world's first of its kind. Further studies were associated with early plans for a channel tunnel, and modern surveys done since World War II have made the channel seabed one of the most intensively studied seafloors in the world.

Cyril Ernest Everard Christopher Frederick Wooldridge

Additional Reading

Great Britain, Hydrographic Dept., The Channel Pilot, 2nd ed. rev. (1984), and The Dover Strait Pilot, 2nd ed. rev. (1985), discuss navigation, the ports, and natural conditions. A historical overview is Shirley Harrison, The Channel (1986). The tunnel under the channel between England and France is portrayed in Peter Haining, Eurotunnel (1973, reissued 1989); Institution of Civil Engineers (Great Britain), The Channel Tunnel (1989), a collection of conference papers; and Richard Gibb (ed.), The Channel Tunnel: A Geographical Perspective (1994). Two specialized references on scientific research in the English Channel include P.J. Statham, P.A. Davies, and R. Lafite (eds.), FLUXMANCHE II: Multidisciplinary Research in the Eastern English Channel (1999), a report on ocean currents and marine sediments; and J.-C. Dauvin, European Colloquium on Marine Science (1999), a report of a conference on the modeling of algae.Christopher Frederick Wooldridge Ed.

词条	English Channel
释义	English Channel channel, Europe Introduction also called The Channel, French La Manche narrow arm of the Atlantic Ocean separating the southern coast of England from the northern coast of France and tapering eastward to its junction with the North Sea at the Strait of Dover (French: Pas de Calais). With an area of some 29,000 square miles (75,000 square kilometres), it is the smallest of the shallow seas covering the continental shelf of Europe. From its mouth in the North Atlantic Ocean—an arbitrary limit marked by a line between the Scilly Isles and the Isle of Ushant—its width gradually narrows from 112 miles (180 kilometres) to a minimum of 21 miles, while its average depth decreases from 400 to 150 feet (120 to 45 metres). Although the English Channel is a feature of notable scientific interest, especially in regard to tidal movements, its location has given it immense significance over the centuries, as both a route and a barrier during the peopling of Britain and the emergence of the nation-states of modern Europe. The current English name (in general use since the early 18th century) probably derives from the designation “canal” in Dutch sea atlases of the late 16th century. Earlier names had included Oceanus Britannicus and the British Sea, and the French have regularly used La Manche (in reference to the sleevelike coastal outline) since the early 17th century. For map coverage of the English Channel, see the article Baltic Sea. Physical features Geology The contemporary English Channel probably is the result of a complex structural downfolding dating from the mid-Tertiary (about 40 million years ago), although signs of a downwarp tendency occur as early as 270 million years ago. The direct ancestor of the channel may well have been a sea occupying the downfold one to two million years ago, with a sea level 600 to 700 feet higher than the present level. The withdrawal of water by the Pleistocene (Pleistocene Epoch) glaciers produced, about 25,000 years ago, a sea level at least 300 feet lower than the present. Later the melting of the ice raised the sea level to its present mark, and the ecologically important land bridge across the Strait of Dover finally was submerged about 8,000 years ago. Physiography The seafloor dips fairly steeply near the coasts but is generally flat and remarkably shallow (especially in relation to nearby land elevations); its greatest depth, 565 feet (172 metres) in the Hurd Deep, is one of a group of anomalous deep, enclosed troughs in the bed of the western channel. The channel has been shaped by the effect upon its rock strata (with their varying degrees of hardness) of such forces as weathering and erosion (when much of the area was dry land), sea-level changes, and contemporary erosion and deposition by marine currents. The floor of the western channel generally is 200 to 400 feet deep and is relatively flat and featureless, reflecting fairly uniform rock types, mostly limestone. Harder igneous rocks cause shoals to emerge—as in the case of the Scilly Isles and Channel Islands—and submerged cliffs and narrow depressions provide some additional variety. In the central channel (150 to 200 feet deep), depths are fairly uniform over chalk outcrops, but alternations of clays and limestones give rise to an undulating terrain, with deeps reaching almost twice the average. A continuation of the Seine River valley system north of the Cotentin Peninsula of Normandy complicates the relief forms. Farther east again, the seafloor is smoother and the geology simpler. Depths range from 6 to 160 feet, with such elongated banks as the Varne and the Ridge greatly constricting shipping lanes. Because the English Channel, unlike the Irish or North seas, lay beyond the action of Pleistocene glaciers, superficial deposits are either very thin (three feet or less) or entirely absent. They represent a complex reworking of deposits of various ages, and their distribution reflects tidal streams. Where the streams are strong, the seabed is bare except for pebbles; decreasing velocities give rise to sand and gravel ribbons and waves (the latter up to 40 feet thick) and to thick beds of fine-grained deposits in sheltered areas, notably the Gulf of Saint-Malo. Hydrology Tides (tide) in the English Channel generally are strong, especially in the Strait of Dover, and may be visualized as an oscillation (modified by the Earth's rotation and configuration) about a north-south line through the centre of the channel—i.e., with a rise to the west accompanying a fall to the east. The central portion experiences semidiurnal (twice-daily) tides (helpful to shipping movements at Southampton, which has a double, or prolonged, high tide), and the Gulf of Saint-Malo experiences the greatest tidal range, 28 feet or more. Surface temperatures (temperature) range from 45° F (7° C) in February to 61° F (16° C) in September, although shallow coastal waters are warmer in summer. There is little temperature change with depth in the well-mixed eastern waters of the channel, but bottom-water temperatures fall to 41° F (5° C) in the west. Surface salinities decline eastward from slightly less than the Atlantic level of 35.5 parts per thousand; coastal salinity readings are further reduced by the influx of river water, especially from the larger French landmass. There is an overall water flow through the English Channel to the North Sea, with complete replacement taking about 500 days. Climate The weather over the English Channel is highly variable. Often, but especially from October to April, it is cloudy, chilly, and wet, with strong winds and poor visibility. At other times, it is fair and dry, with light winds and good visibility. During periods of unsettled weather, daytime high temperatures rise to about 54° F (12° C) in winter and 68° F (20° C) in summer. When the weather is clear, temperature extremes can range from a winter morning low of 23° F (−5° C) to more than 86° F (30° C) on a summer afternoon. Precipitation averages 28 to 39 inches (700 to 1,000 millimetres) per year. Gales may blow from any direction but most commonly come from the southwest or west. Economic aspects Resources Connecting the Atlantic Ocean and the North Sea, the respective waters of which are rich in warm- and cold-water plankton, the English Channel is favoured from the latter with cod, herring, and whiting and from the former with hake, pilchard, and mullet. The traditional fishing industry (commercial fishing) declined in the 20th century with the development of deep-sea fishing, the exhaustion of resources, and the advent of pollution problems, but coastal fishing remains important in Brittany. A good climate, sandy beaches, and an attractive coast have encouraged the growth of tourism on both sides of the channel, starting with the fashionable resorts of the late 18th century. The English ports of Portsmouth and Plymouth have declined from their former levels of naval and commercial activity. Cherbourg on the Contentin Peninsula has changed little in character, but Southampton and Le Havre have lost passenger traffic while gaining tremendous container and oil-refining capacity and also experiencing a general commercial growth. Both England and France use channel waters for cooling nuclear-powered generating stations, while the tidal-power generating station on the Rance River (in Brittany), utilizing a tidal range of 35 feet and more, is a unique feature. Transportation The English Channel is a major route for passenger and freight traffic. Crossings are provided by ferry and air services. Hundreds of watercraft traverse the Strait of Dover daily; and this frequency, as well as the increase in ship size and speed, has led to the introduction of sophisticated navigational safeguard systems, including radar tracking of all ships in the strait. The idea of a Channel Tunnel was first conceived in 1802, and in the late 19th century such a tunnel was actually initiated and then abandoned. In 1957 the idea was revived, and in 1973 Britain and France decided to carry out the project (the “Chunnel”) jointly. Work was begun, only to be canceled early in 1975, but in 1978 the matter of a channel crossing was again raised, this time by the British and French national railways and the European Communities. Construction resumed in 1987 on twin single-track railway tunnels and a central service tunnel for ventilation, maintenance, and emergency evacuation; by 1990 the service tunnel had been completed. The Eurotunnel (as it came to be called) connects the road and rail networks of Britain and the Continent by carrying both rail freight and automobiles. The terminals are located at Folkestone in England and Calais in France. Study and exploration (European exploration) From earliest times, depending on historical factors, the English Channel served as a route for, and a barrier to, invaders of Britain from the Continent. Early Stone Age people crossed the Strait of Dover; later invaders crossed the western end of the channel, trading the copper, tin, and lead they found in Devon and Cornwall, and successive Bronze and Iron Age invaders followed the same route. Julius Caesar's invasion of 55 BC again favoured the Dover route in the east, while William the Conqueror in 1066 crossed from Normandy to Hastings. With Britain's later loss of Normandy, the channel again became a defensive line. In the 20th century its strategic role was critical during the two world wars, particularly during the Allied invasion of France in 1944. Scholars adduced reasons for the English Channel's existence as early as the 17th century, but detailed scientific study awaited the first official hydrographic surveys (French coast, 1829; English coast, 1847). The geologic map of the seabed based on borings made in 1866 was the world's first of its kind. Further studies were associated with early plans for a channel tunnel, and modern surveys done since World War II have made the channel seabed one of the most intensively studied seafloors in the world. Cyril Ernest Everard Christopher Frederick Wooldridge Additional Reading Great Britain, Hydrographic Dept., The Channel Pilot, 2nd ed. rev. (1984), and The Dover Strait Pilot, 2nd ed. rev. (1985), discuss navigation, the ports, and natural conditions. A historical overview is Shirley Harrison, The Channel (1986). The tunnel under the channel between England and France is portrayed in Peter Haining, Eurotunnel (1973, reissued 1989); Institution of Civil Engineers (Great Britain), The Channel Tunnel (1989), a collection of conference papers; and Richard Gibb (ed.), The Channel Tunnel: A Geographical Perspective (1994). Two specialized references on scientific research in the English Channel include P.J. Statham, P.A. Davies, and R. Lafite (eds.), FLUXMANCHE II: Multidisciplinary Research in the Eastern English Channel (1999), a report on ocean currents and marine sediments; and J.-C. Dauvin, European Colloquium on Marine Science (1999), a report of a conference on the modeling of algae.Christopher Frederick Wooldridge Ed.
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