Misplaced Pages

#539460

70-572: The peninsula has a volcanic origin having the Snæfellsnes volcanic belt down its centre, and the Snæfellsjökull volcano , regarded as one of the symbols of Iceland, at its western tip. With its height of 1,446 m (4,744 ft), it is the highest mountain on the peninsula and has a glacier at its peak ( jökull means "glacier" in Icelandic ). The volcano can be seen on clear days from Reykjavík ,

140-437: A breeding season from February to October in which multiple matings occur between males and females, resulting in scramble competition . Such behavioral characteristics result in sperm competition and multiple paternity litters. The society is polygynous with copulation resulting from scramble competition during reproductive periods. Males possess a sac known as the cauda epididymis, which stores sperm and lies underneath

210-609: A distance of about 120 km (75 mi). The mountain is also known as the setting of the novel Journey to the Center of the Earth by the French author Jules Verne . The area surrounding Snæfellsjökull has been designated one of the four national parks by the government of Iceland. It is also the home of the Ingjaldsholl church, a Protestant church. The peninsula is one of the main settings in

280-654: A protected bird in Iceland, are common in areas of the Snæfellsnes. Up to settlement only the arctic fox was present as top carnivore but now as elsewhere in Iceland there are many other introduced mammals that affect the ecosystem. The arctic fox is generally separated into highland and low land populations with the later having a reddish brown coat all year. Within the Snæfellsjökull National Park fox hunting has been banned since 2001. The American mink colonised

350-520: A rate of about 3.5–5 cm/year (1.4–2.0 in/year). After the active spreading axis has moved away from the plume, the mantle plume would adjust the position of the axis and forms a new rift closer to its centre. The migrated axis would gradually become extinct. There are three major volcanic zones in Iceland, which are the Northern, Eastern and Western volcanic zones (NVZ, EVZ, WVZ), and all of which are currently active. The volcanic rift zones cross

420-443: A wood mouse is caught by its tail, it can quickly shed the end of it, which may never regrow. Despite its name, it prefers hedgerows to woodland . During the colder months, wood mice do not hibernate ; however, during severe winter seasons they can fall into a torpid state , a decrease in physiological activity. Predators of wood mice include foxes, snakes, weasels, birds of prey such as owls, cats, and dogs. The wood mouse has

490-505: A zigzag pattern. The pattern is shown by faults , volcanic fissures , valleys , dikes , volcanoes , grabens and fault scarps . The geological deformation of Iceland is mainly caused by the active spreading of the mid-oceanic ridge The Reykjanes Ridge south of Iceland comes ashore at Reykjanes where all of the extension of the northern Reykjanes ridge (NRR), is accommodated in the Reykjanes Peninsula . At Reykjavík towards

560-422: A zone of finite width. Thus, earthquakes usually occur along the active fracture zones between ridge crests. Most earthquake activity in Iceland is focused in the transform faulting zones near the north and south coast. The Tjörnes fracture zone (TFZ, Tjörnes Volcanic Zone, TVZ) is a tectonically complicated area. It is perhaps best regarded as a trans-tensional zone with transform faulting and spreading. The TFZ

630-452: Is a known potential carrier of the Dobrava sequence of hantavirus which affects humans and may pose serious risks to human health. Wood mice inhabit forests, grasslands, and cultivated fields, tending to seek out more wooded areas in winter. Almost entirely nocturnal and terrestrial, wood mice burrow extensively, build nests of plants and live in buildings during harsh seasons. It is one of

700-428: Is being twisted slightly and the tectonic structures are diverging more at the south than at the north. Deformation has also been influenced by the context of glaciation and then its retreat from around 3.3 million years ago. The historic subglacial volcanic eruptions result on the exposure, after the recent ice retreat, of distinctive flat topped landforms such as tuyas and rebound effects need to be accounted for in

770-479: Is composed of five volcanic systems arranged zigzag-like along the mid-Atlantic plate boundary. It shows quite low seismic activity. The volcanic activity is confined to the Krafla central volcano and its associated fissure swarms. It accommodates the entire rifting of North Iceland and can be regarded at the present time to be in a steady state of spreading rate. There is a greater predominance of lava shields than in

SECTION 10

#1732872733540

840-470: Is defined seismologically as an approximate triangle with apex about 67°N, sides 120 km (75 mi) and base of 150 km (93 mi) off the north coast of Iceland, connecting the north Iceland volcanic zone (NVZ) and the southern end of the Kolbeinsey Ridge . This broad fracture zone is characterised by seismic activity, crustal extension and transform faulting. The volcanic fissure swarms of

910-530: Is geologically young: all rocks there were formed within the last 25 million years. It started forming in the Early Miocene sub-epoch, but the oldest rocks found at the surface of Iceland are from the Middle Miocene sub-epoch. Nearly half of Iceland was formed from a slow spreading period from 9 to 20 million years ago (Ma). The geological structures and geomorphology of Iceland are strongly influenced by

980-473: Is not distinctive within the volcanic rift zone. Fissure swarms of the Krafla spread away from the magma chamber and magma flows along the swarms to the north and south of the volcano. Eruptive fissures within the fissure swarms are most common within 20–30 km (12–19 mi) distance from the central volcanoes. Fractures within the fissure swarms are common at up to a distance of 70–90 km (43–56 mi) from

1050-517: Is now known that the magma production/maturation time scale at over 100,000 years, is an order of magnitude or more greater than that in other zones in Iceland favouring fractional crystallization mechanisms as primary. The SVB comprises the stratovolcanoes of Snæfellsjökull , Helgrindur (Lýsuskarð) and Ljósufjöll in a peninsular east to west lineament, and is mainly basaltic volcanism from sources such as monogenetic cinder cones and isolated sub-glacial tuyas such as Vatnafell rather than from

1120-559: Is shown to illustrate this phenomenon. Since the rotation of the blocks is similar to a line of books leaning on a bookshelf, it is termed "bookshelf faulting". Bookshelf faulting is an indicator of the young geological history of the fault zones. It is common in the SISZ and Reykjanes area. Besides bookshelf faulting, the presence of the Icelandic fault zones are supported by seismological evidence. In Iceland, deformation usually concentrates over

1190-564: Is some evidence from similarities in the compositional studies on Snæfell and the Upptyppingar subglacial volcano in the NVZ for the ÖVB being a flank zone. Wood mouse Mus sylvaticus Linnaeus, 1758 The wood mouse ( Apodemus sylvaticus ) is a murid rodent native to Europe and northwestern Africa. It is closely related to the yellow-necked mouse ( Apodemus flavicollis ) but differs in that it has no band of yellow fur around

1260-619: Is strongly affected by the Icelandic mantle plume underneath central Iceland. Volcanic activity can be found in the Dalvík seismic zone and southern tip of the Kolbeinsey Ridge. The South Iceland seismic zone (SISZ), also known as the Reykjanes fracture zone(s), is 75 to 100 km (47 to 62 mi) wide, and strikes north-east to south-west in south-western Iceland. There are several approximately 40 km (25 mi) right lateral offsets of

1330-570: Is the tallest structure in western Europe , the Longwave Radio Mast at Hellissandur . In June 2008, the people of Snæfellsnes reached certification status as an EarthCheck community, becoming the first EarthCheck-certified area in Iceland and in Europe, and only the fourth in the world. Snæfellsnes has been committed to the EarthCheck programme since 2003 and has been successfully benchmarked for

1400-484: Is the way that the rocks of the island of Iceland are changing due to tectonic forces. The geological deformation help to explain the location of earthquakes, volcanoes, fissures, and the shape of the island. Iceland is the largest landmass (102,775 km (39,682 sq mi)) situated on an oceanic ridge . It is an elevated plateau of the sea floor, situated at the crossing of the Mid-Atlantic Ridge and

1470-593: The Laxdœla saga and it was, according to this saga, the birthplace of the first West Norse member of the Varangian Guard , Bolli Bollasson . Other historical people who lived in the area according to the saga include Guðrún Ósvífursdóttir , Bolli Þorleiksson and Snorri Goði . Local fishing villages and small towns on the Snæfellsnes peninsula include Arnarstapi , Hellnar , Rif [ˈrɪːf] , Ólafsvík , Grundarfjörður and Stykkishólmur . Near Hellissandur

SECTION 20

#1732872733540

1540-645: The Vatnajökull Glacier area which is the accepted location of the Icelandic hot spot. The EVZ started forming between 1.5 and 3 million years ago as a result of NVZ southward propagation. It is the eastern boundary of the Hreppar microplate. Deformed structures, including the dominant north-east trending eruptive fissure swarms and volcanic structures, and some normal fault structures, can be found in EVZ. Long hyaloclastite ridges, formed by subglacial eruptions during

1610-430: The brittle–ductile transition zone at about 10 km (6.2 mi) to the lithostatic/hydrostatic boundary at 3 km (1.9 mi) depth. Large scale seismic activity is triggered if the pressure cannot pass through the transition zone. Small scale earthquakes are also released locally in or above the migration path. In 2000, two large earthquakes (see 2000 Iceland earthquakes ) at M w 6.5 occurred in

1680-446: The last glacial period , are distinctive structures in the EVZ. Compared with WVZ, eruptive fissure swarms and hyaloclastite ridges are generally longer in the EVZ. During the past glacial period , a huge volume of basaltic eruptions occurred, producing the long volcanic fissure swarms. The EVZ is geologically young, as mentioned above, the EVZ will eventually take over the WVZ according to

1750-414: The neck , has slightly smaller ears, and is usually slightly smaller overall: around 90 mm (3.54 in) in length and 23 g in weight. It is found across most of Europe and is a very common and widespread species, is commensal with people and is sometimes considered a pest. Other common names are long-tailed field mouse , field mouse , common field mouse , and European wood mouse . This species

1820-453: The scrotal protrusion. Temperature regulation ensures maximum sperm output. One interesting observation about the species, in particular the males, is the morphology of the spermatozoa . They develop falciform (sickle-shaped) heads after meiosis and before spermiation (release during ejaculation ). The hook located at the tip of the head adheres to the surface of the head prior to deployment. Propidium iodide staining revealed that only

1890-718: The Eastern volcanic zone (EVZ) is proposed with the Western volcanic zone (WVZ) being the receding rift. The northern boundary of the block is linked to the Mid-Iceland belt (MIB), where diffuse volcanism occurs. The southern boundary of the block is termed the South Iceland seismic zone (SISZ), where strike-slip earthquakes can occur. There are two major and active transform faults zones striking west to north-west in northern and southern Iceland. Two large fracture zones, associated with

1960-667: The Greenland-Iceland-Scotland ridge. It lies along the oceanic divergent plate boundary of North American Plate and Eurasian Plate . The western part of Iceland sits on the North American Plate and the eastern part sits on the Eurasian Plate . The Reykjanes Ridge of the Mid-Atlantic ridge system in this region crosses the island from southwest and connects to the Kolbeinsey Ridge in the northeast. Iceland

2030-450: The Hreppar microplate to the south. It is thus the northern boundary of the Hreppar microplate as already mentioned. Both volcanic and seismic activity has been low in the Holocene . This is manifest as volcanic belts separate to the rift associated zones above. In the case of the Öræfi volcanic belt it is considered to be an embryonic rift, a process likely to be repeating past events with

2100-534: The Hreppar microplate. Shield volcanoes are also observed in this zone. The Þingvellir Graben is evidence of divergent plate movement in Iceland. It shows a clear extensional feature. It is located to the north of the plate triple junction manifest as the intersection of the WVZ, RVB and SISZ near the Hengill volcano. The Mid-Iceland belt (MIB, Central Iceland volcanic zone, CIVZ, Mid-Iceland zone, Hofsjökull zone, Hofsjökull volcanic zone, HVZ) of volcanoes, connects

2170-559: The NVZ are connected to the southern end of TFZ. For example, its south-east end is connected to the Krafla fissure swarm. The main structural components of the TFZ can be divided into three parts which trend from north-west to south-east, the Grímsey seismic zone, the Húsavík-Flatey fault zone and the Dalvík seismic zone. The TFZ shows a huge spatial difference in seismic activity. For example,

Snæfellsnes - Misplaced Pages Continue

2240-467: The SISZ provided evidence of bookshelf faulting. Within a single event, earthquakes begin in the eastern part of the SISZ with larger magnitudes and end up with smaller magnitudes in western part of the zone. In the transform fault zones of Iceland, earthquakes usually occur on small scales (micro-earthquakes) due to plate straining and pore fluid pressure . Pore pressure increase can induce seismicity . A large amount of pore fluid pressure migrates from

2310-417: The SISZ. During these events, additional small scale earthquakes concentrated narrowly and linearly around the transform fault planes. Thus, with the same method, small scale earthquakes are also used to identify fault planes in the TFZ. These were followed by the slightly smaller 2008 Iceland earthquake . Many of the volcanoes of Iceland can be grouped by their relationship to rift zones and contribute to

2380-402: The WVZ compared to other described failing rifts is evidenced by, for example, the middle and northern parts of the WVZ having more recent volcanic activity than the southern parts which is not as expected for a rift failing from the north. In the northern part of the WVZ, normal faulting is still common but volcanic fissures become less dominant and active. The WVZ is the western boundary of

2450-618: The WVZ had the hotspot directly under it, and existed prior to the last historic rift zone jump. The SHRZ had produced underlying crustal tholeiitic flood basalts that are over 5 million years old. It is unknown if the SHRZ and or hot spot interactions are the reason for the SVB and this continues to be an area of study. Proposed mechanisms of magma production invoke partial melting of hydrothermally altered, dominantly basaltic crust or fractional crystallization of primary basaltic magma or both mechanisms. It

2520-467: The WVZ to the intersection region of the NVZ and EVZ. It is parallel to the north of the SISZ and has a relationship to its transform nature. There is a small component of extension, that induces local volcanism but has no obvious strike-slip movement. The extension component has been proposed to be caused by the opposite sense of rotation of crustal blocks to the north, which is in the Eurasian Plate and

2590-550: The active propagating rift in the last 7 million years, but is now regarded as waning in active rift activity as the hotspot shifts eastward, and with the re-classification of the active volcanoes of the Reykjanes Peninsula from the WVZ to the Reykjanes volcanic belt (RVB) which is now regarded as a trans-tensional zone with transform faulting and spreading. Structures related to normal faulting are much more apparent than in

2660-415: The active rift axis. However, distinctive reversals in dip directions are found in south-western Iceland which indicate an anticline . It is believed that the relative positions of the Icelandic hot spot and the active rift spreading axis have changed with time. Assuming the Icelandic mantle plume is stationary, the spreading axis must have changed position. At least part of the spreading axis migrates at

2730-422: The basal surface of the hook is of nuclear origin. These apical hooks are deployed in the female reproductive tract (the mechanism responsible involved the remodeling of actin filaments in the hook). Deployed apical hooks combine with apical hooks and flagella of other spermatozoa. The aggregates of spermatozoa that result in form "mobile trains", which have experimentally been determined to possess better motility in

2800-519: The belt occurred at Rauðhálsahraun in the Ljósufjöll volcanic system about 960. The Öræfi volcanic belt (ÖVB, Öræfajökull-Snæfell volcanic belt, Öræfajökull volcanic system, zone or belt, ÖVZ, Eastern flank zone) is to the east and parallel to the EVZ and NVZ. Its three component central volcanoes of Öræfajökull , Esjufjöll , and Snæfell are in a south-west to north-east trending lineament and have rhyolite through to alkalic erupted basalts. There

2870-495: The central volcano. Fractures within the fissure swarms are generally subparallel to each other. Irregular fracture patterns are found where the Húsavík transform fault meets the fissure swarms, which indicates interaction between the fissure swarms and the strike-slip faults. The division between the NVZ and the EVZ is arbitrary, as the rifting structures are a single continuous structural identity. A potential boundary exists given

Snæfellsnes - Misplaced Pages Continue

2940-464: The change in strike direction of the fissure swarms formed in the last 10 million years at latitude 64.7° which was also followed by the 2014 dyke intrusion from Bárðarbunga towards the north, but this might be crossed by volcanic activity originating either to the south or north. The North Iceland last major rift relocation occurred about 6 to 7 million years ago when the northern now extinct Snæfellsnes-Húnaflói rift zone (SHRZ), shifted eastward to

3010-422: The female reproductive tract. The mobility of these mobile trains was also found to be influenced by premature acrosome reactions, altruistic acts performed by some spermatozoa for the benefit of other genetically similar gametocytes . This altruism follows a " green beard " mechanism in which spermatozoa discern the genetic similarity of surrounding gametocytes (such mechanisms are rare because they must code for

3080-423: The island from south-west to north-east. Each zone consists of 20–50 km (12–31 mi) wide belts and is characterised by active volcanoes, numerous normal faults, a high temperature geothermal field and fissure swarms. The EVZ will eventually take over the WVZ according to the rift jump process. The 50 km (31 mi) wide Northern volcanic zone (NVZ, North volcanic zone of Iceland, Northern rift zone)

3150-482: The long fissures found in the rift zones. These volcanoes have erupted recently small volumes of transitional to alkaline magmas relative to the less evolved magmas and larger volumes from the rift zones. The underlying crust is thicker at about 25 km (16 mi) than in the active rift zone areas. Magma storage, in the studied regions of the belt, occurs just above the Moho , at about 22–11 km (13.7–6.8 mi) in

3220-464: The lower to mid crust, which is not usually the situation in the rift zones where magma chambers occur in the mid to shallow crust at about 5 km (3.1 mi). The oldest volcanic rocks formed since the belt erupted transitional lavas through the basement tholeiitic magma series are at the mountain of Setberg to the north east of Grundarfjörður and near Elliðatindar, on each side of the present Helgrindur volcanic system. The most recent eruption in

3290-566: The most intensively studied species in the genus. In Europe, it ranges north to Scandinavia and east to Ukraine. The wood mouse is also found in northwestern Africa and on many Mediterranean islands. Wood mice are primarily seed eaters, particularly seeds of trees such as oak, beech, ash, lime, hawthorn and sycamore. If seeds are plentiful on the ground, they carry them back to their nests/burrows for storage. They may eat small invertebrates such as snails and insects, particularly in late spring and early summer when seeds are least available. Later in

3360-464: The new rift axis in the NVZ. There is with new dating techniques accurate understanding of SHRZ history from the north western region of Iceland to the north eastern that was not available when the SHRZ was first described. The Eastern volcanic zone (EVZ, East volcanic zone of Iceland) is located in south-east Iceland and has high volcanic activity. It connects to the SISZ and NVC in its western and northern end respectively. Seismic activity focuses in

3430-426: The northern coast. In southern Iceland, the block located along the plate boundary is identified as a microplate , and is named the Hreppar block or Hreppar microplate. Its current independent motion to the major plates was confirmed by GPS measurement. Internal block deformation is negligible since it has no significant evidence of active deformation, earthquakes or volcanism and a propagating rift origin from

3500-530: The northern end of this peninsula the relative movement of the North American Plate away from the Eurasian Plate can be modelled as 1.883 cm/year (0.741 in/year), but less than 60% of this divergence is accommodated by tectonic structures just to the immediate east of Reykjavík, with most of the rest being absorbed by tectonic structures in the south-east of Iceland. This is as other extensional cracks and transform faults are found perpendicular to

3570-422: The other active rifting areas. The Icelandic shield volcanoes that produced these large lava fields here and in the WVZ did so in a single almost continuous eruptive process that is distinct from the repeated discontinuous eruptions often seen in shield volcanoes elsewhere in the world and that would earn them the classification as a central volcano in the Iceland geological context. The Krafla central volcano

SECTION 50

#1732872733540

3640-511: The past five consecutive years. On the peninsula 323 species of flowering plants and ferns have been identified and generally the plant ecology is typical of the Iceland boreal birch forests and alpine tundra ecosystem. Ligusticum scoticum (Scots lovage, Scottish licorice-root) is an edible plant only found in Iceland on the western aspects of the peninsula. Along the southern coast are many relatively undisturbed wetland habitats with diversity in

3710-424: The peninsula and many other whales can be seen, noting that some whaling has been allowed by Iceland since 2003. Over 60 species of birds nest in Snæfellsnes. Puffins tend to be found on the western peninsula and are not present in winter. White-tailed eagle populations in Iceland only started recovering in the 1970s after being a protected species from 1913 and other birds of prey are found. Short-eared owls ,

3780-532: The peninsula early after its escape into the wild in Iceland in 1932 and since then the Icelandic population peaked about 2003 without any evidence that human hunting is the reason for the recent decline in population. While there are four rodents in the wild in Iceland, only the wood mouse is found in large numbers on Snæfellsnes. 64°51′29″N 23°06′54″W  /  64.85806°N 23.11500°W  / 64.85806; -23.11500 Sn%C3%A6fellsnes volcanic belt The geological deformation of Iceland

3850-403: The plants present. There are 13 species of wading birds found in Snæfellsnes and many other aquatic birds. Breiðafjörður is an important marine ecosystem with its seaweed and kelp forests and the largest seal and maritime bird populations in Iceland. Seal hunting was banned in Iceland in 2019, after a major reduction in numbers after 1980. Killer whale pods are often found off the western part of

3920-432: The plume is also up to 40 km (25 mi) thick which is much thicker than elsewhere in Iceland and a contrast to the minimum thickness of 8 km (5.0 mi) which is a thickness more typical of oceanic divergent plate boundaries. The central part of Iceland is still lifting but the current rate of crustal lifting of 3 cm/year (1.2 in/year) is mainly explained by glacial isostatic adjustment in response to

3990-407: The retreat of ice since 1890 which has removed much weight from the thick icesheet. The hotspot also produces high volcanic activity on the plate boundary. There are two major geologic and topographic structural trends in Iceland. One strikes north-east in southern Iceland and strikes nearly north in northern Iceland. The other one strikes approximately west to north-west. Altogether they produce

4060-506: The ridge crest. The offsets create a transform fault zone connecting the EVZ and the Reykjanes volcanic belt . There is a significant change in the age and lithology of the volcanoes in a north-south direction near Reykjanes Peninsula due to bookshelf faulting. Bookshelf faulting is common in the SISZ. Since the transform motion in the SISZ is left-lateral, right-lateral faulting would occur and rotation of blocks would appear counter-clockwise. The sequential occurrence of major earthquakes in

4130-552: The rift jump process model. The southern EVZ is propagating to the south-west through older Eurasian Plate crust. This results in active, sometimes explosive volcanism, and rifting in an off rift region called the South Iceland Volcanic Zone (SIVZ). The Western volcanic zone (WVZ, West volcanic zone of Iceland) is located to the north of the SISZ, where its northern end connects to the Langjökull area. It has been

4200-412: The rifts and appear in a swarm-like pattern. They are connected by fracture zones, forming the volcanic zones. The Kolbeinsey Ridge assumes 100% of the divergence rate of 1.834 cm/year (0.722 in/year) measured near Akureki on the north coast of Iceland, which compared to the vector in the south-east of Iceland is less and slightly more pointing to the north. Accordingly in between Iceland

4270-529: The season they will eat berries, fruits, fungi and roots. In winter, they may prey on hibernating bats, but this is still debatable. Wood mice are mainly active during the dark, probably having evolved so to avoid predation, employing several anti-predatory strategies, though breeding females may be more active in daylight in order to collect sufficient food. While foraging, wood mice pick up and distribute visually conspicuous objects, such as leaves and twigs, which they then use as landmarks during exploration. If

SECTION 60

#1732872733540

4340-476: The seismic interpretations outlined below. Crustal movements have created two plate boundary deformation zones between the major plates, the North American Plate and the Eurasian Plate. In northern Iceland, the width of the deformation zone is about 100 km (62 mi) wide. It accumulates strain which come from rifting episodes and larger earthquakes. This is manifest as the Tjörnes fracture zone (TFZ) off

4410-399: The southern part of the NVZ as an embryonic rift millions of years ago given rift zone jumping. The Snæfellsnes volcanic belt (SVB, Snæfellsnes volcanic zone, SVZ) is an area of renewed intra-plate volcanism (North American Plate), less than 1.5 million years old. The SVB erupted through the western aspects of the extinct SHRZ, which is a predecessor to the present MIB. The SHRZ formed when

4480-509: The spreading direction. The transform-fault zones are also known as fracture zones . These fracture zones allow large volumes of lava to be erupted . The most productive volcanic region is located under the Vatnajökull glacier in the mid-east of Iceland where all of about 1.853 cm/year (0.730 in/year) of extension is being accommodated near a plate triple junction . On the surface of Iceland, linear volcanic fissures formed along

4550-428: The spreading plate boundary and the Iceland hotspot . Although some have questioned if a hotspot is necessary to explain the observed deformations of Iceland this is currently felt to best explain observations of rock composition and age obtained by modern techniques. The buoyancy of the deep-seated mantle plume underneath has uplifted the Iceland basalt plateau to as high as 3,000 m (9,800 ft). The crust over

4620-424: The transform faults, namely the TFZ and SISZ are found striking about 75°N to 80°W. Stress is built up during the spreading movements at the plate boundary. The accumulated stress in transform fault zones is released during strike-slip earthquakes. The transform fault is induced by strike-slip motion that is transverse to the fault zone. The blocks between the faults are slightly rotated afterwards. A diagram (fig.2)

4690-416: The understanding of the deformation that has taken place. Not all the names used to classify the volcanoes into groups are yet standardised and not all the volcanic and tectonic relationships are well characterised due to issues such as accessibility or less current activity. The evolution of the Icelandic volcanic rift zones can be explained by the rift jump model. Synform folding is expected to occur at

4760-411: The westernmost part of the TFZ shows seismic activity, but a few larger earthquakes (>M=5.5) also appear in the zone. M S 7 earthquakes have occurred in the Dalvík zone. The complexity in the TFZ can be generally explained by the magmatic processes and plate motions. The velocity of the divergent plate motion, estimated to be 18.9 ± 0.5 mm (0.744 ± 0.020 in)/year

4830-521: The younger EVZ. The WVZ initially took over as the principle plate boundary in Iceland about 6 million years ago from its predecessor the Snæfellsnes Rift, which then connected western Iceland to north Iceland. During this period of activity it was known as the Reykjanes-Langjökull rift zone which propagated to the south-west. Until 2 million years ago the seafloor spreading around Iceland

4900-411: Was accommodated by this rift zone, an ill-defined transverse connecting zone between it and the NVZ. As the EVZ became active the Reykjanes-Langjökull rift zone became today's WVZ. The WVZ remains active despite being an ultra-slow spreading center with extension rates of 0.3–0.7 cm/year (0.12–0.28 in/year) which is 20–30% of the total opening across south Iceland. The discontinuous failing of

#539460