Topography of Croatia explained

Topography of Croatia is defined through three major geomorphological parts of the country. Those are the Pannonian Basin, the Dinaric Alps, and the Adriatic Basin. The largest part of Croatia consists of lowlands, with elevations of less than 200m (700feet) above sea level recorded in 53.42% of the country. Bulk of the lowlands are found in the northern regions of the country, especially in Slavonia, itself a part of the Pannonian Basin plain. The plains are interspersed by the horst and graben structures, believed to break the Pannonian Sea surface as islands. The greatest concentration of ground at relatively high elevations is found in Lika and Gorski Kotar areas in the Dinaric Alps, but such areas are found in all regions of Croatia to some extent. The Dinaric Alps contain the highest mountain in Croatia—1831m (6,007feet) Dinara, as well as all other mountains in Croatia higher than 1500m (4,900feet). Croatia's Adriatic Sea mainland coast is 1777.3km (1,104.4miles) long, while its 1,246 islands and islets encompass further 4058km (2,522miles) of coastline—the most indented coastline in the Mediterranean. Karst topography makes up about half of Croatia and is especially prominent in the Dinaric Alps, as well as throughout the coastal areas and the islands.

Geomorphological units

The largest part of Croatia consists of lowlands, with elevations of less than 200m (700feet) above sea level recorded in 53.42% of the country. Bulk of the lowlands are found in the northern regions of the country, especially in Slavonia, representing a part of the Pannonian Basin. Territory with elevations of 200mto500mm (700feetto1,600feetm) above sea level encompasses 25.61% of Croatia's territory, and the areas between 500mand1000mm (1,600feetand3,000feetm) above sea level cover the 17.11% of the country. Further 3.71% of the land is situated at 1000mto1500mm (3,000feetto4,900feetm) above sea level, and only 0.15% of Croatia's territory lies at elevations greater than 1500m (4,900feet) above sea level. The greatest concentration of ground at relatively high elevations is found in Lika and Gorski Kotar areas in the Dinaric Alps, but such areas are found in all regions of Croatia to some extent.^[1] The Pannonian Basin and the Dinaric Alps, along with the Adriatic Basin represent major geomorphological parts of Croatia.^[2]

Adriatic Basin

See also: Adriatic Sea and List of islands of Croatia. Croatia's Adriatic Sea mainland coast is 1777.3km (1,104.4miles) long, while its 1,246 islands and islets encompass further 4058km (2,522miles) of coastline. The distance between the extreme points of Croatia's coastline is 526km (327miles).^[3] The number of islands includes all islands, islets, and rocks of all sizes, including ones emerging at ebb tide only.^[4] The islands include the largest ones in the Adriatic—Cres and Krk, each covering 405.78km2, and the tallest—Brač, whose peak reaches 780m (2,560feet) above sea level. The islands include 48 permanently inhabited ones, the most populous among them being Krk and Korčula.^[5]

The shore is the most indented coastline in the Mediterranean.^[6] The majority of the coast is characterised by a karst topography, developed from the Adriatic Carbonate Platform. Karstification there largely began after the final uplift of the Dinarides in the Oligocene and the Miocene, when carbonate deposits were exposed to atmospheric effects, extending to the level of 120m (390feet) below present sea level, exposed during the Last Glacial Maximum. It is estimated that some karst formations are related to earlier immersions, most notably the Messinian salinity crisis.^[7] The largest part of the eastern coast consists of carbonate rocks, while flysch is significantly represented in the Gulf of Trieste coast, on the Kvarner Gulf coast opposite Krk, and in Dalmatia north of Split.^[8] There are comparably small alluvial areas of the Adriatic coast in Croatia—most notably the Neretva Delta.^[9] The western Istria is gradually subsiding, having sunk about 1.5m (04.9feet) in the past two thousand years.^[10] In the Middle Adriatic Basin, there is evidence of Permian volcanism observed in area of Komiža on the island of Vis and as volcanic islands of Jabuka and Brusnik.^[11]

Dinaric Alps

See main article: Dinaric Alps and List of mountains in Croatia. Formation of the Dinaric Alps is linked to a Late Jurassic to recent fold and thrust belt, itself a part of Alpine orogeny, extending southeast from the southern Alps.^[12] The Dinaric Alps in Croatia encompass the entire Gorski Kotar and Lika regions, as well as considerable parts of Dalmatia, with their northeastern edge running from 1181m (3,875feet) Žumberak to Banovina region, along the Sava River,^[13] and their westernmost landforms being 1272m (4,173feet) Ćićarija and 1396m (4,580feet) Učka mountains in Istria. The Dinaric Alps contain the highest mountain in Croatia—1831m (6,007feet) Dinara, as well as all other mountains in Croatia higher than 1500m (4,900feet)—Biokovo, Velebit, Plješivica, Velika Kapela, Risnjak, Svilaja and Snježnik.^[5]

Karst topography makes up about half of Croatia and is especially prominent in the Dinaric Alps.^[14] There are numerous caves in Croatia, 49 of which deeper than 250m (820feet), 14 deeper than 500m (1,600feet) and three deeper than 1000m (3,000feet).^[15] The longest cave in Croatia, Kita Gaćešina, is at the same time the longest cave in the Dinaric Alps at 37389m (122,667feet).^[16]

Highest mountain peaks of Croatia
Mountain	Peak	Elevation	Coordinates
	Dinara	1831m (6,007feet)
	Sveti Jure	1762m (5,781feet)	43.3333°N 20°W
	Vaganski vrh	1757m (5,764feet)	44.5333°N 29°W
	Ozeblin	1657m (5,436feet)
	Bjelolasica  - Kula	1533m (5,030feet)
	Risnjak	1528m (5,013feet)
	Svilaja	1508m (4,948feet)
	Snježnik	1506m (4,941feet)

Pannonian Basin

See main article: Pannonian Basin. The Pannonian Basin took shape through Miocenian thinning and subsidence of crust structures formed during Late Paleozoic Variscan orogeny. The Paleozoic and Mesozoic structures are visible in Papuk and other Slavonian mountains. The processes also led to formation of a stratovolcanic chain in the basin 17  - 12 Mya and intensified subsidence observed until 5 Mya as well as flood basalts about 7.5 Mya. Contemporary uplift of the Carpathian Mountains severed water flow to the Black Sea and Pannonian Sea formed in the basin. Sediment were transported to the basin from uplifting Carpathian and Dinaric mountains, with particularly deep fluvial sediments being deposited in the Pleistocene during uplift of the Transdanubian Mountains.^[17] Ultimately, up to 3000m (10,000feet) of the sediment was deposited in the basin, and the sea eventually drained through the Iron Gate gorge.^[18]

The results of those processes are large plains in the eastern Slavonia, Baranya and Syrmia, as well as in river valleys, especially along Sava, Drava and Kupa. The plains are interspersed by the horst and graben structures, believed to break the Pannonian Sea surface as islands. The tallest among such landforms are 1059m (3,474feet) Ivanšćica and 1035m (3,396feet) Medvednica north of Zagreb and in Hrvatsko Zagorje as well as 984m (3,228feet) Psunj and 953m (3,127feet) Papuk which are the tallest among the Slavonian mountains surrounding Požega.^[5] Psunj, Papuk and adjacent Krndija consist mostly of Paleozoic rocks which are 350  - 300 million years old. Požeška gora, adjacent to Psunj, consists of much more recent Neogene rocks, but there are also Upper Cretaceous sediments and igneous rocks forming the main, 30km (20miles) ridge of the hill and representing the largest igneous landform in Croatia. A smaller igneous landform is also present on Papuk, near Voćin.^[19] The two, as well as Moslavačka gora are possible remnants of a volcanic arc related to uplifting of the Dinaric Alps.^[12]

See also

• Geography of Croatia

Notes and References

1. Web site: European Environment Agency. Land use - State and impacts (Croatia). 2 March 2012.
2. Web site: Ministry of Construction and Spatial Planning (Croatia). Drugo, trece i cetvrto nacionalno izvješće Republike Hrvatske prema Okvirnoj konvenciji Ujedinjenih naroda o promjeni klime (UNFCCC). The second, third and fourth national report of the Republic of Croatia pursuant to the United Nations Framework Climate Change Convention (UNFCCC). Croatian. November 2006. 2 March 2012.
3. Book: 1–5. The maritime boundaries of the Adriatic Sea. Gerald Henry Blake. Duško Topalović. Clive H. Schofield. 978-1-897643-22-8. 1996. IBRU. 26 January 2012.
4. University of Zadar. Croatian small islands – residential and/or leisure area. Josip Faričić. Vera Graovac. Anica Čuka. 145–185. Geoadria. 15. 1. June 2010. 28 January 2012.
5. Croatian Bureau of Statistics. Geographical and Meteorological Data. 2011 Statistical Yearbook of the Republic of Croatia. 1333-3305. December 2011. 43. 41. 28 January 2012.
6. Book: 155–156. Sustainable coastal management: a transatlantic and Euro-Mediterranean perspective. Biliana Cicin-Sain . Igor Pavlin . Stefano Belfiore . Springer. 2002. 978-1-4020-0888-7.
7. University of Zadar. 1331-2294. Submerged Karst – Dead or Alive? Examples from the Eastern Adriatic Coast (Croatia). Geoadria. Maša Surić. 5–19. 10. 1. June 2005. 28 January 2012.
8. Book: 146–149. Tectonic aspects of the Alpine-Dinaride-Carpathian system. Siegfried Siegesmund. Geological Society. 2008. 978-1-86239-252-6.
9. The Neretva Delta: Green Pearl of Coastal Croatia. Jasmina Mužinić. Croatian Medical Journal. 48. 2. 2007. 127–129. 2121601.
10. 0277-3791. Elsevier. Sea-level change during the Holocene in Sardinia and in the northeastern Adriatic (central Mediterranean Sea) from archaeological and geomorphological data. F. Antonioli. 2463–2486. Quaternary Science Reviews. 2007. 26. 19–21. 10.1016/j.quascirev.2007.06.022. 2007QSRv...26.2463A. etal.
11. News: Zadarski list. Ostaci prastarog vulkana u Jadranu. Croatian. Remains of an ancient volcano in the Adriatic Sea. Branimir Vukosav. 30 April 2011. 24 February 2012.
12. EGU Stephan Mueller Special Publication Series. Copernicus Publications. Evolution of the northern and western Dinarides: a tectonostratigraphic approach. Vlasta Tari-Kovačić. 2002. 1. 223–236. 1868-4556. 1. 10.5194/smsps-1-223-2002. 2002SMSPS...1..223T. free.
13. Book: 195. Encyclopedia of Caves. William B. White. David C. Culver. 978-0-12-383833-9. Academic Press. 2012. 3 March 2012.
14. Web site: Raširenost krša u Hrvatskoj. Presence of Karst in Croatia. Croatian. Croatian Geographic Society. 18 December 2006. Mate Matas. 18 October 2011. geografija.hr. 9 June 2012. live. https://web.archive.org/web/20120609163634/http://www.geografija.hr/clanci/1011/rasirenost-krsa-u-hrvatskoj.
15. Web site: BBC. The best national parks of Europe. 28 June 2011. 11 October 2011. 16 December 2012. live. https://archive.today/20121216042125/http://www.bbc.com/travel/feature/20110617-the-best-national-parks-of-europe.
16. Web site: index.hr. Postojna više nije najdulja jama u Dinaridima: Rekord drži hrvatska Kita Gaćešina. Croatian. Postojna is no longer the longest cave in the Dinarides: The record is held by Croatia's Kita Gaćešina. 5 November 2011. 3 March 2012.
17. Book: Recent Landform Evolution: The Carpatho-Balkan-Dinaric Region. 978-94-007-2447-1. Milos Stankoviansky . Adam Kotarba . Springer. 2012. 2 March 2012. 14–18.
18. Book: 16. The Nature Guide to the Hortobagy and Tisza River Floodplain, Hungary. Dirk Hilbers. Crossbill Guides Foundation. 2008. 978-90-5011-276-5.
19. Web site: Papuk Geopark. Geološki vodič kroz park prirode Papuk. Jakob Pamić . Goran Radonić . Goran Pavić . Croatian. Geological guide to the Papuk Nature Park. 2 March 2012.