Hubbry Logo
Kızılırmak RiverKızılırmak RiverMain
Open search
Kızılırmak River
Community hub
Kızılırmak River
logo
8 pages, 0 posts
0 subscribers
Be the first to start a discussion here.
Be the first to start a discussion here.
Kızılırmak River
Kızılırmak River
Kızılırmak River
View on Wikipedia
from Wikipedia
Kızılırmak
Halys
Kızılırmak in Samsun
Map of the Kızılırmak watershed
Location
CountryTurkey
CitiesSivas, Kırşehir, Kırıkkale
Physical characteristics
Source 
 • locationİmranlı, Sivas Province
 • coordinates39°48′N 38°18′E / 39.800°N 38.300°E / 39.800; 38.300
 • elevation2,000 m (6,600 ft)
MouthBlack Sea
 • location
Bafra, Samsun Province
 • coordinates
41°44′04″N 35°57′23″E / 41.73444°N 35.95639°E / 41.73444; 35.95639
 • elevation
0 m (0 ft)
Length1,355 km (842 mi)
Discharge 
 • average128 m3/s
Basin features
Tributaries 
 • leftDevrez River, Gök River
 • rightDelice River
Official nameKizilirmak Delta
DesignatedApril 15, 1998[1]

The Kızılırmak (Turkish pronunciation: [kɯzɯlɯrmak], Turkish for "Red River"), once known as the Halys River (Ancient Greek: Ἅλυς) and Alis River, is the longest river flowing entirely within Turkey. It is a source of hydroelectric power and is not used for navigation.

Geography

[edit]

The Kızılırmak flows for a total of 1,355 kilometres (842 mi),[2] rising in Eastern Anatolia around 39°48′N 38°18′E / 39.8°N 38.3°E / 39.8; 38.3 (Kızılırmak source), flowing first to the west and southwest until 38°42′N 34°48′E / 38.7°N 34.8°E / 38.7; 34.8, then forming a wide arch, the "Halys bend", flowing first to the west, then to the northwest, passing to the northeast of Lake Tuz (Tuz Gölü in Turkish), then to the north and northeast, where it is joined by its major tributary, the Delice River (once known in Greek as the Cappadox river) at 40°28′N 34°08′E / 40.47°N 34.14°E / 40.47; 34.14. After zigzagging to the northwest to the confluence with the Devrez River at 41°06′N 34°25′E / 41.10°N 34.42°E / 41.10; 34.42, and back to the northeast, it joins the Gökırmak (Sky River in Turkish) before finally flowing via a wide delta into the Black Sea northwest of Samsun at 41°43′N 35°57′E / 41.72°N 35.95°E / 41.72; 35.95 (Kızılırmak mouth).

Delta

[edit]
This section is an excerpt from Kızılırmak Delta.[edit]

The Kızılırmak River's delta in northern Turkey is the third largest in the country.[3] Formed where the river flows into the Black Sea, the delta has the biggest wetland in the region, with many coastal lagoons.[4] The wetland is a key biodiversity area[5] and the most important[6] Ramsar site in Turkey.[7]

With more than 500 kinds of plants[8] and three-quarters of Turkey's bird species[9][10] the delta's reserve lets migrating birds rest and feed after the Black Sea crossing.[11][12] Water buffalo provide milk and meat.[13] The reserve is popular with tourists, particularly on weekends.[14]

The land is some of the most fertile in Turkey: more than half is farmed.[8][15] The town of Bafra on the delta and the nearby coastal city of Samsun made money from tobacco in the 19th and 20th centuries,[16] but in the 2020s the main crop is rice.[8]

The river was channelized near its mouth in the 2010s, which reduced bird habitat.[6] The ecology of the delta is being damaged,[6] such as by eutrophication of some lakes due to fertilizer in water running off fields.[17]: 306  The coastline is receding because sediment is caught in upstream dams, and this is forecast to continue.[18] There is a management plan for the delta until 2034, but it is not widely available.[17][19][a]

History

[edit]

The Hittites called the river the Maraššantiya,[21] and it formed the western boundary of Hatti, the core land of the Hittite empire.[citation needed] Thales of Miletus is said to have used early engineering techniques to allow the Lydian army cross the river.[22]

Until the Roman conquest of Anatolia the Halys River (later renamed the Kızılırmak by the Turks) served as a natural political boundary in central Asia Minor, first between the kingdom of Lydia and the Persian Empire, and later between the Pontic Kingdom and the Kingdom of Cappadocia. As the site of the Battle of Halys, or the Battle of the Eclipse, on May 28, 585 BC,[23] the river formed the border between Lydia to the west and Media to the east until Croesus of Lydia crossed it to attack Cyrus the Great in 547 BC. He was defeated and Persia expanded to the Aegean Sea.

In the 1st century AD Vespasian combined several provinces, including Cappadocia, to create one large province with its eastern boundary marked by the Euphrates River. This province once again splintered during Trajan's reign - the newly created province of Cappadocia, bounded by the Euphrates to the East, included Pontus and Lesser Armenia. The Halys River became an interior river and never regained its significance as a political border. In the 130s a governor of Cappadocia wrote: "long ago the Halys River was the boundary between the kingdom of Croesus and the Persian Empire; now it flows under Roman dominion."[24]

Dams and agriculture

[edit]

The river's water is used to grow rice and in a few areas water buffalo are kept. There are dams on the river at Boyabat, Altınkaya and Derbent. Dams have reduced the flow of sediment to the delta, allowing coastal erosion.[25]

Notes

[edit]

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Kızılırmak River

View on Grokipedia
from Grokipedia
The Kızılırmak River, known as the "Red River" in Turkish and historically as the Halys River, is the longest river entirely within , extending 1,355 kilometers from its source in the Kızıldağ Mountains (elevation approximately 3,025 meters) east of İmranlı District in Sivas Province to its mouth at Cape Bafra on the Black Sea in Samsun Province. This vital waterway drains a basin covering about 78,180 square kilometers—Turkey's second-largest after the Euphrates—encompassing parts of 10 provinces, including Sivas, Kayseri, Nevşehir, Kırşehir, Kırıkkale, Ankara, Çankırı, Çorum, Sinop, and Samsun, and supporting agriculture, industry, drinking water supply, and a population of over 5 million. With an average annual flow of 188 cubic meters per second and a total of 6.54 billion cubic meters, it constitutes roughly 3.5% of Turkey's overall making it essential for irrigation across fertile plains and flood control through 33 dams and reservoirs. The river's lower course forms the expansive Kızılırmak Delta, a 56,000-hectare wetland complex designated as a Ramsar site in 1998 and on UNESCO's World Heritage Tentative List, featuring lakes such as Balık (1,389 hectares) and Cernek (589 hectares), flooded forests, dunes, and farmlands that host 352 bird species, including rare and endangered ones, while serving as a key ecological buffer and agricultural hub. Despite its importance, the basin faces challenges like pollution from urban and industrial sources, drought risks, and habitat degradation from quarrying, prompting ongoing management under Turkey's Water Framework Directive-aligned plans.

Geography

Course and Length

The Kızılırmak River originates on the southern slopes of the Kızıldağ Mountains in the Eastern Anatolian Plateau near İmranlı, Sivas Province, at coordinates 39°48′N 38°18′E and an elevation of approximately 2,000 meters. It has a total length of 1,355 kilometers, making it the longest river entirely within Turkey. From its source, the river flows initially west and southwest through Sivas Province, then through Kayseri and Nevşehir provinces to Kırşehir, continuing northwest through Ankara and Kırıkkale provinces, passing by Lake Tuz. It is joined by its major right-bank tributary, the Delice River, before turning north near Sungurlu in Çorum Province and continuing through Çankırı Province to the Black Sea coast, entering at Bafra in Samsun Province at coordinates 41°44′04″N 35°57′23″E. Along its course, the river traverses the region between Sivas and Kırşehir, where it exhibits meandering sections amid volcanic landscapes. In its upper reaches through Sivas, the river forms canyon-like features as it descends from the plateau.

Basin and Tributaries

The drainage basin of the Kızılırmak River encompasses approximately 78,180 square kilometers, representing about 11% of Turkey's total land area and spanning central and northern . This watershed originates on the southern slopes of the Kızıldağ Mountains and arcs westward, southwestward, and then northward through varied geological formations influenced by neotectonic fault zones. The basin features diverse terrains, transitioning from elevated plateaus in its upper reaches—such as those in the region—to broader alluvial plains in the lower sections near the Black Sea. Predominant soil types include brown forest soils and colluvial formations in the highlands, shifting to alluvial and hydromorphic soils in the downstream areas, which support sediment deposition and agricultural productivity. The region includes major urban centers like , Kırşehir, and Kırıkkale, along with parts of 16 provinces overall, facilitating a mix of agricultural, industrial, and residential land uses. Key tributaries contribute significantly to the river's flow and sediment load. On the left bank, the Devrez River joins the Kızılırmak in northern Çankırı Province, while the Gök River enters from northern highlands further downstream. The Delice River, the primary right-bank tributary, merges with the main stem after the Kızılırmak passes by Lake Tuz, draining Cappadocian highlands and adding to the watershed's overall volume. These inflows shape the basin's hydrological network, with sub-basins delineated across 27 hydrological units for management purposes.

Delta

The Kızılırmak Delta is situated on the Black Sea coast in northern Turkey, primarily within the districts of Bafra, Ondokuzmayıs, and Alaçam in Samsun Province, approximately 40 km east of Samsun city center. Spanning about 56,000 hectares, it ranks as the third-largest delta in the country and encompasses diverse landforms including 21,700 hectares of protected wetland ecosystems, 11,580 hectares of open water surfaces, marshes, and meadows, 2,330 hectares of sand dunes, and 3,100 hectares of forest areas. This extensive alluvial plain rises gradually in steps from the sea toward the south, composed mainly of gravel, sand, and silt deposits, with its southern boundary defined by older geological formations such as Upper Cretaceous and Eocene flysch as well as Miocene-Pliocene sediments. The delta formed through the accumulation of sediments transported by the as it discharges into the , creating a dynamic depositional environment with shifting channels, coastal dunes averaging 7-8 meters in height (up to 12 meters), and a series of shallow lakes and seasonal marshes. These features result from the river's high sediment load interacting with marine processes, leading to a low-slope quaternary plain that supports ongoing morphological evolution. The delta's key physical characteristics include interactions between freshwater river inflows and saltwater incursions, fostering a mosaic of habitats such as flooded forests and reedbeds along its 73-kilometer coastal length. It represents the largest wetland complex in the southern Basin, playing a significant role in regional coastal geomorphology by buffering wave energy and contributing to shoreline stability. Prior to modern human interventions like upstream dam construction, the delta exhibited progradation rates of approximately 6 to 23 meters per year in certain subregions during the mid-20th century, driven by robust sediment supply from the river. For instance, between 1951 and 1990, one subregion advanced by an average of 231 meters overall, reflecting net accretion before sediment trapping altered dynamics. This historical growth underscores the delta's geographical significance as a rapidly evolving landform, influencing local hydrology and coastal sediment budgets. The site was designated a Ramsar Wetland of International Importance on April 15, 1998, recognizing its critical role in maintaining ecological and geomorphological functions.

Hydrology

Flow Characteristics

The Kızılırmak River maintains a perennial hydrological regime, with consistent baseflow supported by karst springs in its upper basin, particularly within the gypsiferous formations around . These springs contribute stable water volumes year-round, mitigating complete seasonal dryouts despite the continental climate of the Anatolian plateau. The river's flow is characterized by significant natural variability, driven primarily by precipitation patterns and snow accumulation in its expansive basin. Recent analyses show downward trends in streamflow and increasing meteorological and hydrological drought events, particularly in the upper basin, attributed to climate variability as of 2024. Average discharge at the river's mouth into the Black Sea is approximately 185 cubic meters per second, reflecting the aggregated runoff from its 78,000 square kilometer basin. Seasonal variations are pronounced, with peak flows occurring in spring from February to May due to snowmelt from the Anatolian highlands, sometimes exceeding 1,000 m³/s at monitoring stations along the lower reaches. In contrast, summer months from July to August see the lowest flows, often dropping below 10 m³/s at certain points, attributable to high evapotranspiration rates and minimal precipitation in the arid continental conditions. Historically, the river has been prone to major flood events, including extreme wet periods in the 19th century that inundated central Anatolian regions, such as the multi-year high flows around 1835–1837 and isolated peaks in 1829 and 1881. Naturally, the Kızılırmak is sediment-laden, transporting approximately 23 million tons of suspended sediment annually to the under pre-dam conditions, largely from erosion in its gypsiferous and loess-covered upper catchment. This sediment load contributes to the river's characteristic turbidity and delta formation processes.

Dams and Reservoirs

The Kızılırmak River hosts 12 major hydroelectric dams along its main stem, with a total of 36 large dams within the broader basin, primarily constructed for hydroelectric power generation and irrigation purposes. These structures, managed largely by Turkey's State Hydraulic Works (DSİ), have transformed the river's natural flow regime by impounding water for controlled release. Among the prominent dams is the Altınkaya Dam, a rockfill structure located in Samsun Province, with construction beginning in 1980 and completion in 1988. It stands at 195 meters in height and creates a reservoir with a capacity of 5.76 billion cubic meters. Downstream, the Boyabat Dam, a concrete gravity dam in Sinop Province, was constructed between 2008 and 2012, reaching 195 meters in height and forming a reservoir of approximately 5.36 billion cubic meters. Further downstream, the Derbent Dam, an embankment structure in Samsun Province focused more on irrigation, began construction in 1984 and opened in 1990; it is 33 meters high with a reservoir capacity of 213 million cubic meters. Dam construction on the Kızılırmak accelerated in the late 20th century, with early projects like the Hirfanlı Dam dating to the 1950s, but major developments such as Altınkaya and subsequent dams occurring from the 1980s onward as part of Turkey's national water resource initiatives. These efforts aimed to harness the river's potential for energy and agriculture in the central Anatolian region. Hydrologically, the dams have significantly reduced downstream sediment transport—from about 23 million tons annually under pre-dam conditions to approximately 0.46 million tons after construction of major downstream dams—leading to reservoir siltation rates estimated at 1-2% per year and a shift to more uniform, regulated flow patterns that minimize seasonal flooding but alter natural variability.

Ecology

Biodiversity

The Kızılırmak River basin supports a rich array of biodiversity, encompassing diverse flora and fauna across its varied ecosystems, with the delta serving as a particularly vital hotspot. The river system hosts over 560 plant species, contributing significantly to regional botanical diversity. Among these, riparian vegetation in the upper reaches includes dominant species such as white willow (Salix alba), while the delta features halophytic plants like tamarisk (Tamarix sp.) adapted to saline conditions, alongside reeds (Phragmites sp.) and cattails (Typha sp.). Rare and endemic flora, such as the critically endangered Jurinea kilaea and sea daffodil (Pancratium maritimum), further highlight the area's botanical importance, with the delta recognized as an Important Plant Area. Avifauna is exceptionally diverse, with 367 bird species recorded as of 2025—representing about three-quarters of Turkey's total avifauna—making the basin a critical corridor for migration and wintering. The delta acts as a key stopover for species like the Dalmatian pelican (Pelecanus crispus), which breeds in small numbers (35-40 pairs), and greater white-fronted geese (Anser albifrons), with wetlands supporting over 100,000 waterbirds during winter, including endangered species such as the white-headed duck (Oxyura leucocephala). These habitats facilitate passage for millions of migratory birds annually, underscoring the river's role in regional ornithological networks. Aquatic and terrestrial fauna further enrich the ecosystem, with 29 fish species inhabiting the river and delta, including the critically endangered Russian sturgeon (Acipenser gueldenstaedtii)—one of only three Turkish breeding sites for this species—and the endemic Kızılırmak toothcarp (Aphanius danfordii). Delta lagoons sustain fisheries for eels (Anguilla anguilla) and grey mullets (Liza spp.), while terrestrial mammals include the vulnerable European otter (Lutra lutra) and the largest remaining population of semi-domesticated Anatolian water buffalo (Bubalus bubalis carolinensis). The basin also supports 9 amphibian and 12 reptile species, such as the vulnerable Greek tortoise (Testudo graeca), and 34 mammal species overall. The river's habitats form a interconnected biodiversity corridor across Anatolia, featuring riverine forests dominated by broad-leaved and flooded woodlands (covering 1,850 ha and 1,250 ha, respectively), extensive wetlands and marshes (21,700 ha), coastal dunes (2,330 ha), and estuarine lagoons like the Bafra Balık Lakes (9,250 ha). These environments, shaped by the river's alluvium, provide essential refugia for species adapted to freshwater, brackish, and terrestrial interfaces, enhancing ecological connectivity in the region.

Environmental Issues

The Kızılırmak River faces significant environmental threats from coastal erosion, primarily driven by upstream dams that trap sediments and reduce delivery to the delta. The construction of major dams such as Hirfanlı (1960), Altınkaya (1988), and Derbent (1991) has drastically lowered annual sediment transport from 23.1 million tons pre-1960s to just 0.46 million tons today, leading to shoreline retreat rates of 10-20 meters per year in affected delta areas east of the river mouth. This erosion has resulted in a maximum retreat of over 600 meters in some subregions since the 1950s, exacerbating habitat loss along a 4-kilometer coastal stretch. Eutrophication poses another major threat, fueled by agricultural fertilizers and nutrient runoff from the river's extensive basin. Elevated levels of nitrogen and phosphorus have triggered algal blooms in the delta's lakes and coastal waters since the 1990s, promoting excessive phytoplankton growth that depletes oxygen and harms aquatic life. These blooms, linked to anthropogenic nutrient loads, have intensified hypoxic conditions in areas like Balık Lake, contributing to broader ecosystem degradation in the Black Sea coastal zone. Habitat alterations further compound these issues, with channelization projects near the river mouth in the 2010s reducing wetland areas through drainage and straightening of waterways. This has diminished seasonal marshes and shallow lakes critical for ecological functions, while drought episodes—such as the 2021 drying in the source regions—have caused localized riverbed exposure and fish die-offs due to low oxygen levels. These changes have indirectly affected biodiversity by fragmenting habitats, though detailed species impacts are addressed elsewhere. Conservation efforts aim to mitigate these pressures, beginning with the delta's designation as a Ramsar Wetland of International Importance in 1998, covering 21,700 hectares of marshes, dunes, and reedbeds. In 2016, the site was added to UNESCO's World Heritage Tentative List for its natural and cultural value, prompting enhanced protection measures. A revised management plan for 2025-2034 focuses on delta restoration, including reed bed rehabilitation through sustainable grazing to remove invasive species and revive wet grasslands over targeted areas. Climate change amplifies these vulnerabilities, with projections indicating a 20-30% reduction in river flow by 2050 due to warming in , driven by decreased precipitation, increased evapotranspiration, and shifts in snowmelt timing. This could intensify droughts and erosion, underscoring the need for adaptive strategies in basin management.

History

Ancient Period

In the 2nd millennium BCE, the held significant prehistoric importance as the Maraššantiya in Hittite texts, serving as the western boundary of Hatti, the core territory of the Hittite Empire. This riverine demarcation influenced the geopolitical landscape of ancient , with Hittite records from sites like referencing it in administrative and military contexts. During classical antiquity, the river was known as the Halys in Greek sources, notably described by Herodotus as a major waterway originating in Armenia and flowing through Cilicia before emptying into the Euxine Sea. It gained historical prominence as the site of the Battle of the Eclipse on May 28, 585 BCE, where Lydian forces under Alyattes clashed with the Medes led by Cyaxares; a sudden solar eclipse halted the fighting, prompting mediation by the kings of Cilicia and Babylon that resulted in a truce and established the Halys as the border between Lydia and Media. The Halys functioned as a critical cultural and political boundary in the ancient Near East, separating Lydia to the west from the Persian Empire (formerly Media) to the east, and later delineating the Pontic Kingdom from Cappadocia during the Hellenistic period, as noted by Strabo. Xenophon's Anabasis (401 BCE) records the Ten Thousand Greek mercenaries crossing the Halys during their retreat from Persia, highlighting its role as a formidable natural barrier navigated via makeshift bridges amid swift currents. Archaeologically, the river is tied to early Anatolian civilizations, with the ruins of Hattusa—the Hittite capital from circa 1650 to 1200 BCE—situated within its great central loop near modern Boğazkale, underscoring the waterway's strategic value for settlement and defense.

Later Periods

During the Roman and Byzantine eras, the river retained its ancient Greek name Halys and served as a vital corridor for trade and military movements across central Anatolia. The upper Halys valley facilitated key routes connecting cities like Sebastia (modern ) to Satala, enabling the transport of goods and troops through the rugged terrain. Several bridges spanning the river from this period underscore its infrastructural importance for crossing the waterway. In the medieval Islamic period, particularly under Seljuk rule, the river was known as Alis in Arabic geographical texts, reflecting its continued regional significance. It formed part of broader networks, with Seljuk authorities repairing and extending Roman and Byzantine roads along its banks to support caravan trade between Persia, Anatolia, and the Black Sea ports. Fortifications erected by the Seljuks, such as caravanserais and roadside structures, protected these vital passages amid the river's strategic valley. The Ottoman era marked the river's integration into the empire's agricultural framework, where it played a central role in irrigation under the 16th-century timar system of land grants. Timar holders were responsible for maintaining water diversion channels to support crop production in the fertile valleys, though many schemes deteriorated due to insufficient investment. Tobacco cultivation, introduced to the Ottoman Empire in the late 16th century via European contacts, became prominent along the lower reaches near the delta, where the river's alluvial soils favored the crop on higher surrounding lands. In the 20th century, following the establishment of the Republic of Turkey in 1923, the river's Turkic name Kızılırmak—meaning "Red River" and derived from the reddish it carries from upstream erosion—remained in official use, symbolizing the nation's embrace of indigenous linguistic heritage. This nomenclature, rooted in the river's visible sediment load, persisted as a marker of continuity from earlier Turkish settlements in Anatolia.

Human Uses

Agriculture and Irrigation

The Kızılırmak River plays a vital role in supporting agriculture across its basin, particularly through irrigation that enables the cultivation of staple crops. In the delta region, rice is the dominant crop, with annual production in the Bafra area reaching approximately 118,000 tons from over 15,000 hectares of cultivated land (as of 2023). This output contributes significantly to national rice supplies, with regions like Çankırı and Çorum in the basin accounting for approximately 8% of Turkey's total paddy rice production (as of recent estimates). Historically, the delta's higher lands focused on tobacco farming from the 19th to early 20th centuries, but drainage and irrigation developments shifted emphasis to rice and other grains as modern staples. Throughout the broader basin, spanning over 78,000 square kilometers with significant arable land suitable for farming, key crops include sugar beets, corn, and various vegetables such as potatoes, onions, and tomatoes. Irrigation systems, fed by canals from upstream reservoirs like those managed by the State Hydraulic Works, distribute water across extensive networks, including the 35-kilometer S1 canal and 24-kilometer S2 canal in the delta, supporting drip and sprinkler methods for efficient use. These systems irrigate significant portions of the basin's agricultural lands, enhancing yields—for instance, corn production benefits from irrigation rates up to 12 tons per hectare, while vegetable output has increased by over 130% in irrigated areas compared to rain-fed fields. The basin's vegetable production supports a substantial share of national needs, where Turkey achieves self-sufficiency rates exceeding 100% for crops like tomatoes (as of 2017). In the delta wetlands, water buffalo farming remains integral, with a population of around 10,000–12,000 heads (as of 2023 estimates) providing milk and meat as key protein sources for local communities. Traditional practices complement modern agriculture, including reed harvesting for mats and roofing materials, which sustains supplementary incomes, and small-scale fishing yielding thousands of kilograms annually of species like carp and grey mullet from coastal lakes.

Hydroelectric Power and Economy

The Kızılırmak River hosts several major hydroelectric dams that collectively provide an installed capacity exceeding 2,000 MW, significantly contributing to Turkey's renewable energy production. The Altınkaya Dam, one of the largest, features four turbines totaling 700 MW and generates approximately 1.63 annually. Overall, the river's facilities produce an estimated several per year, accounting for a notable portion of the nation's hydroelectric output amid Turkey's total of approximately 350 (2024). These hydroelectric resources play a vital role in the regional economy by enabling energy exports and creating employment opportunities, with operations across the dams supporting thousands of jobs in construction, maintenance, and related sectors. The power generated bolsters industrial development, particularly in Kırıkkale Province, where reliable electricity from nearby facilities like the Derbent and Kapulukaya Dams fuels manufacturing and supports local GDP growth. Additionally, irrigation enabled by the dams enhances agricultural productivity, adding hundreds of millions of dollars to the economy through increased crop yields in the basin. Tourism in the Kızılırmak Delta further diversifies economic benefits, drawing thousands of visitors annually for birdwatching and ecotourism activities, given its status as a key wetland. The area, Turkey's third-largest river delta, holds potential for expanded revenue through its inclusion on UNESCO's Tentative List for World Heritage status. However, challenges such as droughts can disrupt output; for instance, in 2021, reduced river flows due to dry conditions led to lower hydroelectric generation across Turkey, including facilities on the Kızılırmak, highlighting vulnerabilities in water-dependent energy systems.

References

  1. https://webdosya.csb.gov.tr/db/tabiat/icerikler/k-z-l-rmak_deltas-_yp_eng-20180921095540.pdf
  2. https://www.sciencedirect.com/science/article/abs/pii/S0169555X10004666
  3. https://www.mdpi.com/1999-4907/13/4/501
  4. https://www.tarimorman.gov.tr/SYGM/Belgeler/havza%20koruma%20eylem%20planlar%C4%B1/K%C4%B1z%C4%B1l%C4%B1rmak_Havzas%C4%B1.pdf
  5. https://www.tarimorman.gov.tr/SYGM/Sayfalar/Detay.aspx?SayfaId=134
  6. https://whc.unesco.org/en/tentativelists/6125/
  7. https://www.britannica.com/place/Kizil-River
  8. https://gorivers.goturkiye.com/rivers-central-anatolia-turkiye
  9. https://www.tarimorman.gov.tr/SYGM/Belgeler/havza%20tan%C4%B1t%C4%B1m%2023.03.2023/ingilizce/K%C4%B1z%C4%B1l%C4%B1rmak%20River%20Basin.pdf
  10. https://www.pjoes.com/pdf-58765-23542?filename=Determination%20of%20Temporal.pdf
  11. https://www.mdpi.com/2071-1050/15/14/10964
  12. https://www.fugro.com/expertise/case-studies/kizilirmak-river-basin-hydrogeological-investigation
  13. https://rsis.ramsar.org/RISapp/files/RISrep/TR942RISformer1998_EN.pdf
  14. https://www.ramsar.org/sites/default/files/migration_files/documents/pdf/Ramsar_Sites_of_Turkey_publication_english.pdf
  15. https://doi.org/10.1007/s10661-019-7535-8
  16. https://rsis.ramsar.org/ris/942
  17. https://www.academia.edu/55387791/Water_quality_problems_of_a_gypsiferous_watershed_Upper_Kizilirmak_Basin_Sivas_Turkey
  18. https://link.springer.com/article/10.1007/s00704-024-04952-4
  19. https://www.mdpi.com/2071-1050/17/22/10100
  20. https://trjfas.org/uploads/pdf_410.pdf
  21. https://dergipark.org.tr/en/download/article-file/2577459
  22. https://www.researchgate.net/publication/240779011_Physical_and_Numerical_Modeling_of_Shoreline_Evaluation_of_the_Kizilirmak_River_Mouth_Turkey
  23. https://www.sciencedirect.com/science/article/abs/pii/S0013935122011185
  24. https://nhess.copernicus.org/articles/10/979/2010/nhess-10-979-2010.pdf
  25. https://www.euas.gov.tr/en-US/power-plants/altinkaya-hepp
  26. https://suis.com/altinkaya-dam-and-hpp/
  27. https://megaconstrucciones.net/en/altinkaya-dam/
  28. https://www.teknikmuhendislik.com.tr/boyabat-dam-and-hepp
  29. https://www.power-technology.com/data-insights/power-plant-profile-boyabat-turkey/
  30. https://www.dogusenerji.com/en/production/boyabat.aspx
  31. https://www.waterpowermagazine.com/news/table-1-turkey-s-largest-dam-and-hydroelectric-projects-6/
  32. https://www.researchgate.net/publication/336072363_Assessment_of_the_changes_in_shoreline_using_digital_shoreline_analysis_system_a_case_study_of_Kizilirmak_Delta_in_northern_Turkey_from_1951_to_2017
  33. https://ui.adsabs.harvard.edu/abs/1994EnGeo..23..276H/abstract
  34. https://www.omu.edu.tr/en/icerik/news/bird-ringing-studies-highlight-migration-shifts-due-global-warming
  35. https://www.aa.com.tr/en/life/turkiyes-kizilirmak-delta-hosting-endangered-bird-species-seeks-unesco-status/3216010
  36. https://openknowledge.fao.org/server/api/core/bitstreams/2b9abb35-bb50-4c9d-bd7c-cbc98d21600c/content
  37. https://pdfs.semanticscholar.org/3f0f/2a6c99c1c0624f070877180e2f595fef0b41.pdf
  38. https://www.jcronline.org/doi/abs/10.2112/JCOASTRES-D-14-00159.1
  39. https://www.sciencedirect.com/science/article/abs/pii/S0272771421003577
  40. https://trjfas.org/pdf.php?&id=410
  41. https://www.dailysabah.com/turkey/turkeys-longest-river-kizilirmak-hit-by-drought-threat/news
  42. https://bianet.org/haber/fish-die-off-in-kizilirmak-river-lack-of-oxygen-due-to-drought-247434
  43. https://www.mdpi.com/1996-1073/9/3/191
  44. https://www.livius.org/articles/place/halys-kizilirmak/
  45. https://turkisharchaeonews.net/site/hattusa
  46. https://topostext.org/place/416359WHal
  47. https://www.researchgate.net/publication/316081675_THE_BATTLE_OF_THE_ECLIPSE_MAY_28_585_BC_A_DISCUSSION_OF_THE_LYDO-MEDIAN_TREATY_AND_THE_HALYS_BORDER
  48. https://topostext.org/work/90
  49. https://journals.library.columbia.edu/index.php/alusur/article/download/8898/4597/20017
  50. http://www.turkishhan.org/roadsroutes.htm
  51. https://scispace.com/pdf/ecology-climate-and-crisis-in-the-ottoman-near-east-3rfn21o7yn.pdf
  52. https://www.cambridge.org/core/journals/international-journal-of-middle-east-studies/article/wetland-is-disappearing-conservation-and-care-on-turkeys-kizilirmak-delta/3FDD876B6A3309AFD548F72D5F7F614C
  53. https://www.tridge.com/news/the-10th-rice-planting-day-in-bafra-plain-tu-kpfhsz
  54. http://www.custoseagronegocioonline.com.br/numero1v19/OK%207%20paddy%20english.pdf
  55. https://www.caterinascaramelli.com/s/Scaramelli-2018-IJMES-The-Wetland-is-Disappearing.pdf
  56. https://www.scirp.org/pdf/oalibj_2020112614262748.pdf
  57. https://www.power-technology.com/data-insights/power-plant-profile-altinkaya-turkey/
  58. https://www.statkraft.com/about-statkraft/where-we-operate/Turkiye/kargi-hydropower-plant/
  59. https://ember-energy.org/app/uploads/2025/03/Turkiye-Electricity-Review-2025_11032025.pdf
  60. https://www.euas.gov.tr/en-US/power-plants/derbent-hepp
  61. https://www.euas.gov.tr/en-US/power-plants/kapulukaya-hepp
  62. https://www.researchgate.net/publication/44130673_Total_risk_analyses_for_large_dams_in_Kizilirmak_basin_Turkey
  63. https://www.anews.com.tr/turkey/2023/07/17/the-kizilirmak-delta-hosts-a-variety-of-wildlife-as-a-bird-paradise
Add your contribution
Related Hubs
User Avatar
No comments yet.