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Dice snake

The Dice snake (Natrix tessellata) is a medium-sized, non-venomous colubrid snake endemic to and , recognized for its lifestyle and distinctive checkered ventral pattern that resembles dice markings. Adults typically measure 1 to 1.3 meters in length, with females larger than males, and exhibit variable dorsal coloration ranging from greyish-green to olive-brown or black, accented by dark spots or bands; the belly is yellow to orange with bold black squares. This species thrives in diverse and riparian habitats, including rivers, lakes, streams, wetlands, and coastal areas, often extending into adjacent grasslands, plantations, and even urban environments near water bodies. Native to a broad Palearctic range spanning from and the in the west to and in the east, and southward to and parts of the , the Dice snake occupies elevations from up to 2,800 meters in mountains and adapts to varied climates including deserts and temperate zones. Its distribution reflects evolutionary success, with nine mitochondrial DNA haplotype clades identified across regions like , , and , enabling colonization of both freshwater and occasionally brackish or marine-influenced sites. Primarily piscivorous, the snake's diet consists mainly of (comprising 80-100% of prey in most European populations, across 87 fish taxa), supplemented opportunistically by amphibians like frogs and tadpoles (about 10%), as well as , reptiles, and rarely mammals, particularly in arid or high-altitude areas where fish availability is limited. Diurnal and solitary, Dice snakes are adept swimmers that forage actively in water during warmer months, hibernating from to in burrows or rocky crevices, and employ defensive strategies such as cloacal gland secretion of foul-smelling or feigning death when threatened. is oviparous, with breeding occurring from to May and females laying clutches of 10 to 30 eggs in , which hatch in early after an of about 45-60 days. Although classified as Least Concern globally by the IUCN due to its wide distribution and adaptability, populations face localized declines from alteration through watercourse modifications, , road mortality, and illegal collection for the pet trade, prompting conservation measures like reintroduction programs in threatened areas such as and .

Taxonomy and description

Taxonomy

The dice snake, Natrix tessellata, belongs to the kingdom Animalia, phylum , class , order Squamata, suborder Serpentes, family Colubridae, subfamily Natricinae, genus Natrix, and species N. tessellata (Laurenti, 1768). This classification reflects its position as a non-venomous colubrid snake adapted to aquatic environments, with the subfamily encompassing other natricine water snakes. The genus name Natrix derives from the Latin nātrīx, meaning "," alluding to the semi-aquatic lifestyle of in this group. The specific epithet tessellata comes from the Latin tessellatus, referring to a or tiled pattern, which describes the distinctive checkered or dice-like ventral scale arrangement that gives the snake its . Originally described as Coronella tessellata by Josephus Nicolaus Laurenti in his 1768 work Specimen medicum, exhibens synopsin reptilium emendatam cum experimentis circa venena et antidota reptilium austriacorum, the has undergone several nomenclatural changes. Historically, N. tessellata was classified under genera such as Coronella (e.g., Coronella tessellata Laurenti, 1768) and Tropidonotus (e.g., Tropidonotus tessellatus , 1834), reflecting early 19th-century taxonomic groupings of colubrids based on scale patterns and . Other synonyms include Coluber hydrus , 1771, and Tropidonotus elaphoides Brandt, 1838, among over 50 historical names now considered junior synonyms. The current placement in Natrix was solidified in the through morphological and molecular revisions. Phylogenetically, N. tessellata is closely related to other Natrix species, particularly the grass snake (N. natrix), with which it shares a common ancestor in the Natricinae subfamily and evidence of occasional hybridization in sympatric zones. Genetic studies using mitochondrial DNA (e.g., cytochrome b) and nuclear markers have revealed significant cryptic diversity, identifying seven major mitochondrial lineages across its range (updated from nine lineages reported in earlier studies), with divergence times estimated at 1.4–6 million years ago during the Miocene/Pliocene. These lineages, including basal groups from Iran and widespread European clades, suggest a southwest Asian origin followed by Pleistocene dispersal, highlighting intraspecific variation that may warrant further taxonomic review. Recent genomic analyses have confirmed broad hybridization with related species like N. maura and provided the first complete genome assembly as of 2023.

Physical characteristics

The dice snake (Natrix tessellata) typically reaches an average adult length of 1.0–1.3 m, with females generally larger than males and some individuals attaining a maximum length of up to 1.37 m. is evident in body proportions, with males possessing relatively longer tails and higher counts of subcaudal scales (48–86) compared to females, while females exhibit greater overall body size. The coloration of the dice snake ranges from greyish-green to , brownish, or nearly , often featuring four or more longitudinal rows of dark brown or black spots or blotches that may connect to form crossbands. The ventral surface is distinctive, appearing yellow to with a pattern of black spots, which inspired the "dice snake." Regional variations occur, with darker melanistic or unpatterned forms more prevalent in northern and northeastern populations. Anatomically, the dice snake has a robust, semi-aquatic body with strongly keeled scales arranged in 19 rows at midbody, aiding through . The head is slightly flattened and elongated, lacking loreal scales, with 160–197 ventral scales and valvular nostrils that can close during submersion; the eyes are positioned with round pupils to enhance in aquatic environments. As a colubrid, it lacks heat-sensing pits.

Distribution and habitat

Geographic range

The dice snake (Natrix tessellata) has a broad native range spanning central and eastern Europe, the Balkans, Anatolia, the Middle East, and Central Asia. In Europe, it occurs from isolated populations in southern Germany, southern Switzerland, southern France, Italy, Austria, Czech Republic, Slovakia, Hungary, and Slovenia, extending eastward through the Balkans (including Croatia, Bosnia and Herzegovina, Montenegro, North Macedonia, Serbia, Albania, Romania, Bulgaria, and Greece with its islands) to Ukraine, Moldova, and southern Russia. The species is also present in Anatolia (Turkey), the Caucasus (Armenia, Azerbaijan, Georgia), and further east into the Middle East (Syria, Lebanon, Jordan, Israel, Palestine, Iraq, Iran) and Central Asia (Kazakhstan, Turkmenistan, Uzbekistan, Tajikistan, Kyrgyzstan, and northern Pakistan), with the northern limit reaching southern Russia and the Don River basin, and the southern limit extending to northeastern Egypt. A 2025 record from Gahkuch wetlands in Ghizer District, Pakistan (36.171011°N, 73.775341°E; elev. 1845 m), extends the eastern range by approximately 115 km. Historically, the dice snake's distribution reflects post-glacial recolonization from southern refugia during the Pleistocene, with survival in areas such as the southern Turanian lowlands and expansions northward following of ice sheets, leading to the current pattern of continuous range in the south and isolated populations in the north. These expansions likely followed major river systems, contributing to the species' wide Eurasian footprint, though large-scale northern extinctions during glacial periods shaped its fragmented northern distribution. No introduced populations are definitively confirmed, though some western European records may stem from human-mediated dispersal. The dice snake lacks recognized , but exhibits genetic clines and cryptic diversity across its range, with multiple mitochondrial lineages identified, such as distinct clades in , (e.g., up to 5% between some distant clades, with 2.1% between and lineages), and the , reflecting regional phylogeographic variation. Isolated populations occur in the ( and , beyond the continuous northern border) and , often showing reduced genetic variation due to bottlenecks. Key areas of presence include the Danube River basin in , the drainage in the and , and the regions in and , where the is associated with riverine systems.

Habitat requirements

The dice snake (Natrix tessellata) is primarily a semi-aquatic species that inhabits the vicinity of slow-moving or still freshwater bodies, including rivers, lakes, streams, ponds, marshes, and wetlands, where it spends much of its time near the water's edge. It shows a strong preference for shorelines with vegetated cover, such as riparian forests dominated by species like (Alnus spp.), (Salix spp.), and (Populus spp.), often combined with rocky substrates or burrows for shelter. These habitats provide essential opportunities for , with over 97% of recorded locations situated within 20 meters of open water. The species demonstrates notable tolerance for varying environmental conditions, adapting to brackish and even marine coastal areas, such as the shores, while generally avoiding densely forested or arid environments lacking water access. Its elevational range extends from below to approximately 2,800 meters in mountainous regions, though it is most abundant in lowland to mid-elevation zones up to 1,100 meters in semi-arid landscapes like steppes and semi-deserts. It shuns fast-flowing waters with steep gradients or habitats with low structural , such as concrete-banked channels that limit shelter and prey availability. In terms of microhabitat utilization, dice snakes frequently bask on sun-exposed rocks, branches overhanging water, or artificial structures like rip-raps, while seeking shelter in burrows, piles, fallen trees, or during inactive periods. Seasonal shifts occur, with individuals moving to more terrestrial microhabitats, such as open grasslands or lands near water during dry periods, to access opportunities in shallow ditches or temporary brooks. Light herbaceous or vegetation is favored for cover, avoiding dense canopies that reduce exposure. Dice snakes readily occupy human-modified habitats, thriving in canals, reservoirs, channels, and urban lakesides with artificial shoreline protections like or rock embankments, which serve as basking and nesting sites. Populations persist in densely urbanized areas, such as along in , where modified shorelines support abundant individuals despite proximity to roads and buildings. However, the species is sensitive to , river damming, and drainage that degrade quality and reduce prey abundance.

Behavior and ecology

Diet and foraging

The dice snake (Natrix tessellata) is primarily piscivorous, with fish comprising the dominant component of its diet across most of its range, including species such as minnows (Phoxinus phoxinus), (Cobitis spp.), and (Cyprinus carpio). In a comprehensive review of 113 prey taxa, fish accounted for approximately 80% of the diet, with specific examples including cyprinids like Alburnus alburnus and gobies (Neogobius spp.) in riverine habitats. Amphibians, particularly frogs and tadpoles, represent about 10% of the prey items and become more prominent seasonally, especially in when aquatic amphibian larvae are abundant, or in regions with limited fish availability such as high-altitude streams above 1,000 m or arid Mediterranean areas. Regional variations further influence prey selection; for instance, in central Italy's Mediterranean streams, over 90% of the diet consists of fish, but populations in seasonal streams shift toward amphibians and larger cyprinids like Scardinius erythrophtalmus during dry periods. Occasionally, the diet includes , small reptiles, or mammals, particularly in suboptimal habitats like deserts where non-fish prey can exceed 50%. Foraging occurs predominantly in shallow freshwater environments, where the snake employs a mix of active searching and tactics to capture prey. It actively patrols vegetation or beds at speeds of about 0.15 m/s, using visual cues from prey to initiate strikes, with an average search duration of around 48 seconds before attacking. predation involves sitting motionless near water edges or partially submerged, occasionally using the brightly colored tip as a lure to attract , mimicking small prey or . Upon capture, the snake grasps slippery with its —typically without —and swallows them live headfirst, employing lateral jaw movements to maneuver and align the prey, though larger items may be dragged onto land for easier ingestion. Attack success rates reach about 55%, influenced by factors like snake body condition and proximity to prey, with strikes occurring fully submerged in water up to 1 m deep. In benthic habitats, such as those altered by , the snake targets bottom-dwelling like invasive gobies, adapting quickly to changes in prey abundance. Ontogenetic shifts in reflect growth-related changes in foraging capabilities and prey size preferences. Juveniles primarily consume smaller , such as Leuciscus spp., and or tadpoles, with lower dietary diversity due to limited gape size. As individuals mature, the specializes toward larger , increasing diversity and focusing on gregarious, diurnal while avoiding deep-water or mud-associated prey; this transition is evident in all studied populations, with adults showing significant increases in prey volume consumption. Regional differences amplify these patterns; for example, in fish-scarce high-mountain streams, even adults incorporate more amphibians to compensate for reduced piscivory. Physiological adaptations enhance the dice snake's piscivorous lifestyle, including long, curved, and sharp teeth that facilitate grasping and holding slippery prey during . Posterior maxillary teeth are enlarged and posteriorly curved, providing a secure on evasive without relying on or . These traits, combined with jaw ligaments and exaggerated lateral movements, allow efficient handling of prey in dynamic settings.

Defensive mechanisms

The dice snake employs a multifaceted array of to deter predators, primarily relying on chemical, behavioral, and physical strategies. One key primary is the release of a foul-smelling from the , often combined with , which coats the body upon capture to create an unpalatable and repulsive odor that discourages further attack. This musking behavior occurs in approximately 47% of captured individuals and synergistically shortens the duration of subsequent death feigning by enhancing the overall deterrence effect. Another core tactic is thanatosis, or feigning death, where the snake flattens its body, lies motionless on its back with mouth agape and tongue protruded, and sometimes releases blood from the mouth via to simulate a deceased state; this immobility display is exhibited by about 35% of snakes and averages 11-17 seconds in duration, allowing predators to lose interest more quickly. In addition to chemical and postural defenses, the dice snake may hiss and struggle upon capture, with tail displays varying by color morph (blotched most frequent) and sex (males more often). Physical deterrents include rare instances of deliberate , where the snake voluntarily sheds its to distract predators, though this is infrequently observed and represents a last-resort measure due to the energy cost of regeneration. The also leverages its semi-aquatic for rapid swimming escapes into water bodies, utilizing powerful lateral undulations to flee diurnal predators effectively. Complementing these active defenses, the dice snake exhibits behavioral adaptations such as occasional nocturnal activity during warmer periods to avoid daytime predators like and mammals, shifting from its primarily diurnal patterns when risks are high. Its distinctive tessellated coloration, ranging from grayish-green to brownish with dark spots, provides effective in riparian and environments, blending with mottled substrates to reduce detection by visual hunters. These mechanisms collectively enhance survival, with chemical secretions proving particularly effective against and mammalian predators by exploiting olfactory aversion.

Activity patterns

The dice snake exhibits primarily diurnal activity patterns, with individuals most active during daylight hours when air temperatures range from 20–26°C, often basking and moving near water bodies. In hotter southern regions during summer, activity shifts to crepuscular or nocturnal periods to avoid excessive heat, with observations of movement up to midnight in warmer conditions. Hibernation begins in late October to early November and lasts until mid-March to early April, spanning up to 238 days depending on latitude and climate, with emergence triggered by rising temperatures above 10°C. Snakes congregate in communal dens such as rock crevices, rodent burrows, stone walls, or anthropogenic structures like rip-rap and embankments, typically located within 10–20 m of water in riparian zones to minimize flood risk while maintaining body temperatures of 4–10°C. The active season generally runs from March to October across most of its range. Dice snakes are largely solitary outside of the breeding season, with limited social interactions except for temporary aggregations of males during courtship periods. Territorial among males may occur briefly in near sites, but overall, individuals maintain independent home ranges averaging 0.22–0.27 along shorelines. Migration is limited, primarily involving seasonal shifts of hundreds of meters between summer areas and sites, often following the same routes in spring and fall. Juveniles disperse along waterways post-hatching, with daily movements typically under 30 m, though rare long-distance dispersal up to 50 km has been documented via swimming or drifting to isolated habitats like artificial islands. Populations may respond to environmental changes such as flooding by temporary relocation to higher ground or by concentrating in remaining water sources, but these adjustments are localized.

Reproduction and life cycle

Mating and courtship

The mating season of the dice snake (Natrix tessellata) occurs in spring, typically from March to June, shortly after emergence from . During this period, snakes congregate in large aggregations near water bodies, often exhibiting a male-biased , with up to 63% males captured in spring samples from certain populations. These aggregations facilitate , where multiple males (typically 2–5) simultaneously approach and court a single receptive female, often in shallow water or along stream banks. Courtship involves males swimming around the female, attempting to align for copulation by inserting one hemipenis into her cloaca; successful intromission often occurs when the female ceases active movement and rests on a substrate. Males detect receptive females primarily through pheromones, sampled via tongue flicking and processed by the vomeronasal organ, a sensory mechanism common in colubrid snakes. Although true male-male combat is absent in the genus Natrix, competitive interactions during courtship can resemble pseudocombats, with males twisting and pushing against each other to gain advantageous positioning around the female. Body size influences outcomes: larger females attract more suitors, potentially due to greater pheromone production, while smaller, more agile males achieve higher mating success by maneuvering effectively in aquatic environments. Multiple matings are common, with females often copulating with several males in a single aggregation, enhancing in offspring. The timing of is influenced by environmental cues such as rising water temperatures and increasing day length, which signal optimal conditions post-hibernation. Following and copulation, individuals typically disperse from aggregation sites to resume activities.

Oviposition and development

The dice snake (Natrix tessellata) is oviparous, with gravid females selecting moist, concealed terrestrial sites for egg deposition, such as beneath rocks, in loose soil, rotting vegetation, or rock crevices, to ensure adequate humidity and protection. Oviposition typically occurs in July, when females lay clutches of 10–30 eggs, with clutch size showing a strong positive correlation to maternal body size (e.g., snout-vent length; r = 0.94, P < 0.00001). Larger females thus produce more eggs, enhancing reproductive output in favorable conditions. Egg incubation lasts 45–60 days under natural temperatures of 25–30°C, with duration inversely related to thermal conditions; for instance, controlled experiments at 29°C yielded periods of 41–43 days across various substrates. Nest sites leverage solar radiation and microbial decomposition in to maintain optimal warmth, while substrate hydric properties influence egg water uptake—higher in conductive materials like —supporting embryonic development with hatching success rates up to 88%. Hatchlings emerge in early September, measuring 15–20 cm in total length (snout-vent length approximately 15.3 ± 1.1 cm), and are fully independent upon emergence, relying on innate behaviors to enter environments for . Early mortality is elevated due to predation, contributing to low juvenile in wild populations. Growth is rapid post-hatching, with individuals attaining at 3–4 years.

Conservation

Global and regional status

The dice snake (Natrix tessellata) is classified as Least Concern on the at the level, reflecting its extensive distribution across from to and the presence of stable in numerous regions. However, the overall trend is decreasing, primarily due to localized habitat alterations, though no comprehensive estimate exists; local studies indicate abundances ranging from thousands to tens of thousands in favorable sites, such as over 11,000 individuals at Lake Sinoe in . Regionally, conservation status varies markedly, with isolated populations facing heightened risks in northern parts of the range. In the , the species is listed as , confined to small, fragmented groups in and beyond the core continuous distribution. Similarly, it is considered Vulnerable in , where populations are understudied but protected nationally. In , only three relict populations persist, signaling ongoing declines. In contrast, parts of the host very large and abundant populations, assessed as Least Concern in countries like and . Limited data from suggest stable occurrences in riverine systems, though specific assessments remain scarce. Ongoing monitoring efforts are aiding status evaluations, particularly in vulnerable areas. A 2023 study developed predictive distribution models for the to identify priority conservation sites for isolated populations. In 2024, surveys using N-mixture models documented high abundances in urban lakeside habitats around in , highlighting potential expansions into human-modified environments. Densities exceeding 500 individuals per have been recorded in select locations, such as Golem Grad Island in . These findings indicate positive trends in adapted habitats, contributing to a nuanced understanding of regional viability.

Threats and management

The dice snake faces several anthropogenic threats that compromise its aquatic and riparian habitats across its range. Habitat loss due to river damming and hydroelectric power plant construction disrupts suitable environments by altering water flow, fragmenting populations, and reducing fish availability, as observed in the Mur River system in Austria where such developments limited the snake's distribution despite rehabilitation efforts. Urbanization exacerbates this by degrading shoreline vegetation and increasing human disturbance, leading to poorer body condition and developmental instability in affected populations. Invasive species, particularly the American mink (Neovison vison), pose a significant predation risk; in the Czech Republic, mink expansion has been linked to declines in dice snake numbers through direct predation on adults and juveniles. Illegal fishing nets represent a acute threat in regions like Lake Prespa, Macedonia, where an estimated 2,440 snakes are killed annually, including around 439 gravid females, resulting in the loss of thousands of eggs and severely impacting reproduction. Pollution from industrial effluents and agricultural runoff further diminishes prey populations and contaminates habitats, as seen in historically polluted European river systems where recovery efforts have only partially restored dice snake presence. An emerging threat is ophidiomycosis (snake fungal disease) caused by Ophidiomyces ophidiicola, with the first confirmed cases in wild dice snakes reported in Germany in 2024, potentially affecting relict populations. Regionally, poaching via fishing nets continues unabated in , driven by targeting the Belvica bleak (Alburnus belvica), a primary prey species, with nets deployed nightly during peak breeding seasons. Hybridization with the (Natrix natrix) in overlapping ranges introduces genetic risks, potentially reducing fitness in isolated populations through , particularly in . Road mortality near waterways is another concern, as infrastructure fragments habitats and increases vehicle collisions, with roads and cycle paths directly degrading riverbank access in the . Conservation management includes establishing protected areas along major rivers to safeguard core habitats, such as the Želina Meander Natural Monument in the Czech Republic, where ongoing maintenance like debris removal supports population persistence. Mink control programs across Europe, involving trapping and monitoring, aim to mitigate predation pressure, with documented efforts in the Czech Republic helping to stabilize local snake populations. Habitat restoration initiatives, including reintroduction trials in the Czech Republic, focus on enhancing riparian zones through vegetation replanting and water quality improvements to bolster isolated groups. Public education campaigns emphasize the snake's non-venomous nature and ecological role, involving local communities in monitoring to reduce illegal killings, as implemented around Lake Prespa. Looking ahead, threatens water availability through increased drying of rivers and wetlands, potentially eroding habitats for marginal populations and necessitating updated genetic monitoring to track hybridization and risks in fragmented areas.

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    The population is highly polymorphic, three colour morphs (dotted, grey, and black) are observed in both sexes and each morph is represented by large numbers of ...Missing: coloration | Show results with:coloration