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Snaiad

Snaiad is a and project created by Turkish Cevdet Mehmet Kösemen, depicting the evolutionary development and diverse life forms on a fictional with Earth-like conditions but divergent biological outcomes. The project, initiated in the mid-2000s, presents Snaiad's biosphere through detailed illustrations and descriptions styled as entries from a , emphasizing evolutionary contingencies and anatomical innovations absent in terrestrial . Key clades include the kahydroniforms, agile quadrupedal predators characterized by elongated snouts, manipulative forelimbs, and pack-hunting behaviors that dominate many ecosystems. Other prominent groups, such as pescidonts—social, herbivorous with specialized for processing fibrous vegetation—highlight the project's focus on adaptive radiations shaped by and climatic shifts. Snaiad stands out for its rigorous application of phylogenetic principles to alien taxa, influencing subsequent works through its blend of artistic rendering and biological plausibility.

Premise and Planetary Setting

Environmental Characteristics

Snaiad is depicted as an approximately the size of , formed around 8 billion years ago, making it nearly twice the age of . This extended geological history has allowed for multiple cycles of biological diversification and collapse, with life emerging shortly after planetary consolidation. The planet's environment has been marked by recurrent mass extinctions that reshaped its biosphere, including events approximately 5 to 4 billion years ago, 1.75 billion years ago (a cataclysm reducing life to microbial levels), 975 million years ago (wiping out terrestrial arthropod-like forms), 760 to 600 million years ago (affecting complex early multicellular groups), 490 million years ago (eliminating post-arthropod lineages), and 183 million years ago (decimating diverse mobile clades amid volcanism forming the Thalassia ). These episodes, driven by geological upheavals and possible atmospheric shifts, contrast with 's fewer major extinctions and underscore Snaiad's dynamic crustal activity, including continental collisions like that of Oroland with the mainland around 30 million years ago. Oceanic realms dominate Snaiad's surface, influencing the prevalence of aquatic-adapted life forms and limiting terrestrial extent compared to , though scattered landmasses exist across continents approaching their current configurations by 250 to 183 million years ago. Atmospheric composition has varied over eons, supporting in early eras but prone to fluctuations tied to volcanic and tectonic events, without stable high-oxygen periods fostering large terrestrial as on . In the speculative future setting of human colonization, Snaiad serves as an early outpost for studying its ancient , with enigmatic artifacts such as the "Dosadi Screws"—metallic objects dated to roughly 3.2 billion years ago—embedded in strata, their artificial appearance debated but not conclusively linked to intelligence. These findings hint at unresolved prehistoric environmental or influences, though primary evidence points to natural geological processes dominating the planet's causal history.

Geological and Evolutionary Timeline

Snaiad's geological and evolutionary history spans approximately 8 billion years, nearly twice the age of , with life's origins tracing back to the planet's formation. This extended timeline features repeated cycles of diversification, mass extinctions, and radiations driven by cataclysmic events such as impacts, supervolcanic activity, and oxygenation fluctuations, rather than a singular explosive event akin to Earth's Cambrian period. Early phases parallel pre-Cambrian equivalents on , dominated by radial-symmetric forms like Trilateralans, which exhibited basic multicellularity but lacked the bilateral dominance that characterized terrestrial vertebrate evolution elsewhere. Contingent bottlenecks from these resets favored improbable morphologies, including hydraulic propulsion systems in later , underscoring evolution's sensitivity to localized extinctions over directed progress. From 8 to 4 billion years ago, initial multicellular radiations occurred amid volatile atmospheres and shallow s, with complex "" and "animals" (Second Occupants) diversifying before a major pruned lineages, leaving fragmentary fossils. A pivotal around 1.75 billion years ago reduced to microbial mats, enabling the rise of modern clades and Arthrognathans—arthropod-like phyla with radial —while oxygenation shifts facilitated shallow-water colonizations. Subsequent intervals from 1.75 to 760 million years ago saw terrestrial incursions by these groups and symbiotic plant-animal para-tetrapods, but recurring mass extinctions, including one at 975 million years ago, eradicated dominant terrestrial forms and spurred "" ancestors (sea cucumber-derived) to develop hydraulic legs and land adaptations. Post-760 million years ago, further declines in symbiotic para-tetrapods and Mullojiforms (radial ) preceded a 490-million-year-ago extinction that accelerated "vertebrate" innovations like fluid-powered muscles and hydrocarbon-based skeletons, contrasting Earth's calcium-phosphate reliance. The appearance of Eotetrapus at 452 million years ago marked early four-limbed, two-headed para-tetrapods, amid shifts from eight- to six-legged dominance and aerial expansions in Trikes (triradial clades). A 183-million-year-ago event, likely involving supervolcanism or strikes, reset marine and terrestrial faunas, favoring Spinostomes and Polydactyls—jet-propelled —over prior hexapods. In the Cenophytic period, from roughly 80 million years ago to the present, modern para-tetrapod lineages proliferated following competitive declines in archaic forms, with continental collisions like Oroland's merger driving and adaptive bursts in predatory clades such as Kahydroniformes. These dynamics highlight how serial cataclysms, rather than steady accumulation, imposed contingency, yielding Snaiad's hydraulic, multi-headed biota through survival of rarified traits post-bottleneck.

Project Development

Creator and Origins

Cevdet Mehmet Kösemen, a Turkish artist, researcher, and speculative biologist also known by the pseudonym Nemo Ramjet, created Snaiad as a speculative exobiology project centered on the natural history of a fictional alien planet. Born on May 18, 1984, Kösemen initiated the work as a driven by about evolutionary possibilities, independent of professional or ideological imperatives. The project emerged from his personal interest in constructing coherent biological systems, beginning with conceptual sketches and cladograms developed in the mid-2000s. Snaiad's initial public presentation occurred through online platforms, with early artworks shared on starting around 2007, predating many contemporary digital tools for . The official website, hosted at cmkosemen.com/snaiad_web, launched in June , featuring structured content such as frequently asked questions, evolutionary timelines, and breakdowns of major clades to outline the planet's . This format emphasized a rigorous, diagram-driven approach, starting from abstract phylogenetic trees sketched on paper before progressing to detailed illustrations. Kösemen's motivations stemmed from a desire to explore and life's potential trajectories on an -analog planet, treating the endeavor as an "evolutionary thought-exercise" for personal fulfillment rather than commercial or narrative purposes. While drawing inspiration from terrestrial ecosystems and biological principles, the project prioritized innovative deviations from familiar morphologies, such as radial and para-tetrapod forms, to test speculative plausibility without direct emulation of prior works. This self-directed process, spanning several years of conception, underscored a commitment to empirical reasoning in imagining alien life.

Iterations and Expansions

The Snaiad project evolved from initial manual cladograms and sketches in its formative stages to more elaborate digital enhancements, with creators revising phylogenetic trees multiple times on paper before advancing to species-specific illustrations. Traditional techniques, such as outlines on paper followed by water-soluble pigments blended with a saliva-water mixture for textured effects, formed the core , detailed anatomical representations grounded in evolutionary logic. By the mid-2010s, expansions included public presentations that synthesized these elements, exemplified by the August 2014 video "The Story of Snaiad," in which creator outlined the project's speculative framework during a talk at Loncon 3, the 72nd World Conference. This iteration emphasized the integration of biological contingencies, such as divergent faunal radiations, over implausible tropes. In the 2020s, further developments featured explanatory media like the November 2021 YouTube series "The Incredible Planet of Snaiad" by Curious Archive, which elaborated on planetary ecology and clades through multi-part analyses. A 2025 interview revealed ongoing refinements, including plans for a comprehensive compilation with updated clades—such as expanded Arthrognaths and mullojiforms—alongside daily additions of species and environmental details to enhance plausibility. Methodological advancements incorporated scanned traditional works into Photoshop for colorization, texture layering via soft-light brushes, and compositional adjustments, facilitating precise depictions of adaptations like hydrocarbon-based "woodbone" skeletons that support larger body plans without fantastical deviations. These shifts prioritized empirical analogies from , such as re-routed digestive-propulsive systems in certain lineages, while weekly revisions to cladistic lists ensured alignment with emerging paleontological and ecological insights.

Community Collaborations

The Snaiad project has benefited from decentralized contributions by enthusiasts, primarily through online platforms where fans share artwork, discussions, and supplemental interpretations that expand on but do not alter the canonical framework established by creator . Platforms such as host galleries of fan-generated illustrations, including detailed depictions of clades like jetocetes, such as the predatory Torpedichthys vorax, which emphasize anatomical features like dual-head structures and mechanisms. These visual exchanges foster iterative refinement of creature designs while adhering to the project's evolutionary constraints. Forums including the community on Tapatalk provide spaces for plausibility debates and conceptual explorations, with extended threads analyzing Snaiad's para-tetrapod morphologies and ecological interactions, contributing to a collective scrutiny of biological feasibility without overriding official lore. Kösemen has explicitly encouraged such input via the "Collaborate on Snaiad" page on his website, which showcases successful integrations like Jonas's sketches of pescidont variants, resulting in non-canonical extensions such as elaborated timelines or niche details that enrich fan interpretations. Community outputs extend to digital recreations, notably in the Spore, where users have modeled Snaiad ecosystems featuring creatures like heterostomes and spinodesmus avancna, simulating evolutionary stages and behaviors in interactive formats. Fan-maintained wikis, such as those on dedicated to , compile and organize supplemental entries on Snaiad's clades and timelines, sustaining a niche following that traces back to early online mentions around . These efforts highlight how external creativity has amplified the project's depth through voluntary, non-authoritative additions.

Biological Features

Fauna and Major Clades

The of Snaiad is dominated by several major phyla that diverged early in the planet's evolutionary history, with para-tetrapods serving as the closest analogs to Earth's . These organisms trace their origins to radially symmetric, sea cucumber-like ancestors that emerged around one billion years ago, initially as sedentary burrow-dwellers before transitioning to mobile terrestrial forms through hydraulic locomotion and the development of limb-like appendages from flexible body walls. Unlike Earth vertebrates, para-tetrapods exhibit a bilateral overlaid on residual radial elements, featuring a dual-head morphology: a "first head" derived from genital sheaths equipped with manipulative jaws and sensory organs, and a "second head" dedicated to via a separate gut tract. Their endoskeletons consist of lightweight, wood-like hydrocarbons rather than mineralized , enabling in and flexibility on , while hydraulic muscles powered by coelomic limit flight to rare, low-efficiency gliding in select lineages. Within para-tetrapods, key clades include the jetocetes, highly specialized aquatic swimmers that evolved from modified digestive systems, splitting the gut into a food-processing branch and a dedicated water-ejection for bursts of speed up to 20 meters per second in species like Jetocetus mediterraneana. Basal jetocete relatives, such as phyllocaudids, expel water intermittently via cloacal valves, while advanced forms like cardiocetes integrate heart-like for continuous thrust, preying on smaller aquatic fauna and competing with polycardiac variants in shallow seas. Terrestrial para-tetrapod dominants, including polydactyls and spinostomes, represent survivorship of ancient, legged forms resembling elongated sea cucumbers with multiple ambulatory struts, adapted for grazing or burrowing in arid supercontinental environments; these lineages persist without developing encephalization sufficient for tool use or complex sociality in the current era. Predation dynamics across para-tetrapod clades have driven defenses such as armored exoskeletal flanges in herbivorous turtiformes and toxic secretions in magnopsids, which deploy pincer-like first-head jaws for both offense and evasion. Separate from para-tetrapods, the arthrognathans form an ancient of primarily , once including terrestrial burrowers that dominated early land ecosystems before mass extinctions around 975 million years ago favored para-tetrapod radiation. Surviving arthrognathans feature jointed, arthropod-like appendages and hinged jaw structures for filter-feeding or ambushing, coexisting with jetocetes in coastal niches where inter-phylum predation selects for evasive schooling behaviors and bioluminescent lures. Other notable phyla include elastozoans, gelatinous predators with elastic body plans for ensnaring prey, and trilateralans, trilaterally symmetric scavengers adapted to benthic environments, both contributing to without overlapping para-tetrapod niches. These clades' evolutionary trajectories reflect causal pressures from periodic low-oxygen events, favoring high-metabolic rates in active para-tetrapod ancestors through efficient hydraulic systems over respiratory dependence on ambient gases. No Snaiadi exhibits true , with neural complexity capped at reflexive hunting packs in apex predators like kahydronts.

Flora, Microbes, and Ecosystems

The flora of Snaiad comprises two distinct photosynthetic lineages: plants analogous to terrestrial chlorophytes and red erythrophytes, which utilize phycobiliproteins for light capture under the planet's reddish atmospheric haze. Erythrophytes, exhibiting worm-like larval stages, diverged earlier from faunal ancestors than Earth's , fostering unique symbiotic integrations in ancient ecosystems. Sprogs, a dominant plant form, consist of tough, spongy thalli forming meter-thick mats riddled with burrows and cavities, functioning as algal-like substrates that stabilize soils and host in sproglands biomes. Microbial life on Snaiad underpins trophic foundations, with sparse documentation reflecting the project's emphasis, yet inferred mats of prokaryotic analogs likely facilitated early radial symmetries in multicellular clades by providing structural scaffolds absent in fluid media. These basal communities, akin to precursors, enabled sediment-binding and nutrient cycling, contrasting Earth's fungal-bacterial equilibria pruned by oxygenation events. Ecosystem dynamics integrate flora-microbe bases into webs sustaining , where sprog mats decompose into supporting detritivores, cascading to herbivores like lophophids and predators such as kahydrons; historical extinctions disrupted symbiotic networks, yielding sparser mutualisms than Earth's mycorrhizal webs. Pinnacle ranges exemplify communities, with cathedral-like erythrophyte structures hosting epiphytes and pollinators in vertical . Food chains exhibit radial contingencies, as microbial mats' oxygenation gradients historically pruned symbionts, enforcing opportunistic grazing over specialized decomposition. Gaps persist in invertebrate-microbe linkages, underscoring causal trophic prunings over biases in project elaboration.

Adaptive Innovations and Mechanisms

In Snaiad's , evolutionary innovations arise from the planet's protracted geological history, spanning nearly twice the duration of 's, punctuated by recurrent mass extinctions that impose contingency on developmental trajectories. These events, such as the cataclysm 1.75 billion years ago reducing life to prokaryotic levels and subsequent radiations, enable divergences unattainable on younger worlds, where metabolic efficiencies and anatomical constraints channel adaptations along non-convergent paths. Unlike , where high-oxygen atmospheres facilitated active metabolisms early on, Snaiad's lower baseline oxygenation and nutrient scarcity favor initial sedentary lifestyles among basal "vertebrates," derived from eight-limbed burrowers with water-vascular inherited from echinoderm-like ancestors. This hydraulic skeleton, functioning via piston-like muscles in , imposes efficiency limits on mobility, yielding filter-feeding or luring behaviors in lineages like haplobrachids, which transition from worm-like juveniles to sessile adults. A hallmark adaptation is the jet propulsion system in jetocetes and derived clades, uniquely evolving in large-bodied descendants of terrestrial swamp-dwellers rather than obligate aquatics. Basal forms like Phyllocaudus reticulatus repurpose the anal sphincter for explosive water expulsion, achieving burst propulsion without dedicated pumps. Advanced jetocetes, such as Jetocetus mediterraneana, innovate by bifurcating the second-head digestive tract: a canal separates for continuous jetting, powered by muscular valves and vectored by rear fins in species like Pelagoxiphias gladius, while feeding shifts to the first head's genital-derived jaws. This derives from intermediary stages in motosuchids, where partial tract splitting enhances ambush predation in shallow waters, circumventing limb-based swimming inefficiencies in post-terrestrial forms. Cardiocetes further refine this, looping circulatory elements into the jet tract for hyper-efficient expulsion, though at the cost of ravenous metabolisms demanding constant foraging. Sensory and neural systems exemplify non-convergence due to disparate developmental toolkits. Snaiadi "vertebrates" possess solid-state eyes with annually shed lenses on the first head, detecting light via crystalline matrices rather than fluid-filled chambers, precluding - or cephalopod-like despite analogous pressures for . Neural dualizes into a fibrous peripheral knot for reflexes and a chemical-modulated "worm basket" in the second head, comprising squirming tubules that process memory and cognition via hormonal gradients, not synaptic firing—limiting encephalization absent Earth's derivatives. Metabolic regulation integrates chemical signaling for growth and energy allocation, tying adaptations to oxygen diffusion via specialized heart-proximate oxygenators, which constrain hyperactivity in low-oxygen refugia post-extinction. These mechanisms, grounded in hydraulic and chemical primacy over myomeric or electrogenic alternatives, underscore how Snaiad's toolkit—rooted in ancient, low-energy progenitors—yields novelties like hydraulic bites in kahydroniformes, where struts amplify force without cranial redesign.

Reception and Evaluation

Achievements and Cultural Impact

Snaiad pioneered detailed exobiology by depicting a coherent with evolutionary histories spanning billions of years, emphasizing divergence from terrestrial norms through chance-driven adaptations rather than anthropocentric assumptions. This approach influenced speculative biology communities, as evidenced by its inclusion in discussions at the 2014 LonCon3 World Science Fiction Convention panel on the genre, where creator presented alongside projects like Furaha and , highlighting Snaiad's role in bridging art, science, and . The project's cultural reach expanded post-2012, coinciding with Kosemen's co-authorship of , a work that challenged conventional by advocating speculative reconstructions grounded in evolutionary flexibility, thereby amplifying interest in alien life modeling. Educational outreach manifested in documentaries, such as analyses of Snaiad's clades garnering over 150,000 views by 2023, surpassing typical engagement for niche content and fostering discussions on contingency in biology. Fan engagements included recreations of Snaiad fauna in games like , demonstrating practical extensions of its concepts into interactive media. As a Turkish-originated endeavor, Snaiad elevated non-Western contributions to global , countering Earth-centric tropes by illustrating viable, physics-compliant alternatives like polydactyl sophonts and mass-extinction resilient clades, thus broadening conceptual tools for exobiology and creative divergence from human biases.

Criticisms and Plausibility Debates

Critics within the speculative evolution community have noted Snaiad's limited coverage of non-vertebrate taxa and , with much of the documentation prioritizing clades over like sproges and arthropods, or ecological roles beyond major herbivores and predators. For instance, a 2021 Reddit discussion pointed out the scarcity of details on general , including red , and ancillary groups such as artropods, arguing this leaves ecosystems underdeveloped despite the project's expansive timeline. Plausibility debates often center on the project's perceived Earth-likeness, with some enthusiasts frustrated that many organisms evoke familiar terrestrial forms—such as dinosaurian or analogs—rather than fully divergences from its bilateral worm-like ancestors. A 2024 thread described designs as "down to earth," critiquing choices like conventional heads on allotaurimorphs as missed opportunities for more aberrant morphologies, potentially constrained by artistic preferences over radical . Counterarguments invoke physical universals, asserting that similar planetary conditions yield convergent solutions like tetrapodality or vertical jaws for efficiency under gravity, though detractors question if this underplays developmental contingencies unique to Snaiad's history. Biomechanical scrutiny includes challenges to features like dual-headed feeding mechanisms and ribcage placements, seen by some as inefficient without analogs in known , prompting calls for rigorous modeling of stability and locomotion in burrow-derived active lineages. These critiques emphasize empirical constraints—such as evolutionary "good enough" adaptations over optimality—while debating whether Snaiad over-relies on radial or bilateral symmetries without grounding in genetic or environmental analogs, potentially favoring visual appeal over causal realism in long-term dynamics.

References

  1. [1]
    Frequently Asked Questions About Snaiad (C. M. Kosemen)
    Snaiad is a project that explores how life could evolve on a planet that is roughly similar to Earth. Evolution depends more on chance and accidents than most ...
  2. [2]
    Kahydrons of Snaiad (C. M. Kosemen)
    Smart and powerful, Kahydrons (along with the Fututors,) are some of the most successful and widespread predatory animals on Snaiad.
  3. [3]
    Pescidonts of Snaiad (C. M. Kosemen)
    These creatures are among the most social large animals on Snaiad, usually living in clearly defined family groups or “tribes. ... Common Name: Golden Kahydron, ...
  4. [4]
    Projects & Miscellanea - C. M. Kosemen
    An extensive, illustrated speculative-evolution project, displaying a world where dinosaurs did not become extinct and instead diversified into bird-like ...
  5. [5]
    A Timeline of Snaiad - C. M. Kosemen
    The “Second Occupants” of Snaiad. 3.2 billion years ago ? Tentative date of the infamous “Dosadi Screws”; metallic artifacts of an apparently artificial nature.
  6. [6]
    Snaiad - Speculative Biology Wiki - Fandom
    Snaiad is a fictional alien planet, part of an exobiology project created by Turkish artist Nemo Ramjet (CM Kosemen).
  7. [7]
    Alien para-tetrapods of Snaiad | ScienceBlogs
    Apr 15, 2009 · Snaiadi para-tetrapods have two 'heads': a 'first head' that sometimes includes ossified skull-like elements and is used in catching/procuring ...
  8. [8]
    The Making of Snaiad - C. M. Kosemen
    Here is a very brief overview of the Snaiadi "pipeline," from the initial cladograms to sketches and full-color paintings.
  9. [9]
    The Best of Snaiad by nemo-ramjet on DeviantArt
    A scaled selection of Snaiad animals. Image size. 1181x887px 503.87 KB. © 2007 - 2025 nemo-ramjet. Toy Soldier Sorties. 10 Favourites. Time's up. Traded.
  10. [10]
    Snaiad - The Natural History of an Alien Planet - C. M. Kosemen
    Here, you can find a copy of the old 2008 Snaiad website, and get updates on the upcoming book, which I hope will be complete before the end of the decade.
  11. [11]
    The Story of Snaiad (Designing Alien Lifeforms) - YouTube
    Aug 19, 2014 · Talk given by yours truly at Loncon 3, the 72nd World Science Fiction Conference. I present the story of Snaiad, my art project on life on ...Missing: 2014 | Show results with:2014
  12. [12]
    The Incredible Planet of Snaiad | Part I - YouTube
    a speculative biology project from the “All Tomorrows” author C. M. Kosemen.
  13. [13]
    Snaiad: an interview with the author and lots of exclusive art (part 1)
    Jul 15, 2025 · The name 'Snaiad' derives from an earlier childhood sketch where I drew animals from a planet called Snai-3. When I decided to compile Snaiad ...
  14. [14]
    Life on Snaiad - C. M. Kosemen
    Life on Snaiad is similar to life on many other planets; inconceivably old and diverse, and full of surprises.Snaiad: Life on Another World · Polydactyls · Blumbomeniformes · TurtiformesMissing: size mass gravity
  15. [15]
    Collaborate on Snaiad (C. M. Kosemen)
    Most of Snaiadi collaboration takes place on Deviantart, where it is easier to exchange images, links and comments.
  16. [16]
    Torpedichthys vorax (Snaiad Fan Art) by King-Edmarka on DeviantArt
    Jan 2, 2014 · As with most jetocetes and cardiocetes, their first head jaws are connected to their digestive system (an odd thing on Snaiad), as well as ...
  17. [17]
    Snaiad - Speculative Evolution - Tapatalk
    Jun 1, 2008 · Snaiad is a planet created by Nemo Ramjet. It is home to a wide variety of odd and enjoyable animals. For those unfamilar with Snaiad, ...
  18. [18]
    Sporecast creations: Snaiad Ecosystem - Sporistics
    Sporistics is a web application that allows you to navigate through the Sporepedia in a simple and fast way. It also offers some utilities which Spore.com ...
  19. [19]
    Jetocetes (and relatives) of Snaiad (C. M. Kosemen)
    Most prominent among these changes is the splitting of the second-head digestive tract into a separate canal devoted to propulsion, and the re-routing the ...Missing: revisions clades
  20. [20]
    Map of Biomes and Habitats of Snaiad (C. M. Kosemen)
    This map displays some of the more common habitat types on the planet, as well as the distribution of some of its fauna.Missing: sproges | Show results with:sproges
  21. [21]
    Snaiad - Page 77 - Speculative Evolution - Tapatalk
    Snaiadi microorganisms? They'd certainly be a vital part of the ecosystem, but not interesting to most. Even a simple mention of themMissing: ScienceBlogs | Show results with:ScienceBlogs
  22. [22]
    Anatomy of Snaiadi "Vertebrates" (C. M. Kosemen)
    The sample animal is the Lebanese Kahydron, Kahydron libanesiensis. ... Copyright laws protect all intellectual property associated with Snaiad. All ...
  23. [23]
    Haplobrachids of Snaiad (C. M. Kosemen)
    Starting out life as small, worm-like burrowers, they gradually replace active hunting with a more sedentary luring behavior as they mature. While a well ...
  24. [24]
    Cardiocetes of Snaiad (C. M. Kosemen)
    The Cardiocetes are the masters of aquatic jet-propulsion on Snaiad. Like their Jetocete ancestors, the Cardiocetes have split and looped half of their second- ...Missing: DeviantArt fan art
  25. [25]
    The LonCon3 Speculative Biology event - Scientific American
    Aug 18, 2014 · Gert's talk on Furaha was followed by Memo Kosemen's on Snaiad, an alien planet dominated by a group of superficially tetrapod-like ...<|separator|>
  26. [26]
    Review: All Yesterdays (Conway, Kosemen and Naish)
    Nov 29, 2012 · Part of the value of All Yesterdays is that it gives us a proper perspective, for the first time, on ideas that we've accepted too readily ...Missing: Snaiad | Show results with:Snaiad
  27. [27]
    The Somewhat Disturbing World of Snaiad Explained - YouTube
    Feb 21, 2023 · Thank you to Wondrium for sponsoring today's video! Signup for your FREE trial to Wondrium here: http://ow.ly/NVlc50MR3qY A long, ...Missing: 2014 | Show results with:2014
  28. [28]
    What is your criticism of the snaiad aliens? : r/SpeculativeEvolution
    Jan 29, 2021 · Multiple clades already evolved vertebrate-like jaws on the second head, and most clades probably just swallow whole like reptiles and birds.Missing: para- | Show results with:para-
  29. [29]
    Am I the only one routinely frustrated by Snaiad? - Reddit
    Jun 29, 2024 · I always thought Sprog was such a genius idea, but putting velocitaptors and bird-gerbils in feels like designing the most compelling sci-fi ...Sprog-Ripper Kahydron from Snaiad : r/SpeculativeEvolution - RedditDo your projects have any unique alien biomes formed by animal or ...More results from www.reddit.com
  30. [30]
    Critiques on Snaiad (not my work) Comments in the comments
    Nov 5, 2021 · Where evolution meets science fiction and art. Speculative Evolution (also called Speculative Biology and Speculative Zoology) is the ...Am I the only one routinely frustrated by Snaiad? - RedditSnaiad by C.M. Kosemen will always hold a special place in my heartMore results from www.reddit.com