Fact-checked by Grok 2 weeks ago

Therea petiveriana

Therea petiveriana, commonly known as the Indian domino , seven-spotted , or desert , is a of crepuscular belonging to the Polyphagidae, characterized by its striking black body marked with six to seven white, square-like spots on the and that provide defensive of toxic ground beetles. Native to peninsular , particularly in scrub jungles, semiarid zones, and areas near human habitations where it inhabits and rubbish heaps, this measures about 2.5–3.5 cm in length as an adult, with macropterous but flightless wings and a lifespan of up to two years in the wild. As a gregarious , T. petiveriana primarily feeds on decomposing plant matter and benefits from symbiotic gut microorganisms that aid in , much like those in ; it remains subterranean during inactive periods, emerging at dusk to forage in scrublands and semiarid regions. Adults possess eversible glandular pouches on the that secrete a volatile dominated by N-3-methylbutylacetamide and N-3-methylbutylpropanamide, serving as an alarm pheromone to repel conspecifics and predators such as , with females responding more rapidly to these chemicals than males. Nymphs lack these defensive glands, relying instead on burrowing for protection. First described by in 1758 as Cassida petiveriana, the species has no recognized and is considered of least concern due to its adaptability, though it is also popular in the pet trade for its docile nature and ease of care. Its bold aposematic coloration and chemical defenses highlight its ecological role in nutrient recycling within its native habitats, while ongoing taxonomic studies clarify distinctions from closely related species like Therea bernhardti.

Taxonomy

Classification

Therea petiveriana is classified within the order , which encompasses all and , under the class Insecta, phylum Arthropoda, and kingdom Animalia. The species belongs to the family Corydiidae (previously known as Polyphagidae), a group of primarily arid-adapted often referred to as sand cockroaches, and the subfamily Corydiinae. Within this subfamily, it is placed in the genus Therea Billberg, 1820. The Therea was established by Gustaf Johan Billberg in 1820, with Therea petiveriana (originally described as Cassida petiveriana by in 1758) designated as the by monotypy. This , Therea petiveriana (Linnaeus, 1758), reflects its valid taxonomic status as the nominal species for the genus. A potential taxonomic clarification arose in 2009 when Ingmar Fritzsche described Therea bernhardti as a new species, noting that specimens distributed in the pet trade—long misidentified as T. petiveriana—likely represent T. bernhardti based on differences in coloration and , particularly in the hind wings. This distinction highlights ongoing refinements in the taxonomy of the genus, though T. petiveriana remains the .

Etymology and synonyms

The specific epithet petiveriana honors James Petiver (c. 1663–1718), an English apothecary and naturalist known for his extensive collections of natural history specimens from around the world, including those sent from Madras (present-day ), . The species was originally described by in 1758 under the name Cassida petiveriana in the tenth edition of . Subsequent nomenclatural history includes synonyms such as Corydia petiveriana (reflecting an earlier generic placement) and Cassida septemguttata Linnaeus, 1767.

Description

Morphology

Therea petiveriana is a characterized by an oval-shaped and flattened body plan that facilitates subterranean movement through soil and leaf litter. Adults typically measure 2–3 cm in length, with the body structure supporting a crepuscular lifestyle in basal . The head bears prominent antennae used in sensory and functions, along with a pair of lateral ocelli whose nerves form a cross bar and connect to the neuroendocrine system for light detection. The three pairs of legs are slender and structured for digging and quick , consistent with the ' burrowing adaptations. Abdominal features include paired pleural pouches on the second and third segments, which are retractable structures equipped with retractor muscles and hairy pleats, underlying the orange-yellow coloration of the upperside (typically concealed by the tegmina).

Coloration and mimicry

Therea petiveriana adults display a distinctive coloration on the pronotum and forewings (tegmina), characterized by six to seven prominent white spots on the black background arranged in a that resembles a , earning the species common names such as domino cockroach and seven-spotted . This bold serves as the basis for , where the harmless imitates the appearance of the aggressive Anthia sexguttata, a noxious model known for its defensive capabilities, including spraying irritating at predators. By adopting this visual resemblance, T. petiveriana deters potential predators that associate the with danger, enhancing its survival in scrub forest environments. The abdominal coloration provides a stark contrast, featuring bright orange-yellow on the upperside, though this is typically hidden beneath the folded tegmina when at rest. This hidden vibrancy underscores the species' reliance on the exposed thoracic pattern for anti-predator defense rather than overall .

Distribution and habitat

Geographic range

Therea petiveriana is native to southern , where it occurs in scrub jungles across states including and . The is restricted to the , with the Therea being endemic to and comprising eight distributed primarily within the country. No confirmed records exist outside of . The original description by Linnaeus in 1758 was based on specimens collected by James Petiver, likely from coastal sites in southern such as Tranquebar (modern-day in ) and Madras (now ). These historical collection sites align with the species' current known range in dry scrub forests of the region.

Habitat preferences

Therea petiveriana is a ground-dwelling cockroach primarily inhabiting tropical scrub forests and dry deciduous woodlands in southern India. These environments provide the loose, organic-rich substrates essential for its lifestyle, with the species favoring areas characterized by seasonal dryness interspersed with monsoon rains. The species exhibits a strong preference for burrowing under leaf litter, loose soil, or debris such as cow dung, constructing shallow tunnels for shelter during the day and dry periods. Nymphs, in particular, are subterranean and descend up to 30 cm deep into the soil-litter interface to access more stable moisture levels and avoid desiccation in arid conditions. Adults also burrow but remain closer to the surface, utilizing these microhabitats to evade predators and temperature extremes. For ootheca deposition, females select moist substrates within these habitats, retaining the egg case for extended periods if suitable damp conditions are unavailable, ensuring higher viability in the variable . This preference underscores the ' adaptation to environments where moisture is patchy, often near decaying . Therea petiveriana displays crepuscular activity, emerging in early morning and late evening to forage and interact on the , closely associating with leaf litter layers for both and sources like decomposing plant matter. This behavior maximizes exploitation of the humid twilight periods while minimizing exposure in the hot, open daytime.

Behavior

Activity patterns

Therea petiveriana exhibits a crepuscular lifestyle, with individuals actively primarily and to take advantage of milder temperatures and reduced predation risk. This pattern is facilitated by their forward-facing ocelli, which help sense levels to time activity periods. During the heat of midday, they avoid diurnal exposure by burrowing into leaf litter or loose soil, a behavior that conserves energy and prevents in their arid scrub forest habitats. Foraging occurs on the , where T. petiveriana scavenges decaying plant matter such as leaf litter and organic debris, contributing to nutrient recycling in the . This detritivorous supports their role as decomposers, with adults and nymphs emerging briefly during crepuscular hours to feed before retreating to shelter. In contrast, during dry seasons, nymphs deeper—up to 30 cm into the —to retain and survive prolonged , while adults reduce surface activity. This leverages their compact body form for efficient underground refuge, as noted in morphological descriptions.

Communication

Therea petiveriana primarily communicates through chemical signaling, utilizing pheromones released from specialized glands to convey alarm and facilitate group coordination. When disturbed, individuals evert glandular pouches located on the second and third abdominal tergites by raising their wings and applying pressure, which releases volatile secretions into the air. These secretions serve as alarm pheromones, prompting conspecifics to exhibit escape behaviors. The defensive secretions contain a mixture of volatile compounds, with the major components identified as N-3-methylbutylacetamide (MBA) and N-3-methylbutylpropanamide (MBP), comprising approximately 60% of the volatile fraction. Behavioral assays confirm that both pure MBA and MBP, as well as the whole secretion, elicit significant alarm responses in adults of both sexes, demonstrating their role as key signaling molecules. These pheromones play a critical role in predator deterrence by repelling potential threats, such as , through the unpalatable or irritating of the compounds, thereby enhancing individual survival. Additionally, the alarm signals promote group coordination by alerting nearby individuals to danger, potentially aiding in synchronized escape and maintaining aggregation during crepuscular activity periods, though effects at low concentrations remain untested due to limited sample availability.

Reproduction

Mating in Therea petiveriana occurs through end-to-end genital connection, with males initiating via antennal caressing and females remaining relatively passive during copulation. Mated pairs immediately retreat subterranean following copulation. Males typically emerge following the first summer rains to initiate . Following , females produce up to 13 over a period of 3–40 days. Each ootheca contains 12–16 eggs and is formed through dextral rotation before deposition. are laid in moist substrata, such as leaf litter, during early mornings or late evenings; females carry them longer if conditions are dry. Nymphs emerge from incubated oothecae as burrowing, cryptic individuals that develop subterranean. The overall lifespan of T. petiveriana reaches up to 2 years.

Physiology

Digestion

Therea petiveriana is primarily detritivorous, consuming decaying wood, leaf litter, fungi, and other plant detritus in its natural habitat, with occasional omnivorous tendencies including debris and . This reflects its role in nutrient recycling within arid and semi-arid ecosystems, where it forages nocturnally in leaf litter and layers. In , individuals readily accept fruits, , and protein sources, but wild populations avoid fresh vegetation. The digestive tract of T. petiveriana consists of a for initial food storage and mechanical breakdown, a for enzymatic secretion, and a specialized for microbial and water reabsorption. This structure supports processing of lignocellulosic materials as a . digestion in T. petiveriana is aided by gut symbionts that facilitate breakdown of plant cell walls.

Symbiotic relationships

The gut of Therea petiveriana harbors microbial symbionts, including the bacterium Blattabacterium, which plays a role in recycling by converting the host's waste into essential , supporting survival on nitrogen-poor . This symbiotic association is ancient and shared with other . Blattabacterium is transmitted vertically from mother to offspring via the ovaries. The likely contributes to nutrient extraction from , mirroring patterns in other detritivorous .

As pets

Captive care

Captive care for Therea petiveriana requires an enclosure that replicates the species' preference for burrowing in leaf litter and moist soil, typically using a 5-10 with a secure lid to prevent escapes. A substrate depth of 2-4 inches, consisting of coconut fiber or non-toxic leaf litter kept moist in the lower layer and drier on top, supports burrowing and deposition while maintaining a gradient. Moderate ventilation is essential to avoid , and furnishings like cork bark or egg crates provide optional hiding spots, though the species is not highly reclusive. Temperature should be maintained at 24-28°C (75-82°F) for optimal health and breeding, achievable with a low-wattage heat source or under-tank heater, while humidity levels of 60-80% can be achieved through daily misting and a shallow dish to create a humid . These conditions mimic the warm, humid scrub forest environments preferred by the species in the wild. In captivity, a varied omnivorous diet including decaying leaf litter, rotting wood, fruits, vegetables (such as apples, carrots, or squash), and dry protein sources like chick feed is provided every 2-3 days to prevent overfeeding and issues like mite infestations. Breeding in captivity is straightforward, with females producing oothecae containing 10-15 eggs weekly, which should be laid in the moist substrate layer to ensure proper development and hatching after 3-5 months at optimal temperatures. Nymph rearing involves maintaining the humidity gradient and providing leaf litter as a primary food source to support molting and growth, which takes 7-12 months to reach adulthood; separate colonies by age to sustain breeding. With appropriate husbandry, Therea petiveriana can achieve a lifespan of up to 2 years from to adult death, though adults typically live 3-6 months post-maturity.

Popularity and misconceptions

Therea petiveriana has gained popularity as a pet due to its striking black-and-white spotted patterning, which resembles a and provides an aesthetically pleasing to more conventional . This visual appeal, combined with its docile nature and straightforward husbandry needs, makes it suitable for in keeping. The is also utilized in educational settings, such as exhibits, where it helps demonstrate diversity and behaviors; for instance, it is displayed in the Cincinnati Zoo & Botanical Garden's World of the exhibit. In the pet , T. petiveriana is commonly marketed under the name "domino roach," reflecting its distinctive appearance that aids in beetle mimicry for . However, a significant misconception persists regarding species identification: a taxonomic study described Therea bernhardti as a new and highlighted that many captive specimens previously labeled as T. petiveriana by were actually this closely related , distinguished primarily by differences in hindwing coloration. Fritzsche noted the widespread misdistribution of T. bernhardti under the T. petiveriana name in the . Verification challenges continue, as evidenced by contemporary sales listings that interchangeably apply both names to similar-looking stock. To promote ethical practices, sourcing T. petiveriana from captive-bred lineages is recommended, as these roaches breed readily in and help avoid overcollection from their native southern habitats. This approach supports sustainable keeping while minimizing impacts on wild populations.

References

  1. [1]
    Therea petiveriana (Linnaeus, 1758) - Cockroach Species File
    The Cockroach Species File is a taxonomic, nomenclatural, and bibliographic database of the cockroaches of the world, including all extant and fossil taxa, ...<|control11|><|separator|>
  2. [2]
    (PDF) Defensive Secretion of Therea petiveriana - ResearchGate
    The volatile constituents of the supposed defensive secretions of the glandular pouches of the adults of both sexes of the cockroach Therea petiveriana have ...<|control11|><|separator|>
  3. [3]
    Domino Roach - Cincinnati Zoo & Botanical Garden
    Latin Name: Therea petiveriana ; Range: Southern India ; Habitat: Tropical rainforest and scrubland ; Lifespan: Up to 2 years ; Zoo Location: World of the Insect.
  4. [4]
    Therea petiveriana - Cambridge Butterfly Conservatory
    Domino Cockroach, Therea petiveriana. The domino cockroach is one of the more attractive cockroach species. They are native to southern India.
  5. [5]
    Domino Cockroach - Oklahoma Zoo Safari USA
    SPECIES: Therea petiveriana. STATUS: Least Concern. HABITAT: The Domino Cockroach lives amongst the leaf litter of the scrub forest of southern India. DIET ...Missing: biology | Show results with:biology
  6. [6]
    Therea petiveriana (Seven-spotted Cockroach) | BioLib.cz
    May 31, 2010 · Therea petiveriana (Linnaeus, 1766) kingdom Animalia - animals » phylum Arthropoda - arthropods » class Insecta - insects » order Blattodea - cockroaches
  7. [7]
    species Therea petiveriana (Linnaeus, 1758) - Cockroach home page
    Distribution: India. Ecology: Terrestrial. Specimen records are available. Citations: Linnaeus. 1758. 364 >> Cassida petiveriana LSID icon ...Missing: taxonomy | Show results with:taxonomy
  8. [8]
    https://cockroach.speciesfile.org/otus/862533
  9. [9]
    Therea bernhardti Fritzsche, 2009 - Cockroach Species File
    The Cockroach Species File is a taxonomic, nomenclatural, and bibliographic database of the cockroaches of the world, including all extant and fossil taxa, ...
  10. [10]
    Therea Billberg 1820 - Zenodo
    15. Genus Therea Billberg, 1820Type species. Therea petiveriana (Linnaeus, 1758)
  11. [11]
    The Domino Cockroach - Critter Science
    May 29, 2025 · The domino cockroach, aka Indian domino cockroach, desert cockroach, or seven-spotted cockroach, is a species of cockroach found in southern India.
  12. [12]
    http://cockroach.speciesfile.org/otus/862539
  13. [13]
    Studies on the reproductive biology - Proceedings: Animal Sciences
    ### Morphometric Data and Descriptions for *Therea petiveriana*
  14. [14]
    Domino Cockroach - Micro Exotics
    Scientific Name: Therea petiveriana ; Size: up to 2.5–3 cm ; Origin: Captive Bred (CB) ; Distribution: India and Sri Lanka ; Temperature Range: 24–28°C ...
  15. [15]
    Cockroaches of form Therea petiveriana for sale - LANDSNAILS.org
    Therea petiveriana (10 pcs) ; Breeding difficulty: 1Easy ; Generation: F? ; Size: 20 - 30 mm ; Adult size: 20 - 30 mm ; Available: 0 pcs.
  16. [16]
    Association of ocelli with the neuroendocrine system ofTherea ...
    Therea petiveriana (L.) neurosecretory cells · ocellar nerves · corpus cardiacum · corpus allatum · their association · Use our pre-submission checklist. Avoid ...
  17. [17]
    Defensive Secretion of Therea petiveriana: Chemical Identification ...
    The volatile constituents of the supposed defensive secretions of the glandular pouches of the adults of both sexes of the cockroach Therea petiveriana have ...Missing: type | Show results with:type
  18. [18]
    Seeing Spots at the Bohart Museum of Entomology | Bug Squad
    Dec 13, 2019 · That would be the aggressive ground beetle Anthia sexguttata known for its strong defenses, including the ability to spray chemical irritants.Missing: Batesian | Show results with:Batesian
  19. [19]
    New case of true mimicry in cockroaches (Blattodea) - ResearchGate
    Aug 7, 2025 · True mimicry is an extremely rare phenomenon in cockroaches, with beetles as their favorite models.
  20. [20]
    Notes from the Lab: The Cutest Roaches Around – Missoula ...
    Nov 5, 2020 · A. sexguttata is a ground beetle from the same region that is capable of spraying concentrated formic acid at predators, causing irritation and ...
  21. [21]
    Checklist of cockroaches (Blattodea) of Kerala, India - ResearchGate
    Aug 7, 2025 · Cockroach fauna comprises of 23 valid species under 14 genera. Information on the distribution, synonymy, type locality, type depository are ...
  22. [22]
    Indian Domino Cockroach (Therea petiveriana) - iNaturalist
    Therea petiveriana, variously called the desert cockroach, seven-spotted cockroach, or Indian domino cockroach, is a species of crepuscular cockroach found ...
  23. [23]
    Day 51 - Indian domino cockroach - Madras Ramblings
    Aug 17, 2025 · ... Therea petiveriana, aka, seven-spotted cockroach, domino cockroach, or Indian domino cockroach. James Petiver - after whom it is named ...
  24. [24]
    Cockroaches: Ecology, Behavior, and Natural History | Request PDF
    Jun 28, 2025 · Many species of cockroach prefer darker habitats over lighter habitats when considering potential shelter sites (Turner, 1912; Bell, Roth & ...
  25. [25]
    Indian Domino Cockroach (Therea petiveriana) - JungleDragon
    ''Therea petiveriana'', variously called the desert cockroach, seven-spotted cockroach, or Indian domino cockroach, is a species of crepuscular cockroach ...
  26. [26]
    Domino Roach - Therea petiveriana
    ### Husbandry Information for Therea petiveriana in Captivity
  27. [27]
    Therea petiveriana, variously called the desert cockroach, seven ...
    Oct 30, 2021 · This somewhat roundish and contrastingly marked cockroach is mainly found on the ground in scrub forest habitats where they may burrow under ...The delightful Indian Domino Cockroach (Therea petiveriana ...Indian cockroach visible under high powered light - FacebookMore results from www.facebook.com
  28. [28]
    Reevaluating Symbiotic Digestion in Cockroaches - NIH
    Sep 14, 2023 · Further research into the complexities of symbiotic lignocellulose digestion in blaberid cockroaches, especially close non-wood-feeding ...
  29. [29]
    Of Cockroaches and Symbionts: Recent Advances in the ... - MDPI
    Feb 15, 2022 · The case of cockroaches (Blattodea) is paradigmatic, as both symbiotic systems coexist in the same organism in two separated compartments.
  30. [30]
    Wood-feeding cockroaches as models for termite evolution (Insecta ...
    Bell et al. Cockroaches: Ecology Behavior and Natural History. (2007). D.E. ... Therea petiveriana: how do they fit into the phylogeny of cockroaches?
  31. [31]
    The Cockroach Origin of the Termite Gut Microbiota - PMC
    Termites digest wood and other lignocellulosic substrates with the help of their intestinal microbiota. While the functions of the symbionts in the digestive ...Missing: petiveriana xylophagy
  32. [32]
    Genome Evolution and Nitrogen Fixation in Bacterial Ectosymbionts ...
    Nitrogen fixation is likely an essential function for lignocellulose-digesting gut communities because of the low levels of nitrogen available from this diet.
  33. [33]
    Ancestral transfer of symbionts between cockroaches and termites
    Courrent A, Quennedey A, Nalepa C, Robert A, Lenz M and Bordereau C (2008) The fine structure of colleterial glands in two cockroaches and three termites ...
  34. [34]
    Therea spp. (Domino & Question Mark Roaches) - Invertebrate Dude
    These roaches are pretty easy to care for and breed, and are a good choice for beginner and seasoned Blatticulturists alike!
  35. [35]
    [PDF] Question Mark and Domino Cockroaches (Therea - Squarespace
    Life: All living, physical, and animate entities. Domain: Eukaryota. Kingdom: Animalia. Phylum: Arthropoda. Class: Insecta. Order: Blattodea. Family: ...<|control11|><|separator|>
  36. [36]
    10 Unique Species of Cockroaches - Treehugger
    Apr 26, 2021 · The domino cockroach (Therea petiveriana) is an unusual-looking ... 11 Aside from resembling a domino, the pattern may protect the roach ...
  37. [37]
    Why Cockroaches Make Excellent Pets - Creature Courage
    Jun 2, 2025 · ... Domino Cockroach (Therea petiveriana), also native to southern India. This cockroach displays a similar bold black-and-white pattern ...
  38. [38]
    50 Domino Roach (Therea Petiveriana/bernhardti) Mixed Nymphs
    Description: Both beautiful and functional, you can use these to play a game of dominos! Fairly slow moving and easy to handle, with more of a beetle-like ...