Fact-checked by Grok 2 weeks ago

Talitridae

Talitridae Rafinesque, 1815, is a family of amphipod crustaceans within the superfamily Talitroidea, encompassing over 80 genera and more than 500 species (as of 2018) distributed worldwide.^[1]^[2] These small, laterally compressed arthropods, typically 5–20 mm in length, are distinguished by their hopping locomotion facilitated by powerful hind legs, and they range from semi-terrestrial forms in coastal zones to fully terrestrial species in inland forests.^[3]^[4] Known commonly as sandhoppers, beach-hoppers, or landhoppers, they play key ecological roles as detritivores, breaking down organic matter such as stranded algae and leaf litter.^[2]^[5] The family exhibits a cosmopolitan distribution, with highest diversity in temperate and tropical regions, including the Indo-Pacific, North Atlantic, and Mediterranean areas.^[1]^[2] Talitrids inhabit a variety of environments, from supralittoral beaches and salt marshes to mangrove forests and damp leaf litter in terrestrial woodlands, often requiring high humidity to prevent desiccation.^[1]^[4] Subfamilies such as Talitrinae and Platorchestiinae include genera like Talitrus, Orchestia, and Austropacifica, reflecting ongoing taxonomic revisions that recognize their evolutionary transitions from marine ancestors in the hyalid family.^[1]^[6] with origins tracing back to the Late Paleozoic for amphipods, the earliest fossils of Talitridae known from the Miocene, and major radiations following the Jurassic linked to continental drift and habitat shifts.^[7] Ecologically, talitrids are vital in coastal and terrestrial ecosystems, where they facilitate nutrient cycling by consuming and fragmenting detritus, supporting food webs as prey for birds, reptiles, and invertebrates.^[2]^[4] Adaptations to land include reduced or vestigial pleopods for limited swimming, enlarged branchial gills for atmospheric respiration, and behaviors like burrowing or retreating into moist microhabitats during low tide or dry periods.^[4] Some species, such as driftwood talitrids, exploit floating logs for dispersal across oceans, enhancing connectivity between isolated populations.^[8] Recent studies highlight their sensitivity to habitat fragmentation and climate change, underscoring their value as bioindicators in coastal management.^[2]

Taxonomy and classification

Higher classification

Talitridae is classified within the kingdom Animalia, phylum Arthropoda, subphylum Crustacea, class Malacostraca, order Amphipoda, suborder Senticaudata.^[1] This family is distinguished from other amphipod families by its members' adaptations to semi-terrestrial and fully terrestrial lifestyles, with no free-living marine species and a unique colonization of land habitats among amphipods.^[9] Unlike most amphipods, which are primarily aquatic, talitrids exhibit physiological and behavioral traits enabling prolonged survival out of water, such as in supralittoral zones or inland areas.^[10] The name Talitridae derives from the type genus Talitrus, stemming from the Latin "talitrum," meaning a flick or rap of the finger, likely alluding to the characteristic hopping locomotion of these crustaceans.^[11]

Genera and species diversity

The family Talitridae encompasses over 80 genera and more than 500 species distributed worldwide, reflecting its ecological versatility across coastal and terrestrial environments.^[2] As of 2018, taxonomic assessments recorded precisely 80 genera and 512 species, though ongoing discoveries and revisions continue to refine these figures, including the addition of 37 new genera in 2019.^[12]^[13] Prominent genera include Orchestia, which comprises primarily beach-dwelling amphipods adapted to supralittoral zones, where species like Orchestia cavimana burrow in sand and wrack to evade predators and desiccation.^[13] Talitrus features European sandhoppers, exemplified by Talitrus saltator, which exhibits strong phototactic orientation for navigation along Mediterranean and Atlantic shores.^[2] In contrast, Austrohopas represents fully terrestrial landhoppers that thrive in moist forest leaf litter and demonstrate reduced dependence on saline conditions compared to coastal relatives.^[1] Taxonomic revisions have significantly altered species allocations within Talitridae; for instance, Bousfield (1982) split several supralittoral taxa from Orchestia to establish the genus Platorchestia, including the widespread Platorchestia platensis, which has facilitated recognition of distinct morphological traits like enhanced antennal dimorphism.^[13] Subsequent updates, such as those in 2019, introduced additional genera like Taraorchestia and Kaimihia, and in 2022 the subfamily Platorchestiinae was established, underscoring the dynamic nature of talitrid classification driven by phylogenetic analyses.^[13]^[14]

Phylogenetic relationships

Talitridae, comprising semi-terrestrial and terrestrial amphipods, evolved from marine ancestors within the superfamily Talitroidea, with the initial transition to coastal marshy habitats occurring approximately 56 million years ago during the Paleogene period. This adaptation involved gradual shifts from fully aquatic lifestyles in the ancestral Hyalidae family to semi-terrestrial forms, driven by ecological opportunities in supralittoral zones. Molecular phylogenetic analyses, including multi-locus sequencing of mitochondrial and nuclear genes from over 800 specimens, confirm that Talitridae form a monophyletic clade within Talitroidea, characterized by specialized morphological traits such as reduced gills and enhanced osmoregulatory capabilities.^[15]^[16] Key studies utilizing 28S rRNA and combined molecular datasets have elucidated internal relationships, revealing distinct clades that separate coastal beach-hoppers (e.g., genera like Orchestia and Talorchestia) from inland terrestrial landhoppers (e.g., genera like Austrohopas). These clades reflect repeated radiations, with phylogenetic trees showing basal divergences corresponding to habitat specialization. For instance, analyses of 121,422 nucleotides across 121 species demonstrate that inland clades arose through cladogenesis, where ancestral populations at higher elevations diverged earlier, supporting a model of progressive terrestrialization rather than a single event. Such molecular evidence highlights homoplasies in traits like antenna morphology, attributed to parallel evolution in response to similar environmental pressures.^[17]^[15] The family exhibits close phylogenetic ties to Hyalellidae within Talitroidea, a freshwater group that shares a common marine ancestor and demonstrates parallel non-marine adaptations, such as enhanced water conservation mechanisms. In contrast, relationships to Phreatogammaridae (a groundwater-adapted family in the suborder Gammaridea) underscore convergent evolution, where independent terrestrialization events in disparate lineages led to analogous traits like desiccation resistance and burrowing behaviors, despite distant ancestry. Multi-locus phylogenies of Amphipoda recover Talitroidea as monophyletic, with Talitridae and Hyalellidae forming sister groups that diverged post-Cretaceous, emphasizing how global tectonic shifts facilitated multiple independent land colonizations across amphipod lineages.^[18]^[7]

Physical description

General morphology

Talitridae, commonly known as sandhoppers or beach fleas, possess a characteristic amphipod body plan that is elongate and laterally compressed, lacking a carapace and consisting of 14 distinct somites: a head, seven thoracic somites (pereon), and six abdominal somites divided into the pleon (anterior three) and urosome (posterior three). The body is covered by a thin, flexible exoskeleton that allows for flexibility in movement, particularly in terrestrial environments.^[19] The thoracic region bears seven pairs of pereopods, which are ambulatory appendages used for walking and digging, while the abdominal pleon features three pairs of biramous pleopods that are often reduced or vestigial in fully terrestrial species, reflecting adaptations away from aquatic locomotion. The urosome terminates in three pairs of uropods, with the elongated outer ramus of uropod 3 serving as a key structure for saltatorial jumping to evade predators or navigate terrain. Antenna 1 is notably shorter than antenna 2, which can extend up to half the body length, and the compound eyes are sessile and typically prominent, aiding in visual orientation on land.^[9]^[20]^[19] In fully terrestrial talitrids, gills are reduced in number and size (often lacking the seventh pair), with gas exchange supplemented by lung-like functions in the coxal plates and branchial chambers, where the thin medial cuticle of the coxal plates facilitates aerial oxygen uptake. Sexual dimorphism is evident in the gnathopods, the first two pairs of pereopods modified as feeding appendages: gnathopod 1 is subchelate in both sexes but more robust in males, while gnathopod 2 is chelate or subchelate in males, featuring rugose lobes for grasping, compared to the simpler, mitten-shaped form in females.^[21]^[9]

Size, coloration, and adaptations

Members of the Talitridae family exhibit a typical body length ranging from 5 to 20 mm, with adults in many species falling within this size spectrum across both semi-terrestrial and fully terrestrial forms.^[19] For instance, the terrestrial species Arcitalitrus sylvaticus measures up to 8 mm, while larger representatives like Megalorchestia californiana can reach approximately 20 mm.^[19]^[22] This size variation supports their diverse ecological roles, from burrowing in supralittoral zones to navigating leaf litter in inland habitats. Coloration in Talitridae is often cryptic, featuring shades of grey-green or brown that blend with sandy or vegetated substrates.^[23] Live specimens may display pale brown to greenish hues, shifting to pinkish or reddish tones upon preservation or death.^[19] These patterns contribute to their overall morphology, which includes a laterally compressed body plan shared with other amphipods. Key adaptations in Talitridae reflect their transition to terrestrial and semi-terrestrial life. Cave-dwelling species, such as those in the genus Spelaeorchestia, often exhibit depigmentation, resulting in a white or unpigmented body, and reduced or absent eyes that minimize metabolic costs in low-light environments.^[24] For air breathing, many terrestrial forms have reduced gills, with aerial gas exchange supplemented by the thin medial cuticle of the coxal plates within the branchial chamber, which facilitates gas exchange in humid air rather than water.^[21] Beach-inhabiting species, like Talitrus saltator, possess elongated and powerful hind legs adapted for jumping, enabling rapid leaps up to several body lengths to evade predators or traverse substrates.^[25]^[26]

Distribution and habitats

Global distribution patterns

The family Talitridae displays a predominantly cosmopolitan distribution, with species occurring in coastal zones across all major continents except Antarctica, encompassing approximately 80 genera and 512 species as of 2018, with continued discoveries.^[1]^[2] This global spread encompasses both semiterrestrial and fully terrestrial forms, though the majority remain tied to supralittoral environments near shorelines.^[2] Highest species diversity within Talitridae is found in temperate and subtropical regions worldwide, with notable concentrations in the Indo-Pacific, Europe, North America, Australia, and New Zealand, where numerous genera thrive in sandy beaches and adjacent vegetated areas.^[2] For instance, the genus Talitrus is well-represented along European coasts, while Orchestia species are abundant in North American Atlantic and Pacific supralittoral zones.^[27] Diversity is also high in tropical regions, especially the Indo-Pacific.^[2] In the Southern Hemisphere, Talitridae maintain a significant presence, especially in Australia and New Zealand, which host several endemic terrestrial genera adapted to inland forest litter and coastal dunes.^[28] These regions exhibit elevated endemism among landhoppers, reflecting historical vicariance and localized radiations.^[2] However, the family's occurrence is limited in polar areas, with sparse records from subantarctic islands and virtual absence in high Arctic latitudes due to physiological constraints on cold tolerance.^[29] Human-mediated dispersal has further shaped Talitridae distributions, with species in the genus Orchestia introduced via shipping to remote areas, including Pacific islands, where they establish populations in novel coastal habitats and potentially compete with native forms.^[30] For example, species like Talitroides topitotum have become nearly cosmopolitan through such vectors, appearing in Hawaiian and other island ecosystems.^[30]

Habitat types and preferences

Talitridae primarily inhabit the supralittoral zones of sandy beaches, where they occupy wrack lines composed of decaying seaweed and other organic debris cast ashore by tides.^[31] These environments provide shelter and food resources, with species such as Talitrus saltator commonly burrowing into the moist sand beneath wrack to regulate moisture levels.^[32] Semi-aquatic forms extend into mangrove swamps and river deltas, where they exploit decaying mangrove litter and estuarine detritus in sheltered, brackish conditions.^[9]^[33] Beyond coastal margins, Talitridae exhibit terrestrial extensions into humid forest leaf litter and under logs in subtropical regions, where species like those in the genus Arcitalitrus thrive in moist, organic-rich microhabitats.^[2] Some taxa also occur in freshwater seeps and cave systems, adapting to damp, subterranean environments with limited light and stable humidity.^[34]^[35] Microhabitat preferences among Talitridae emphasize burrowing behaviors in moist sand or soil to prevent desiccation during daylight hours, with many species displaying endogenous rhythms that peak activity at night.^[32]^[2] In coastal settings, activity can synchronize with high tides, allowing access to fresh wrack deposits while minimizing exposure to aerial predators. These preferences underscore their reliance on humidity gradients for survival across ecotypes ranging from wrack generalists to fully terrestrial forms.^[2]

Biology and ecology

Reproduction and life cycle

Talitridae exhibit sexual reproduction characterized by direct development, lacking a free-living larval stage typical of many marine crustaceans. Fertilization occurs externally, with males transferring sperm to the female's marsupium during copulation, after which the female ovulates and deposits her oocytes into this ventral brood pouch. The marsupium is formed by specialized oostegites—plate-like appendages on the coxae of the first five thoracic limbs—that create an enclosed space for brooding eggs and embryos until hatching.^[36] This brooding strategy ensures high offspring survival in the semiterrestrial habitats occupied by talitrids, as the embryos develop in a protected, aerated environment.^[37] The life cycle of Talitridae species typically spans 1-2 years, influenced by environmental conditions and population dynamics. Adults produce multiple broods per reproductive season, with fecundity ranging up to 20-30 eggs per brood, though this varies by species and female size; for instance, in Talorchestia deshayesii, brood sizes reach 3-14 eggs.^[38] Hatched juveniles emerge as miniature adults, resembling scaled-down versions of the parents without undergoing metamorphosis, and undergo rapid molting cycles to grow, often completing several molts within weeks of release from the marsupium.^[36] Reproductive activity is seasonal in many talitrids, such as Talitrus saltator, where breeding peaks from spring to late summer, allowing for one to two generations per year.^[39] Mating in Talitridae involves precopulatory mate guarding by males, who grasp receptive females in an amplexus position during the female's premolt phase to ensure fertilization upon her subsequent molt.^[36] This behavior is adaptive in competitive environments, as it synchronizes with the female's brief receptive window. Population sex ratios are often skewed toward females, particularly in dense aggregations, with ratios as high as 4:1 observed in species like Talitroides topitotum, potentially due to differential mortality or dispersal patterns.^[40]

Behavior and locomotion

Talitridae exhibit a primarily saltatory locomotion, characterized by jumping facilitated by the rapid extension of their elongated hind legs (pereopods 6 and 7) and the flicking action of abdominal uropods, which propel the body forward or upward to escape predators or navigate terrain.^[41] This mechanism allows individuals, such as those in the genus Talitrus, to achieve jump distances of up to 1 m (over 50 times their body length in smaller species), though performance varies with body size and substrate.^[42]^[43] In confined or uneven environments, such as dense vegetation or burrows, they switch to crawling using their thoracic pereopods, maintaining an upright posture atypical for amphipods.^[44] These hind leg adaptations, including robust segmentation and muscle attachments, enable the high-power output required for such leaps.^[45] Activity patterns in Talitridae are predominantly nocturnal or crepuscular, driven by endogenous circadian rhythms that synchronize with environmental cues to minimize exposure to daytime predators and desiccation risks.^[46] For instance, species like Talitrus saltator emerge from burrows at dusk or dawn, with peak locomotion during low-light periods to forage or relocate while tidal cycles influence beach-dwelling forms.^[47] Beach species demonstrate sophisticated orientation behaviors, including tidal rhythm entrainment and use of a moon compass for navigation back to the damp sand zone, compensating for lunar azimuth changes via innate chronometric mechanisms.^[48] Social behaviors in Talitridae are limited but include aggregations within burrows or moist refugia to collectively maintain higher humidity levels and reduce evaporative water loss, particularly in more terrestrial species.^[49] Post-brooding parental care is minimal, with females releasing juveniles from the ventral marsupium after development, after which offspring disperse independently without further protection.^[50] Some species produce stridulatory sounds by rubbing body parts, potentially serving as communication signals for intraspecific interactions or predator deterrence, though this is not universal across the family.^[51]

Diet and feeding habits

Talitridae exhibit an omnivorous diet, functioning primarily as detritivores that consume decaying plant matter, including leaf litter and woody detritus.^[4] Coastal species, such as Talitrus saltator, preferentially feed on stranded seaweed wrack, particularly brown macroalgae like gulfweed, which provides a nutrient-rich substrate washed ashore.^[52] Terrestrial forms, including Tasmanian species like Talitrus vulgaris and Talitrus angulosus, show selective grazing preferences for decomposed leaves of certain plants, such as Olearia argophylla over Eucalyptus obliqua, and favor microbially altered or hydrolyzed foliage over fresh material.^[53] Some talitrids also scavenge animal remains, supplementing their diet with opportunistic consumption of carrion in supralittoral zones.^[54] Feeding mechanisms involve the use of gnathopods, specialized appendages that grasp and manipulate food items for shredding and ingestion.^[55] In the gut, microbial symbionts—such as bacteria (Vibrio sp. and Paracoccus sp.) and fungi—play a supportive role in decomposition by producing enzymes like cellobiohydrolase to break down complex polymers in macroalgae, such as alginate, though these microbes are not essential for nutrient assimilation.^[52] Terrestrial talitrids demonstrate selective grazing behaviors, attracted to the hydrolytic breakdown of plant material by external bacteria and fungi rather than live microbes.^[53] As key decomposers, Talitridae occupy a foundational trophic position in supralittoral food webs, recycling organic matter from wrack and litter to facilitate nutrient cycling in coastal and terrestrial margins.^[56] Their diet exhibits shifts related to habitat: coastal populations rely more heavily on algal wrack, while inland terrestrial groups consume greater amounts of leaf litter, influencing seasonal availability and decomposition rates in these ecosystems.^[57]^[4]

Conservation and human interactions

Threats and conservation status

Talitridae populations face multiple anthropogenic threats, primarily habitat loss due to coastal development and tourism activities such as beach cleaning and trampling, which remove essential wrack and disrupt burrowing sites.^[58]^[59] Mechanical cleaning and human foot traffic have led to significant declines in species like Talitrus saltator, with populations disappearing from heavily touristed beaches during peak seasons.^[59] Pollution, particularly microplastics in wrack and sediments, poses another risk, as talitrids such as Cryptorchestia garbinii ingest these particles, averaging over seven per individual, potentially causing physical damage and chemical toxicity.^[60] Additionally, invasive amphipods compete with native species for resources, exacerbating habitat degradation.^[61] Climate change amplifies these pressures through sea level rise and beach erosion, narrowing supralittoral zones critical for talitrid survival and increasing vulnerability in coastal distributions.^[62] For instance, erosion countermeasures like nourishment and groynes have been implemented in European sites to protect T. saltator habitats, but ongoing rise threatens long-term persistence.^[63] Conservation assessments for most Talitridae species indicate Data Deficient status on global and regional scales, reflecting limited evaluation despite widespread habitat risks.^[58] Talitrus saltator is classified as Data Deficient by HELCOM but considered vulnerable in parts of Europe due to beach erosion and tourism, with strict protection in Poland and recommendations for restricted beach access to preserve algal belts.^[58] Endemic landhoppers, such as Talitriator africanus in South African biodiversity hotspots, have declined from deforestation and invasive competitors like Talitroides species, prompting calls for enhanced habitat protection.^[61]

Role in ecosystems and human relevance

Talitridae, commonly known as sandhoppers or beach fleas, play a crucial role in coastal ecosystems as primary detritivores, processing macroalgal wrack and other organic debris to facilitate nutrient recycling. By breaking down beach-cast seaweed and litter, these amphipods accelerate the decomposition of organic matter, releasing nutrients such as nitrogen and phosphorus back into the soil and water, which supports primary productivity in adjacent habitats like dunes and intertidal zones.^[64]^[65] This detritus processing links marine and terrestrial food webs, enhancing overall ecosystem fertility and maintaining the health of sandy shore environments.^[66] As a key prey base, Talitridae serve as an important food source for various predators, including shorebirds such as plovers, which forage on them during low tides, and arthropods like spiders that inhabit supralittoral zones. Lizards in coastal regions also consume these amphipods, contributing to the transfer of energy from detrital pathways to higher trophic levels. Through this role, Talitridae bridge basal resources like algal detritus to carnivorous consumers, supporting biodiversity and stability in food chains across beach-dune interfaces.^[67]^[68]^[69] In human contexts, certain terrestrial Talitridae species, such as Arcitalitrus sylvaticus, are known as "lawn shrimp" and can become minor pests in moist gardens, where high populations may damage seedlings by feeding on roots or detritus, though they rarely cause significant economic harm. These amphipods also function as bioindicators of coastal health, with their abundance and behavior reflecting levels of human disturbance, pollution, and habitat integrity on sandy beaches. Additionally, Talitridae have been studied in bioremediation efforts on oil-polluted shores, where their resilience and detritivorous activity aid in assessing recovery and processing contaminated wrack during cleanup operations.^[19]^[70]^[71]^[72]^[73]

References

[1]
World Register of Marine Species - Talitridae Rafinesque, 1815
European register of marine species: a check-list of the marine species in Europe and a bibliography of guides to their identification.
[2]
Evolutionary ecology of the North Atlantic Talitridae (Crustacea ...
Oct 24, 2024 · The Talitridae (talitrids) are a family within the Amphipoda, which in 2018 consisted of 80 genera and 512 species worldwide ( Tykarska et al.
[3]
Talitridae - GBIF
Rafinesque for two genera and four species belonging to the order Amphipoda (Class Crustacea), and matters connected therewith. <em>Z.N.(S.) 1879. Bulletin of ...
[4]
[PDF] Notes on the Ecology and Environmental Adaptations of the ...
The terrestrial Talitridae, to which family all of the terrestrial species belong, have been treated in various systematic papers but there is little else.
[5]
https://doi.org/10.1016/S0272-7714(02)00124-5
[6]
https://doi.org/10.11646/zootaxa.4553.1.1
[7]
https://doi.org/10.1016/j.ympev.2019.106664
[8]
[PDF] Evolutionary ecology of driftwood talitrids: a review - Zobodat
Nov 15, 2017 · Talitridae are the only amphipod family to have representative species ... I Family Talitridae: Systematics and dis- tributional ecology.
[9]
[PDF] Zootaxa, Talitridae - Magnolia Press
Oct 8, 2009 · The family Talitridae includes about 250 species distributed in 52 genera, being the only amphipod group that has colonized terrestrial habitats ...
[10]
Distribution and population characteristics of the alien talitrid ...
Feb 1, 2006 · The Talitridae is the only family of amphipods which has truly terrestrial species, and although many are found close to the sea on the ...
[11]
Mandatory changes of specific names to agree in gender with ...
The genus Talitriator Methuen, 1913 was originally erected for T. eastwoodae Methuen, 1913, a talitrid amphipod or "land-hopper" from South ...
[12]
[PDF] Oceanological and Hydrobiological Studies
Sep 13, 2018 · The family Talitridae currently consists of 80 genera and 512 species occurring all over the world (Horton et ... species of Talitridae.
[13]
New genera of Talitridae in the revised Superfamily Talitroidea ...
Feb 6, 2019 · Hurley, D.E. (1957) Terrestrial and littoral amphipods of the genus Orchestia, Family Talitridae. ... Platorchestia pickeringi and key to ...<|control11|><|separator|>
[14]
The importance of Arcitalitrus dorrieni (Hunt) (Crustacea: Amphipoda
Arcitalitrus dorrieni (Hunt) is a euterrestrial amphipod, native to Australasia, which occurs in several woodland sites in Ireland and Britain.
[15]
https://doi.org/10.1126/sciadv.adg4011
[16]
https://doi.org/10.1093/zoolinnean/zlab119
[17]
(PDF) Phylogenetic relationships among families and genera of ...
To determine phylogenetic relationships within the superfamily Talitroidea, we sequenced the 28S rRNA gene in 13 species distributed among 12 genera and ...Missing: evidence | Show results with:evidence
[18]
[PDF] Multi-locus phylogenetic analysis of Amphipoda indicates a single ...
We recover monophyly of the superfamily Talitroidea (100% bss) with 30 taxa representing 29 genera and five families. A clade comprising 26 of the 27 taxa ...
[19]
EENY-220/IN377: Terrestrial Amphipods or Lawn Shrimp (Crustacea
Terrestrial Amphipods or Lawn Shrimp (Crustacea: Amphipoda: Talitridae) ... Common and Scientific Names of Aquatic Invertebrates from the United States and Canada ...Missing: origin | Show results with:origin<|control11|><|separator|>
[20]
Terrestrial Environments | Evolution and Biogeography: Volume 8
Each terrestrial genus has evolved from a palustral (Bousfield 1968) or supralittoral (Wildish 1982) talitrid that has made its way into leaf litter adjacent to ...
[21]
Anatomy of structures associated with air-breathing in Orchestia ...
Anatomy of structures associated with air-breathing in Orchestia gammarellus (Crustacea: Amphipoda: Talitridae): coxal plates and gills. Published: April 1996.Missing: respiratory like
[22]
Megalorchestia californiana
Body length about 2 cm. Note how large this species is compared to the other amphipod seen behind it. (Photo by: Dave Cowles, July 2008). Description ...
[23]
Amphipods (Talitridae) - Landcare Research
When live they are typically grey-green or brown, but when preserved they are often orange. The 2nd (lower) antennae are much longer and broader than the ...Missing: coloration iridescence
[24]
Talitridae) from lava tubes in La Palma, Canary Islands
Aug 6, 2025 · Cave adaptations consist of lack of body pigments, small and partly ... cave-dwelling terrestrial amphipods (Crustacea: Talitridae). Article.
[25]
A sand hopper (Talitrus saltator) - The Marine Life Information Network
Male size range, 8.2-16.5 mm. Male ... It is possible to distinguish between sexes in specimens with a body length between 8.0 and 8.5 mm (Williams, 1978).
[26]
Sand Flea - Hearts Pest Management
They have long, powerful hind legs adapted for jumping and swimming. What do sand fleas eat? Sand fleas are primarily scavengers. They feed on a variety of ...Missing: elongated species<|separator|>
[27]
(PDF) The Physiological Ecology of Land Invasion by the Talitridae ...
Aug 6, 2025 · This family is having a worldwide distribution, especially in the coastal and land regions of the temperate and tropics (Wildish, 1979). ...<|control11|><|separator|>
[28]
Comparison of Talitrus saltator (Amphipoda, Talitridae) biology ...
Talitrids comprise species such as the sandhopper Talitrus saltator, widely distributed along the Mediterranean and European sandy coasts, and generally ...
[29]
[PDF] Terrestrial Amphipods (Amphipoda: Talitridae) of Tasmania
Etymology. The name combines the Greek neos. (new) and Orchestia in recognition ofthe apomorphy ofthe genus. Gender, feminine. Remarks.
[30]
Molecular phylogenetic position of Minamitalitrus zoltani elucidates ...
Six talitrid genera were categorized as cave-hoppers by Lowry and Myers (2019) and, among these cave-hoppers, four species belonging to four genera were deemed ...
[31]
Orchestia gammarellus - Marine Invasions research at SERC
It inhabits the upper intertidal drift line of rocky shores, including areas of washed-up seaweed and seagrasses, and is sometimes found in estuaries or marshes ...
[32]
Talitrids on the upper shore and strand-line - MarLIN
May 27, 2016 · Tal is an ephemeral habitat occurring where the tide carries and deposits seaweed and other debris. Such material will decompose, be transported ...
[33]
(PDF) Parasitism and the burrowing depth of the beach hopper ...
Aug 5, 2025 · Talitrid amphipods spend their days burrowed in sand to avoid predators as well as desiccation and heat stress, although other factors may ...
[34]
[PDF] a new genus of talitrid amphipod (Crustacea, Amphipoda, Talitridae ...
Aug 26, 2014 · For the less common T. antillensis, in Florida we identified a single ecotope: wrack, consisting principally of mangrove litter, on a sandy.Missing: leaf | Show results with:leaf
[35]
[PDF] Talitroidea) from Lava Tube Caves on the Island of Hawaiʻi in the ...
Dec 5, 2023 · Here, a new species of cave dwelling talitroid amphipod in the genus. Spelaeorchestia is described from lava tubes on the island of Hawai'i. It ...
[36]
A new cave-dwelling talitrid genus and species from Japan (Crustacea
Although rare, talitrids are known to inhabit caves in Western Australia (Lowry and Springthorpe 2015b), off the coast of Japan (White et al. 2013) , Hawaii ( ...Missing: freshwater seeps
[37]
Review of the reproductive biology of amphipods and their ...
Sep 2, 2011 · Precopulatory mate-guarding behavior (amplexus) is thought to have evolved in free-roaming epibenthic amphipods as a male competitive ...
[38]
Talitridae) at Prainha Beach, Brazil - ResearchGate
Aug 6, 2025 · With advanced stages of egg development, there is an increase in their volumes; the space in the marsupium becomes restricted, making the ...
[39]
Life history of Talorchestia deshayesii (Amphipoda, Talitridae) in the ...
Maximum total length was 10.5 mm and the size at first reproduction for the females was 3.5 mm total length. T. deshayesii produced two generations per year.<|separator|>
[40]
The annual pattern of reproduction of Talitrus saltator (Crustacea ...
The species is shown to have an annual, univoltine reproductive cycle with a period of high reproductive activity between May and late August. Two generations ...
[41]
Population study of the landhopper Talitroides topitotum (Crustacea
Talitroides topitotum reproduced all year, with a peak in June. A female biased sex ratio was obtained in every sample with a maximum of 4:1 in May. Fecundity ...Missing: scholarly | Show results with:scholarly
[42]
Amphipoda - an overview | ScienceDirect Topics
Amphipods are also unique in having three pairs of uropods (appendages at their tail end), which are used for pushing in aquatic species, and for jumping in ...<|control11|><|separator|>
[43]
Body-catapult mechanism of the sandhopper jump and its ...
Apr 1, 2021 · The results showed that the sandhopper jumps through a body-catapult mechanism (muscle-specific power output: 1.7–5.7 kW/kg, 3.4–11.4 times the power output ...Missing: elongated | Show results with:elongated
[44]
BIOLOGY OF TERRESTRIAL AMPHIPODS - Annual Reviews
the Talitridae (superfamily Talitroidea), contains species that are obligate land-dwellers. The Talitridae have a broader ecological range than any other.Missing: multiple | Show results with:multiple
[45]
Amphipoda (landhoppers) - Soil Bugs - Massey University
Landhoppers are usually 0.5-1.5 cm in length, and somewhat shrimp-like in appearance. Their bodies are elongated and compressed laterally, and have a smooth and ...
[46]
The effect of dusk and dawn on the locomotor activity rhythm of ...
Entrainment of the nocturnal, endogenous locomotor activity rhythm of Talitrus saltator (Montagu) by the natural light-dark cycle is non-parametric, ...
[47]
Variation of the locomotor activity rhythms in three species of Talitrid ...
The expression of biological rhythms was investigated in five populations of three different species of talitrid amphipods from various habitats.
[48]
Orientation at night: an innate moon compass in sandhoppers ... - NIH
The supralittoral amphipod Talitrus saltator is well known for its capacity for astronomical orientation using the sun and moon as compasses.
[49]
[PDF] STUDIES IN THE BIOLOGY
It is therefore suggested that. Talitrus may use its humidity sense in determining the depth of its burrow, but the humidity in the burrow is not known.
[50]
The physiological ecology of talitrid amphipods: An update
Aug 6, 2025 · They are semiterrestrial crustaceans, sensitive to dehydration risk (Morritt and Spicer 1998) , they burrow in the sand during the day and ...
[51]
Terrestrial crustaceans (Arthropoda, Crustacea): taxonomic diversity ...
Terrestrial grapsid and gecarcinid crabs also have highly developed lung-like structures in addition to their gills, increasing the surface area for gas ...
[52]
Bacterial and fungal gut microbiota of supralittoral talitrid amphipods ...
Dec 30, 2022 · These data suggest that microbes that were killed by antibiotics, including Vibrio sp., in the gut of talitrid amphipods are not essential for assimilation of ...Missing: shred symbionts
[53]
(PDF) Observations on the feeding preferences of two species of ...
Aug 6, 2025 · The diet of landhoppers is generally unspecialized and consists principally of decaying plant material (Devitt 1981, Morton and Richardson 1984) ...
[54]
Intraspecific diet shift in Talitrus saltator inhabiting exposed sandy ...
Aug 10, 2025 · ... Among arthropods associated with wrack, talitrid amphipods are particularly abundant and act as primary herbivores, though they can also ...
[55]
[PDF] systematics,phylogeography and historical - Archimer
used for grasping food items, are the gnathopods. The first articles of the pereopods are fused to the body and expanded to form rather large side-plates or ...
[56]
Temporal and spatial distribution of three supralittoral amphipod ...
Aug 10, 2025 · Feeding on detritus, T. saltator plays a very important ecological role as decomposers of organic matter. In addition, it is at the base of the ...Missing: webs | Show results with:webs
[57]
[PDF] Intraspecific diet shift in Talitrus saltator inhabiting exposed sandy ...
This study investigated whether there were differences in the feeding behaviour of Talitrus saltator related to the sex and the development stage. We used ...
[58]
[PDF] SPECIES INFORMATION SHEET Talitrus saltator - HELCOM Red List
Recommendations for actions to conserve the species If beach tourism is an essential threat for the species, it would probably benefit from restrictions of use ...
[59]
(PDF) Relationship between the dynamics of two Talitrus saltator ...
Aug 10, 2025 · A wellknown threat of beach litter is related to cleaning activity, a common practice performed to remove litter and other debris from beaches ...
[60]
Microplastic pollution in the food web: observation of ingestion by ...
Jan 9, 2023 · We analyzed 80 specimens from 4 sites along the shores of Garda Lake, one of the first lakes in Italy to be studied for this type of contamination.Missing: loss | Show results with:loss
[61]
Land hopper - SANBI
Nov 4, 2019 · The major threat to Talitriator africana is habitat loss or invasive amphipods such as Talitroides alluaudi and Talitroides topitotum, which are ...
[62]
Talitrid (Crustacea, Amphipoda) orientation as across scale ...
May 1, 2019 · A meta-analysis of talitrid orientation was conducted across a geographical scale. The dominant direction under dry conditions was consistently towards the sea.
[63]
Abundance and orientation responses of the sandhopper Talitrus ...
Aug 10, 2025 · Beach nourishment and groynes building were implemented to counteract erosion in sandy beaches located at San Rossore natural park (Tuscany, ...
[64]
Marine Ecology Progress Series 531:167
Jul 2, 2017 · These species play an important role in recy- cling detritus as nutrients that contribute substan- tially to maintaining coastal primary ...
[65]
Biodiversity of Talitridae family (Crustacea, Amphipoda) in some ...
Background: Although wetlands were remarkable habitats with their fauna and flora diversity, few studies have been devoted to the study of amphipod ...
[66]
Contribution of macroalgal wrack consumers to dissolved inorganic ...
Apr 5, 2019 · Our study highlights the role of intertidal consumers in maintaining important ecosystem functions, such as organic matter processing and ...
[67]
Algal subsidies enhance invertebrate prey for threatened shorebirds
May 15, 2017 · We added wrack to the upper beach where plovers nest and their chicks forage to test whether algal subsidies promote the abundance and diversity ...
[68]
The role of inputs of marine wrack and carrion in sandy‐beach ...
Wrack, from seagrass and macroalgae, and carrion, from marine animal carcasses, are inputs that shape sandy-beach ecosystems.
[69]
Linking Marine and Terrestrial Food Webs: Allochthonous Input from ...
This study quantifies the flow of energy and biomass from a productive marine system to a relatively unproductive terrestrial system.
[70]
Lawn Shrimp, Arcitalitrus sylvaticus (Amphipoda: Talitridae)
May 27, 2020 · The name Amphipoda is derived from the Greek “Amphi,” meaning two or different, and “poda,” meaning foot, because of this difference in function ...
[71]
Responses of talitrid amphipods to a gradient of recreational ...
Jun 3, 2008 · In this study, we evaluated the responses of the two amphipods Talitrus saltator and Atlantorchestoidea brasiliensis to human pressure on ...
[72]
Talitrid amphipods as bioindicators of sandy beaches contamination ...
They provide information to understand the environment and its health status while also highlighting changes in the environment by giving early warning signals.
[73]
[PDF] Bioremediation impact on intertidal communities affected by the ...
Sorrizo beach was seriously affected by the Prestige oil spill: approximately. 50% of the beach was already polluted by the fuel a few days after the ...