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Amplexus

Amplexus is a distinctive reproductive behavior primarily in anuran amphibians (frogs and toads), characterized by the male clasping the female with his forelimbs around her torso, waist, or forelegs to facilitate external fertilization, during which the female releases eggs into water and the male simultaneously deposits sperm over them.^[1]^[2] This embrace, known as a copulatory clasp, typically positions the male dorsally on the female, aligning their cloacae for effective gamete release, and can last from several hours to multiple months depending on the species and environmental conditions.^[1]^[3] Various forms of amplexus have evolved, including axillary (clasp under the forelimbs), inguinal (clasp around the waist), cephalic (clasp around the head), gular (clasp under the throat), glued (adhesive hold without tight grasping), dorsal straddle, head straddle, and loose axillary, reflecting adaptations to differences in body size, morphology, and habitat among more than 7,900 anuran species.^[1]^[4]^[5] Amplexus plays a critical role in anuran reproductive success by synchronizing oviposition and spermiation, though it is absent or modified in species with internal fertilization, such as the tailed frog (Ascaphus truei), where a specialized tail-like structure enables copulexus instead.^[1] Evolutionarily, amplexus types exhibit a strong phylogenetic signal, evolving in concert with traits like egg deposition sites, tadpole development, and parental care, and have been used in systematic classifications of anurans due to their conserved yet variable nature across lineages.^[6]^[7] Misdirected amplexus, including interspecific pairings or grasps on non-female objects, occurs frequently and may highlight the behavior's intensity driven by male-male competition in breeding aggregations.^[8]

Overview

Definition

Amplexus is a mating embrace exhibited by certain externally fertilizing species, primarily amphibians such as frogs and toads, in which the male clasps the female to ensure successful sperm release or to stimulate egg release during oviposition.^[9] In this behavior, the male uses his forelimbs to grip the female's torso, waist, or limbs, often employing specialized adaptations like nuptial pads on the thumbs and fingers for enhanced adhesion and security during the prolonged embrace, which can last from several hours to multiple months.^[10] ^[9] The clasp maintains close proximity between the pair, allowing the male to remain positioned atop or beside the female as she moves to a suitable spawning site. Distinct from copulation, amplexus lacks any internal penetration and instead facilitates external fertilization, with the male releasing sperm directly onto the eggs as the female deposits them, typically in aquatic or moist terrestrial environments.^[9] This external mode is adaptive for species where gametes are shed into the surrounding medium, ensuring synchronization between egg extrusion and sperm dispersal. Variations in clasp position, such as axillary (around the armpits) or inguinal (around the groin), reflect adaptations to body size differences or locomotion needs.^[10]

Etymology and Terminology

The term amplexus derives from the Latin noun amplexus (genitive amplexūs), a fourth-declension masculine form meaning "embrace" or "clasp," stemming from the verb amplectī ("to entwine" or "to embrace").^[11]^[12] This linguistic root entered scientific usage in the early 20th century within herpetology to describe the reproductive clasping behavior observed in amphibians, particularly anurans.^[11] In contemporary biological literature, amplexus serves as the standard noun for the physical embrace during mating, while "amplectic behavior" refers more broadly to the associated actions and stimuli involved in initiating and maintaining the clasp.^[10] Older English texts often employed synonyms such as "clasp" or "nuptial embrace" to convey the same phenomenon, reflecting a less standardized nomenclature prior to the widespread adoption of the Latin-derived term in the early 20th century.^[13] The term amplexus is primarily applied to the reproductive behavior in amphibians, while analogous clasping behaviors occur in some invertebrates. This helps clarify evolutionary convergences across taxa. Terminology varies in non-English scientific literature, with many languages retaining the Latin form amplexus due to its adoption in international herpetology; for instance, French sources use amplexus interchangeably with étreinte nuptiale ("nuptial embrace"), while German texts may employ Amplexus or the descriptive Umarmung ("embrace").^[14]

Types

Axillary Amplexus

Axillary amplexus is characterized by the male anuran grasping the female from behind, with his forelimbs encircling her pectoral girdle and his head positioned near her shoulders.^[15] This upper-body clasp positions the male's body along the female's dorsum, facilitating close alignment during mating.^[15] This form of amplexus predominates among anurans, occurring in roughly 79% of species surveyed, including widespread taxa such as the common frog Rana temporaria.^[15]^[16] Its prevalence spans diverse habitats, from terrestrial to aquatic environments, reflecting its adaptability in various breeding ecologies.^[15] The axillary position offers a secure grip that maintains attachment as the female travels to the water body for oviposition, thereby supporting synchronized external fertilization.^[17] It promotes male reproductive success by deterring rival interference and ensuring effective gamete release through cloacal proximity.^[15] Unlike inguinal amplexus, which involves grasping around the female's pelvic region, the axillary variant emphasizes upper-body stability.^[15] Initiation of the axillary clasp typically relies on tactile cues, such as the female's physical contact with the male following attraction to his advertisement calls.^[18] Pheromonal signals from the female's skin further guide male recognition and clasping selectivity during approach.^[19]

Inguinal Amplexus

Inguinal amplexus refers to a mating embrace in which the male amphibian grasps the female around her pelvic or inguinal region using his forelimbs, positioning his head posterior to hers and often resting his hind feet on her thighs.^[20]^[21] This configuration aligns the cloacae of both individuals more closely than other positions, facilitating external fertilization by allowing the male to release sperm directly as the female deposits eggs.^[20] The behavior is observed primarily in anurans, where it represents the ancestral state of amplexus, and occurs in basal lineages such as the family Ascaphidae (e.g., tailed frogs like Ascaphus truei) and certain bufonids, including Incilius fastidiosus (formerly Bufo fastidiosus), a neotropical toad found in montane rainforests of Costa Rica and Panama.^[20]^[21] In these species, the male maintains the clasp on the forest floor or near water bodies, sometimes elevating the female's pelvic region in a defensive posture during disturbance.^[21] In anurans like I. fastidiosus, the embrace can persist for several hours, allowing the pair to remain undisturbed even during environmental perturbations, which supports prolonged mate-guarding in competitive breeding environments.^[21] This duration contrasts with the typically shorter clasps in axillary amplexus, where males grip the female's pectoral region; inguinal forms may extend longer in species with asynchronous or delayed egg release, enabling sustained synchronization between ovulation and spermiation.^[20] The functional advantages of inguinal amplexus include improved fertilization efficiency through cloacal proximity, which reduces sperm wastage in aquatic or semi-terrestrial settings, and enhanced male control over the female to deter rivals.^[20] In fossorial or cold-climate species, such as high-elevation bufonids, the position may also assist in thermoregulation or minimize energy expenditure during burrow navigation.^[20] Release from the clasp is generally triggered by the female's oviposition, after which the male disengages, differing from axillary mechanisms that often involve quicker behavioral cues due to the anterior grip's greater mobility.^[20] As a basal variant related to axillary amplexus, inguinal positioning underscores evolutionary transitions in anuran reproductive strategies toward more versatile grasps in derived taxa.^[20]

Other Variations

Beyond the standard axillary and inguinal forms, amplexus exhibits several atypical variations adapted to specific anatomical or behavioral needs in certain amphibian lineages. These include cephalic, adhesive, ventral, gular, and partial or hybrid clasping mechanisms, each documented through observational field studies and morphological analyses spanning the 20th century to recent decades. Cephalic amplexus involves the male grasping the female's head or neck region, often with a loose embrace that positions the male's forelimbs around her snout or loreal area. This variation is prevalent in dendrobatid poison frogs, where males possess sexually dimorphic swellings on their fingers—formed by specialized mucous glands—that contact the female's nares during clasping, potentially delivering courtship pheromones through skin secretions for olfactory stimulation.^[22] Field observations of this form date back to mid-20th-century studies on poison frog behaviors, with detailed morphological confirmations in the late 20th and early 21st centuries. Gular amplexus is a rare form where the male clasps the female exclusively around the throat or gular region. It has been documented in certain hylid treefrogs, such as species in the genus Osteocephalus, potentially as an adaptation to phytotelm breeding where females carry amplecting males to egg deposition sites.^[23]^[15] Adhesive amplexus relies on sticky skin secretions rather than mechanical clasping, allowing males to adhere to females without traditional forelimb grips. This is observed in burrowing species like rain frogs (Breviceps spp.), where smaller males produce glue-like excretions from skin glands to bond with larger females during mating, compensating for size disparities. Similar glued mechanisms occur in certain leptodactylids, such as Elachistocleis bicolor, where secretions facilitate prolonged attachment. Documentation of adhesive forms emerged from 20th-century field surveys in southern Africa and South America, with biochemical analyses of secretions advancing in the 21st century.^[24]^[20] Ventral amplexus positions the male and female belly-to-belly, often following an initial inguinal grasp and a flip maneuver. In tailed frogs (Ascaphus truei), this orientation enables internal fertilization via the male's cloacal extension, minimizing sperm dispersal in fast-flowing streams. Partial ventral clasps also appear in species like quacking frogs (Crinia georgiana), where multiple males may join, and in stream-dwelling species, supporting terrestrial or shallow-water mating. Early 20th-century field studies in North American and European habitats first described these adaptations, with refinements through behavioral ethology in the latter half of the century.^[25] Hybrid or partial clasp forms represent transitional mechanisms, blending elements of standard types with modifications for specialized contexts. In dendrobatid frogs, cephalic amplexus often manifests as a partial head straddle or loose grip, lacking full encirclement but maintaining proximity for pheromone transfer without disrupting terrestrial locomotion. Dorsal straddle variations, where the male loosely positions atop the female's back or head without tight clasping, similarly occur in some anurans as intermediate states. These were cataloged in comprehensive field inventories from the 1970s onward, highlighting at least 35 independent evolutionary shifts across anuran phylogeny.^[1]^[15]

Physiological Mechanisms

General Physiology

During amplexus, male amphibians exert significant muscular effort primarily through the forelimb muscles, such as the flexor carpi radialis (FCR), to maintain a sustained clasp on the female. These muscles are often larger and exhibit greater isometric contractile force in males compared to females, enabling prolonged gripping that can last from hours to several days in some species.^[26]^[27] This exertion imposes high energy demands, with amplectant males displaying approximately twice the metabolic rate of resting individuals due to aerobic processes supporting the isometric contraction.^[28] Metabolic adaptations, including upregulated carbohydrate and amino acid pathways in the FCR, help mitigate fatigue by enhancing glucose supply and protein synthesis under conditions of limited feeding.^[28] Male forelimb muscles also demonstrate greater fatigue resistance (lower fatigability), with incomplete relaxation during sustained activity, allowing for endurance without rapid decline in force output.^[29] Hormonal influences may briefly modulate these muscular and integumentary responses, though detailed mechanisms vary by species.^[22] This amplexus swelling contributes to the stability of the embrace, ensuring synchronization of gamete release. Prolonged amplexus necessitates adjustments in respiratory and circulatory systems to accommodate reduced mobility and potential restriction of buccal pumping. Amphibians primarily rely on cutaneous gas exchange during such extended embraces, with up to 50-100% of oxygen uptake occurring through the skin in some taxa, supplemented by periodic lung inflation when possible.^[30] Circulatory adaptations include enhanced perfusion to the skin and reduced pulmonary blood flow during stress, maintaining oxygenation despite the physical constraints of the clasp.^[31] The sustained grip is further supported by sensory inputs, including tactile feedback from mechanoreceptors in the forelimb skin and proprioceptive signals from muscle spindles and joint receptors, which provide real-time information on clasp position and tension.^[32] These sensory mechanisms enable fine adjustments to prevent slippage, integrating with motor control for effective embrace maintenance across species exhibiting amplexus.^[33]

Hormonal Regulation

In amphibians, androgens such as testosterone play a critical role in initiating and maintaining the male clasping behavior during amplexus by enhancing the contractile properties of forelimb muscles, particularly the flexor carpi radialis, which allows for sustained low-tension grip and rapid adjustments to the female's movements.^[33] Elevated plasma testosterone levels are observed in amplexing males compared to non-amplexing ones, correlating with increased aggression and clasp persistence, while androgen deprivation through castration abolishes clasping, which can be restored by testosterone or dihydrotestosterone administration.^[34] These hormones act via high-density receptors in muscle cells to remodel fiber types seasonally, optimizing them for the physical demands of amplexus.^[33] Arginine vasotocin (AVT), the amphibian homolog of vasopressin (and functionally analogous to oxytocin in social behaviors), facilitates behavioral synchronization between sexes during amplexus by modulating neural circuits that promote courtship, aggression, and clasping responses.^[35] In males, AVT injections enhance amplectic clasping and responsiveness to female cues, acting centrally through brain receptors to amplify social motivation, while in females, it supports receptivity and oviposition timing.^[34] AVT levels fluctuate with reproductive context, interacting with androgens to fine-tune the duration and intensity of amplexus, ensuring coordinated mating behaviors.^[35] In females, prostaglandins, particularly prostaglandin F2α, are key endocrine signals that time ovulation following amplexus initiation, often in synergy with progesterone to induce sexual receptivity and egg release.^[36] These lipid mediators increase in plasma during the clasping period, triggered by mechanical stimulation or gonadotropin release, promoting oviductal contractions and gamete expulsion shortly after amplexus begins.^[37] Prostaglandin levels alone are insufficient for full ovulation but amplify downstream effects of other hormones, ensuring precise reproductive synchronization.^[36] Feedback loops involving clasp duration regulate amplexus termination through dynamic hormone shifts; prolonged clasping elevates gonadotropins like luteinizing hormone in males, which in turn boosts androgen production to sustain the embrace initially, but extended duration triggers rises in stress hormones such as corticosterone that suppress clasping and prompt release behaviors.^[38] This negative feedback, mediated non-genomically within minutes to hours, prevents exhaustion and aligns with ovulation completion, as declining prostaglandin and AVT influences facilitate disengagement once fertilization cues are met.^[34]

Occurrence in Vertebrates

In Anurans

In anurans, amplexus typically initiates through male vocalizations that attract receptive females to breeding sites, often in aquatic or semi-aquatic environments. Once a female approaches a calling male, she positions herself to allow the male to clasp her dorsally in axillary amplexus, where his forelimbs encircle her chest region behind the forelegs.^[10]^[39] The clasped pair then migrates together to a suitable oviposition site, with the female leading the movement while the male maintains the grip to ensure external fertilization coincides with egg deposition. This sequence is particularly prominent in explosive breeding events, where large aggregations form rapidly in response to environmental cues like heavy rainfall, leading to intense chorusing and rapid mating.^[40] Male anurans exhibit specialized adaptations to enhance grip during amplexus, most notably nuptial pads—hypertrophied, keratinized skin structures on the thumbs and inner digits of the forelimbs that develop seasonally under hormonal influence. These pads provide increased friction and adhesion against the female's often slick skin, reducing slippage and enabling sustained clasping even in water.^[41] In over 7,915 described anuran species as of November 2025, such adaptations are widespread, supporting the predominance of axillary amplexus as the typical positioning.^[42]^[43]^[44] The duration of amplexus varies significantly among anuran species, ranging from mere minutes in some explosive breeders to several days or even weeks in prolonged breeders, influenced by factors like female receptivity and environmental conditions.^[1] Prolonged amplexus carries risks for females, including exhaustion, predation exposure, and potential drowning if the male fails to release her promptly after oviposition, particularly in aquatic settings.^[45] Amplexus is a conserved reproductive behavior across the more than 7,915 anuran species as of November 2025, with variations tied to breeding strategies; for instance, explosive breeders like the common toad (Bufo bufo) exhibit short, intense amplexus durations of minutes amid chaotic aggregations, while prolonged breeders such as the gray treefrog (Hyla versicolor) maintain clasps for several hours to align with extended female fertility windows.^[42]^[46]^[47]^[48] In explosive scenarios, such as those observed in the wood frog (Rana sylvatica), rapid amplexus facilitates mass spawning but heightens competition and misdirected clasping.^[49] Conversely, prolonged breeders like the Pacific treefrog (Pseudacris regilla) allow for more selective pairing, though at the cost of increased energy demands on both sexes.^[50]

In Caudates

In caudates, such as salamanders and newts, amplexus serves as a component of courtship that facilitates spermatophore transfer rather than direct external fertilization, differing from its role in anurans but similarly aiding reproductive coordination.^[51] This clasping behavior is most prominent in families like Salamandridae, where males grasp females using forelimbs, often in a ventral or axillary position, to position them for subsequent pheromone application and sperm packet deposition.^[52] Unlike many plethodontid salamanders that rely solely on spermatophore deposition without clasping, species exhibiting amplexus integrate it into elaborate courtship sequences.^[53] The courtship phase in caudates typically begins with male tail displays, including fanning motions that disperse water-soluble pheromones from cloacal glands toward the female, stimulating her receptivity and cloacal gaping to prepare for insemination.^[53] These pheromones, often protein-based, enhance female following behavior and reduce the overall courtship duration, preceding the physical clasp.^[54] Tail displays may also involve undulating or vibrating the tail to signal readiness, with males developing enlarged tails during breeding seasons to amplify these signals.^[52] Variants of tail amplexus occur in some caudates, where males not only clasp with forelimbs but also employ their tails to wrap around or propel the female, maintaining contact during movement through water or on moist substrates.^[51] This tail involvement helps stabilize the pair and ensures effective pheromone transfer during the embrace. Amplexus in caudates generally lasts minutes to hours, shorter than the prolonged pairings in many anurans, and can occur both underwater and on land depending on the species' habitat.^[52] A representative example is the red-spotted newt (Notophthalmus viridescens), where underwater amplexus follows initial tail-fanning courtship; the male clasps the female dorsally, leading to spermatophore deposition after a period of mutual assessment.^[52] In this species, males develop nuptial pads on hind limbs to secure the grasp, and the behavior often unfolds in shallow ponds during spring breeding.^[55]

Occurrence in Invertebrates

In Horseshoe Crabs

In horseshoe crabs, particularly the Atlantic species Limulus polyphemus, mating during spawning involves a primary male attaching to the female's abdomen using modified pedipalps to form a conjoined pair, which then migrates onto intertidal beaches.^[56] Unattached satellite males crowd around this pair in a clustering formation, often piling atop the female and attached male—sometimes up to 22 individuals in high-density sites—to compete for external fertilization of the eggs.^[57] This multi-male aggregation, known as satellite behavior, allows satellites to release sperm near the egg-laying site, with studies showing they achieve high fertilization success, often rivaling or exceeding that of the attached male.^[58] The behavior positions males optimally for sperm competition, analogous to vertebrate amplexus in facilitating proximity to gametes.^[58] Spawning events are mass aggregations on beaches along the Atlantic and Gulf coasts, where females dig into the sand to deposit egg clusters while surrounded by the male group.^[59] A single female can lay up to 100,000 eggs across multiple spawning bouts in a season, with the attached and satellite males contributing sperm externally as eggs are extruded.^[59] Satellite males actively follow pheromone-emitting pairs from the water, using visual and chemical cues to join the cluster, enhancing competition in these dense gatherings.^[60] The timing of these events is closely synchronized with environmental cues, peaking during evening high tides associated with new and full moons from April to July, with the highest activity in May and June.^[56] This lunar-tidal rhythm maximizes egg deposition in aerated sand, as females select sites where waves can wash over the nests post-laying.^[59] In L. polyphemus, such mass spawnings can involve thousands of individuals per beach, creating visible "orgies" of crabs during optimal tidal windows.^[56] Satellite males position themselves using their walking legs and body contact to stay near the female's ventral surface, where eggs are released through the genital operculum, rather than relying on a forelimb clasp like in vertebrates.^[56] The attached male's pedipalp grasp secures the pair during the beach crawl, but satellites rely on physical crowding and opportunistic placement for access.^[59] This strategy promotes intense sperm competition, with paternity shares influenced by male position and group size.^[58]

In Other Invertebrates

In various invertebrate taxa beyond horseshoe crabs, behaviors analogous to amplexus occur, typically involving physical clasping or grasping by males to secure mates during precopulatory or copulatory phases, though these differ from the external fertilization context of true amplexus in amphibians.^[61] In amphipod crustaceans such as Gammarus species, males engage in precopulatory mate guarding by carrying receptive females ventrally in an upright position, using their gnathopods to clasp the female's body for periods ranging from hours to days prior to internal fertilization.^[62] This guarding strategy synchronizes mating with the female's brief receptive window, reducing sperm competition from rival males, and is energetically costly due to reduced foraging efficiency during the carrying phase.^[63] Among stomatopod crustaceans, or mantis shrimps, clasping behaviors aid in mate retention during brief copulatory events. In species like Gonodactylus bredini, the male positions himself above the female and clasps her carapace using appendages, including raptorial claws, to stabilize the pair while transferring spermatophores internally; this occurs at burrow entrances and may precede shared parental care in monogamous pairs. Such clasping contrasts with the more prolonged amplexus in anurans by being shorter in duration and tied to internal gamete transfer rather than external spawning.^[61] In insects, analogous grasping is observed in semiaquatic hemipterans like water striders (Gerris spp.), where males use specialized front legs to grip the female's abdomen or wings during surface mating on water, forming a prolonged precopulatory pair that facilitates internal insemination amid ongoing locomotion. This leg-mediated grip, adapted for the hydrophobic environment, often involves sexual conflict, with females attempting to dislodge males to avoid prolonged mating costs, but it ensures paternity in a promiscuous system without the mass aggregation seen in horseshoe crab piling.^[64] Overall, these invertebrate examples emphasize mate guarding or retention for internal fertilization, distinguishing them from clasping mechanisms evolved for external sperm transfer in other groups.^[61]

Ecological and Evolutionary Aspects

Ecological Significance

Amplexus in amphibians plays a crucial role in synchronizing reproductive activities with environmental cues, particularly in seasonal breeding habitats. In many species, the onset of amplexus is triggered by rainfall and rising water levels in ephemeral ponds, ensuring that egg-laying coincides with sufficient hydroperiod for larval development.^[65] This timing minimizes the risk of desiccation for eggs and tadpoles, while the transient nature of these ponds inherently reduces predation pressure from fish and other aquatic predators that cannot persist in drying environments.^[66] For instance, in longleaf pine uplands, breeding aggregations form rapidly following heavy rains, allowing males to clasp females during short windows of optimal conditions.^[65] As a key phase in reproduction, amplexus serves as a bottleneck in population dynamics, especially in ephemeral pond systems where habitat unpredictability heightens vulnerability. Successful amplexus and subsequent fertilization directly influence recruitment rates, with entire cohorts at risk if water levels recede too quickly after mating.^[67] In metapopulations, such as those of spadefoot toads and leopard frogs, the concentration of amplexus events in select ponds during favorable years sustains overall viability, but variability in pond hydroperiods can lead to boom-and-bust cycles in offspring production.^[66] This dependency underscores amplexus as a critical limiter on reproductive output in transient wetlands, where dispersal among isolated sites further modulates population persistence.^[66] Human activities exacerbate challenges to amplexus by altering the environmental triggers essential for its timing. Habitat loss through fragmentation and destruction of ephemeral ponds disrupts migration patterns to breeding sites, reducing opportunities for males and females to pair effectively.^[68] Pollution from agrochemicals interferes with sensory and behavioral cues, delaying or desynchronizing amplexus and lowering fertilization success in affected populations.^[69] These impacts compound in amphibians reliant on precise seasonal convergence, potentially leading to declined breeding aggregations in degraded landscapes. The mass breeding events associated with amplexus highlight its value as a biodiversity indicator for wetland health. Large-scale choruses and clasping behaviors during peak seasons signal intact hydrological regimes and minimal contamination, reflecting broader ecosystem functionality.^[70] In healthy wetlands, these explosive gatherings of anurans during migrations demonstrate resilience to natural variability, serving as sentinels for pollution or hydrological alterations that could otherwise impair reproductive success.^[70] Monitoring such events thus provides a practical metric for assessing and conserving wetland integrity.

Evolutionary Origins

External fertilization, facilitated by behaviors such as amplexus in early amphibians, likely evolved among aquatic tetrapods during the Devonian period, approximately 370 million years ago, as ancestral forms transitioned from fish-like reproduction while retaining gamete release in water. In the anuran lineage, molecular estimates place the crown-group divergence around 200-250 million years ago during the Late Triassic to Early Jurassic (as of 2019).^[71] Inguinal amplexus—where the male grasps the female's inguinal region—emerged as the ancestral form, enabling precise synchronization of sperm and egg release near the cloacae to maximize fertilization efficiency in aquatic or semi-aquatic settings.^[15] This behavior is highly conserved across anurans, with at least 35 evolutionary transitions to other forms like axillary amplexus, reflecting phylogenetic stability rather than frequent innovation.^[20] Fossil evidence for amplexus-like behaviors in vertebrates is indirect but points to deep antiquity; trackways from Devonian tetrapods such as Ichthyostega suggest early locomotor capabilities in aquatic environments. In the salientian (frog) lineage, the earliest known fossils, including Triadobatrachus from the Early Triassic (~250 million years ago), exhibit proto-anuran morphology consistent with external fertilization, though direct evidence of amplexus is lacking. This indicates the behavior's likely presence in early anurans shortly after the Permo-Triassic extinction. Convergent evolution has independently produced amplexus in arthropods to address similar challenges in external fertilization amid mobile aquatic or semi-terrestrial lifestyles; Cambrian euthycarcinoids (~500 million years ago), extinct relatives of modern crustaceans, left trackways interpreted as paired traces resembling limulid (horseshoe crab) mating embraces, suggesting early origins of clasping for gamete synchronization in invertebrates.^[72] The adaptive value of amplexus lies in substantially increasing fertilization rates—often exceeding 90% in synchronized pairings—by maintaining cloacal proximity and stimulating oviposition, though it incurs costs such as prolonged male energy expenditure and vulnerability to predation during extended embraces lasting hours to days.^[73] Variations in amplexus types, such as shifts from inguinal to axillary grips, represent evolutionary adaptations to diverse microhabitats and body sizes, enhancing versatility without correlating strongly to sexual dimorphism.^[20]

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Tailed frog - Wikipedia
... ventral amplexus formation (female is flipped over and male and female venters face each other). From here, the male inserts the "tail" into the female, and ...
[26]
Intrasexual selection and group spawning in quacking frogs (Crinia ...
Once a female is clasped by a male, ventral amplexus is easily obtained by secondary males and guarantees a significant proportion of fertilizations (Roberts et ...
[27]
Chioglossa lusitanica - AmphibiaWeb
Mating takes place on land or in shallow water and involves ventral amplexus. Up to 20 eggs (usually 14-17) per female are laid in rotten logs or under ...
[28]
Isometric contractile properties of sexually dimorphic forelimb ...
Sep 1, 2006 · Male frogs use their forelimbs to grasp and control the females during the mating embrace, amplexus. As a result, many of their forelimb muscles ...Missing: exertion cost
[29]
Genetic and metabolic insights into sexual dimorphism in the flexor ...
Feb 24, 2025 · Amplexus is a crucial reproductive behavior in amphibians, characterized by a male grasping and embracing a female around the waist or under ...Missing: exertion costs
[30]
Metabolic Adaption of Flexor Carpi Radialis to Amplexus Behavior in ...
Jun 15, 2023 · Energy expenditure is closely accompanied by metabolic changes. ... Amphibians store energy in the form of sugars, proteins, or lipids ...Missing: exertion | Show results with:exertion
[31]
Sexual Dimorphism of Extensor Carpi Radialis Muscle Size ...
Male ECR muscles incompletely relaxed during fatigue tests and showed less fatigue than female muscles. These sex differences are likely to be beneficial to ...Missing: exertion energy
[32]
Common Surinam toad - Wikipedia
... in amplexus, causing the cloaca and the skin of the female to swell. The partners rise from the floor while in amplexus and flip through the water in arcs.
[33]
Amphibians Exhibit Extremely High Hydric Costs of Respiration
May 27, 2024 · Amphibians also reduced the hydric costs of respiration at warm temperatures, potentially reflecting adaptive strategies to avoid dehydration ...
[34]
Review Control and interaction of the cardiovascular and respiratory ...
Pulmonary stretch receptors (PSR) in amphibians monitor the rate and degree of inflation and deflation of the lungs and project to the nucleus of the solitary ...
[35]
Sexual Dimorphism in Forelimb Muscles of the Bullfrog, Rana ...
Dec 1, 2000 · In amplexus, males use their forelimbs to clasp females, and they may hold onto a female for hours, days or even weeks until oviposition occurs ...Missing: exertion cost
[36]
How Androgens Control Amplexus (Clasping) in Male Frogs
In this article we review the literature concerning the hormonal, neural, and muscular basis of amplexus (clasping) in male frogs and toads.Missing: tactile sensory feedback
[37]
[PDF] Hormonal regulation of behaviors in amphibians - Notre Dame Sites
Jun 29, 2005 · In T. granulosa, amplexus involves a male initiating courtship by embracing a female in amplexus and gripping her firmly with his fore and hind ...<|control11|><|separator|>
[38]
Arginine Vasotocin, the Social Neuropeptide of Amphibians and ...
Aug 7, 2017 · Arginine vasotocin (AVT) is the non-mammalian homolog of arginine vasopressin (AVP) and, like vasopressin, serves as an important modulator of social behavior.
[39]
Progesterone and prostaglandin F2α induce species-typical female ...
However, neither progesterone [38, 48] nor prostaglandin [43, 44, 49] alone is sufficient to induce sexual proceptivity or ovulation in female frogs. We ...
[40]
Hormonal modulation of phonotaxis and advertisement-call ... - NIH
Thus prostaglandin may be necessary but not sufficient to induce phonotactic behavior. Prostaglandin F2α levels increase in ovulating frogs, possibly from GnRH ...
[41]
Amplexus induces surge of luteinizing hormone in male toads, Bufo ...
Although the hormonal regulation of amplexus remains unclear, amphibians are induced ovulators and it has been established that gonadotropin release is the ...
[42]
Female Sexual Arousal in Amphibians - PMC - PubMed Central - NIH
Once of the most common means by which female anurans express sexual behavior is by moving toward males producing these mate attraction signals. This behavior ...
[43]
The social behaviour of anuran amphibians - ScienceDirect
Temporal patterns of anuran reproduction fall into two broad categories: prolonged breeding and explosive breeding.
[44]
Nuptial Pad - an overview | ScienceDirect Topics
Nuptial pads are defined as hypertrophies present in male amphibians that assist in holding the female during amplexus, facilitating mating behavior. AI ...Missing: stable | Show results with:stable
[45]
AmphibiaWeb | Home
- **Number of Described Anuran Species**: 7,906 frogs (Anura) as of November 10, 2025.
[46]
A comparison of known amplexus positions found in anuran ...
Anurans show the highest diversity in reproductive modes of all vertebrate taxa, with a variety of associated breeding behaviours. One striking feature of ...
[47]
Cane Toads in Australia: Ecological Impact
2008). Female anurans may experience severe fitness costs (including drowning, in some cases) from prolonged amplexusa situation that is particularly likely if ...
[48]
[PDF] temporal breeding patterns and mating strategy of - ScholarWorks
Prolonged breeding anurans have a more male-biased operational sex ratio than explosive breeding anurans (Sullivan et al. 1995).
[49]
global prevalence of misdirected amplexus in anuran amphibians
Oct 22, 2025 · We also show that misdirected amplexus is significantly more common among explosive breeders compared with prolonged breeders and is more ...<|separator|>
[50]
Reproductive Behavior of Male Hyla versicolor - During ... - UNDERC
One of the ways to categorize anuran reproductive behavior is according to temporal patterns of behavior. ... be alert for behaviors such as fighting and amplexus ...
[51]
Origin and Diversification of a Salamander Sex Pheromone System
Nov 20, 2014 · Several species of salamandrids display modified forms of amplexus, often accompanied by tail-fanning or by male use of specific courtship ...
[52]
The sexual behaviour of the red-spotted newt, Notophthalmus ...
Spermatophore transfer is most successful after amplexus, and a preliminary cost-benefit analysis of the two types of courtship is given. The behaviour is ...
[53]
Side-by-side secretion of Late Palaeozoic diverged courtship ...
Mar 22, 2015 · These pheromones induce following behaviour in the female, which is a prerequisite for the subsequent courtship behaviour (e.g. the male ...Missing: caudates | Show results with:caudates
[54]
Eastern newt | Smithsonian's National Zoo and Conservation ...
The males use their back legs to grip the side of the female behind her front legs in a kind of amplexus position. The male deposits his sperm packet on the ...
[55]
[PDF] Horseshoe Crab Spawning - Maryland DNR
During spawning, a male typically attaches to the female's abdomen using its pedipalps prior to coming ashore to spawn. Satellite males follow the conjoined ...Missing: behavior | Show results with:behavior
[56]
[PDF] Results from a Three Year Tagging Study of Horseshoe Crabs in ...
Some paired and actively spawning horseshoe crabs were ignored by roving satellite males others had as many as 22 satellite males. We report here the ...
[57]
Paternity in horseshoe crabs when spawning in multiple-male groups
We found that the unpaired, satellite males are highly successful at fertilizing eggs; two satellites can leave the attached male with few fertilizations. Two ...
[58]
Atlantic Horseshoe Crab (Limulus polyphemus) | U.S. Fish & Wildlife ...
A female may have five or more males attempting to mate with her in a single egg-laying episode. During spawning, the female crab partially buries herself ...
[59]
The role of visual and chemical cues in the mating decisions of ...
Satellite male horseshoe crabs form spawning groups around some nesting pairs (female plus attached male) while leaving others to nest alone.
[60]
Precopulatory Mate Guarding in Crustaceans: Male Competitive ...
Precopulatory mate guarding in crustaceans is a common male mating strategy when female receptivity for copulation is short.
[61]
Precopulatory mate guarding in an amphipod, Gammarus ...
The present study systematically examined the effects of both the male and female reproductive states on the precopulatory mate guarding decision of the ...
[62]
[PDF] Energetically costly precopulatory mate guarding in the amphipod ...
Precopulatory mate guarding (PCMG) is thought to have evolved as a male mating strategy in species in which female receptivity is limited to a short time.
[63]
Escalation and Morphological Constraints of Antagonistic ... - Frontiers
Jun 17, 2019 · Here we study sexually antagonistic coevolution in a genus of water striders called Rhagovelia. We identified a set of male grasping traits and ...
[64]
[PDF] SPATIAL AND TEMPORAL ECOLOGY OF EASTERN SPADEFOOT ...
Key words: Amphibian populations; Anuran breeding, Ephemeral ponds; Hydroperiod; Metapopulation; ... synchronized among subsets of ponds during each ... level ...
[65]
Metapopulation dynamics of amphibians using isolated, ephemeral ...
Several species of southeastern amphibians completely or facultatively depend upon small, ephemeral isolated ponds for reproduction, and inhabit surrounding ...
[66]
Niche partitioning and the storage effect facilitate coexistence in an ...
Oct 18, 2023 · We explore the interplay between biotic and abiotic conditions in shaping amphibian communities at two ephemeral wetlands on Eglin Air Force Base, Florida.
[67]
[PDF] Effects of habitat loss and fragmentation on amphibians
Habitat loss and fragmentation are among the largest threats to amphibian populations. However, most studies have not provided clear insights into their ...
[68]
Agrochemicals disrupt multiple endocrine axes in amphibians
Aug 1, 2020 · Loss of natural habitat due to agricultural development is one important contribution to global amphibian declines. This is accompanied by ...
[69]
[PDF] 12 Using Amphibians in Bioassessments of Wetlands
Use of amphibians as indicators of the health of individual wetlands may be affected by their population structure. Wetland ecosys- tems need to be assessed ...
[70]
Fossil Record of the Amphibia
The earliest amphibian discovered to date is Elginerpeton, found in Late Devonian rocks of Scotland dating to approximately 368 million years ago. The later ...
[71]
Rise of the Earliest Tetrapods: An Early Devonian Origin from ... - NIH
Tetrapod fossil tracks are known from the Middle Devonian (Eifelian at ca. 397 million years ago - MYA), and their earliest bony remains from the Upper Devonian ...
[72]
Frogs have been trying to mate with odd things for 220 million years
Sep 13, 2023 · ... Amplexus between a male common toad (Bufo bufo) and a female European green toad (Bufotes viridis).
[73]
Protichnites eremita unshelled? Experimental model-based ...
May 20, 2016 · Form 1 could have been produced by a pair of euthycarcinoids traveling together, like in limulid amplexus, where both individuals made imprints ...
[74]
A unique mating strategy without physical contact during fertilization ...
Jun 14, 2016 · One striking feature of anuran reproduction is amplexus. During this process, in which the male clasps the female, both individuals' cloacae are ...