Synalpheus regalis | |
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Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Arthropoda |
Class: | Malacostraca |
Order: | Decapoda |
Suborder: | Pleocyemata |
Infraorder: | Caridea |
Family: | Alpheidae |
Genus: | Synalpheus |
Species: | S. regalis |
Binomial name | |
Synalpheus regalis | |
Synonyms [2] | |
Zuzalpheus regalis(Duffy, 1996) |
External image | |
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Images and further information from 'ants', Thailand |
Synalpheus regalis is a species of snapping shrimp that commonly live in sponges in the coral reefs along the tropical West Atlantic. [3] [4] They form a prominent component of the diverse marine cryptofauna of the region. [3] For the span of their entire lives, they live in the internal canals of the host sponge, using it as a food resource and shelter. [4] It has been shown that colonies contain over 300 individuals, but only one reproductive female. [5] Also, larger colony members, most of which apparently never breed, defend the colony against heterospecific intruders. [5] This evidence points towards the first known case of eusociality in a marine animal.
The species name "regalis" comes from the Latin regalis which means royal. [3] This likely stems from the structural hierarchy of the colonies in which only a single female produces all of the offspring.
Synalpheus regalis is a member of the genus Synalpheus , the second largest genus in the snapping shrimp family (Alpheidae), with over 150 species worldwide. [3] The species was discovered by J. Emmet Duffy in 1996 on the Belize Barrier Reef. [3] As of 2013, S. regalis is one of at least seven recognized species of eusocial shrimp. The other six are Synalpheus brooksi , Synalpheus chacei , Synalpheus elizabethae , Synalpheus filidigitus , Synalpheus microneptunus and Synalpheus rathbunae . [6] [7]
Synalpheus regalis is a translucent orange. The distal portion of its major chela (the pincer) is brighter orange than the rest of its body and its embryos and ovaries are pale green. [8] Scattered red chromatophores decorate the facial region of its carapace (the region between and lateral to the eyes). [3] Its rostrum (forward extension of the carapace) is thin and is about the same length as the triangular ocular hood, which covers the shrimps’ eyestalks.
Ovigerous females are generally 2.6–3.7 mm in length and males and juveniles are approximately 2.8 mm. [3] Externally, the females can be distinguished from the males by their ovaries; however, males and juveniles cannot be distinguished from each other.
S. regalis is morphologically similar to several other species of Synalpheus including S. elizabethae, S. rathbunae, and S. filidigitus. It is distinguishable from its close relative, the S. elizabethae, as its non-ovigerous colony members have rounded abdominal pleura compared to the S. elizabethae that have pointed abdominal pleura. [8] S. regalis, however, has a more acute abdominal pleura, less fixed teeth, and lacks a secondary armature on its major chela compared to the S. rathbunae. The S. filidigitus males have much more rounded abdominal pleura and longer scaphocerites (lateral stabilizing fin) compared to the S. regalis. [3]
S. regalis lives exclusively in association with sponges; however, it has only been found to associate with three sponge species: Neopetrosia proxima , Neopetrosia subtriangularis , and Hyatella intestinalis . In Jamaica, they are found in H. intestinalis, in depths of over six meters. In Belize, the only other known locality of the S. regalis, they are more commonly found in N. proxima and N. subtriangularis in addition to H. intestinalis. [6] [8]
They rarely cohabit sponges with other shrimps, suggesting that competition in the habitat is fierce and would explain why they are found associated exclusively with only two species of sponges. [3] For co-inhabitance situations, S. regalis appeared to dominate the sponge, leaving the other species severely under-represented compared to cases in which S. regalis was not present. [3] In some places such as the Bocas del Toro Archipelago, S. regalis co-occurs with close relative S. elizabethae. [9]
The shrimp feed on the host tissues as well as on the detritus, which includes bodies of dead organisms or fecal material. [3]
Synalpheus regalis exhibits eusocial organization like many other species in the genus. There is one breeding female and members of the colony defend, forage, and take care of the colony. The young hatches from the eggs as a crawling larva and undergoes direct development. [7] S. regalis goes through outbreeding, where at least one of its sexes leaves to find mates, but the details of this process are yet unknown. [10]
J. Emmett Duffy, a primary investigator of S. regalis, uses the term "eusociality" to refer to the syndrome of multigenerational, cooperative colonies with strong reproductive skew (usually a single breeding female) and cooperative defense of the host sponge found in several Synalpheus species. [11] Eusociality requires that generations overlap, allowing close contact between individuals such that altruistic behaviors can be favored by kin selection. [5] The populations that live in sponges contain a few hundred individuals, each with two generations of kin. Also, by having just one reproductive female, colonies clearly fit the first criterion of reproductive division of labor. [5] Most hypotheses that explain eusociality entail some form of adaptive division of labor, which results in enhanced reproductive output of the breeders and inclusive fitness benefits for the nonbreeding helpers. [10]
S. regalis has the largest colonies and the largest reproductive skew of all eusocial shrimp. Its colonies can consist of up to 350 organisms, who are related to each other with an average of r=0.50, with one queen. [5] Furthermore, many colonies show heterozygote excesses. [10] This led researchers to conclude that outbreeding is common in the S. regalis, and at least one of the sexes leaves its natal home to find mates.
The queen is the sole breeder of the colony. Studies show that there is a strong correlation between the size of the queen and the size of the colony, which implies that there is a parallel between growth of the breeding female and her colony. [12] Furthermore, the queen is not as aggressive or active as the other adults in the colony, suggesting that she does not dominate other individuals and instead looks to them for protection.
The reason behind the reproductive skew in S. regalis is currently unknown, but a theory that explains this phenomenon in other organisms, the "majority rules" model by Reeve and Jeanne, could explain the reproductive skew in S. regalis. [12]
In this theory, the queen dominates the colony’s reproduction by being the individual that each of the other colony members are most genetically related to. The non-breeding workers are more closely related to the queen’s offspring (siblings; r=0.50) than they are to offspring of another worker (nieces/nephews; r=0.25). Therefore, it will be in the best interest of their genes to prevent each other from reproducing in favor of their queen.
Fortress defense is one of two modes of eusociality. Queller and Strassmann (1998) distinguished between "life insurers", which include most Hymenoptera, where cooperation reduces the risk of total reproductive failure, and "fortress defenders", where cooperation enhances the defense of a commonly held, valuable resource. [11] [13]
Crespi (1994) argued that three conditions must be met to explain most cases of fortress defense: a coincidence of food and shelter in an enclosed habitat, a high value of food-habitat resources that renders inhabitants vulnerable to predatory attacks, and the ability to defend the resource effectively. The strong selective pressures of enemies on kin-structured aggregations may promote evolution of specialized defenders that raise their own and the breeders' inclusive fitness by defending the colony. [11] Because few predators can enter the narrow canals of the sponges, the greatest competition comes from enemies that are of the same or closely related species. [14] [15]
S. regalis lives and feeds exclusively within their hosts, therefore meeting the first condition. Also, data shows that fewer than 5% of sponges sampled were unoccupied by shrimp, which means that sponges are in short supply and subject to strong competition. Finally, the large non-breeding defenders utilize the snapping claw, a potent weapon that produces a water jet intense enough to stun small animals. S. regalis appears to reach Crespi's (1994) three criteria. [11]
A study was conducted to observe the responses of colonies by introducing heterospecific intruders. The results were dramatic: contact between a resident and an intruder generally resulted in an intense battle, with both individuals snapping at each other with their powerful major chelae. However, contacts between residents and 'natives' were quite peaceful. [10] S. regalis will give warnings to the intruders in the form of single snaps with their chelae. If these single snaps do not succeed in driving away the intruder, a coordinated snapping event will occur in which either a localized group or the entire colony will snap in unison. At this point the intruder will usually leave, but if it does not, for example getting stuck in the canal of a sponge, it will be killed. [15] The larger residents were the most active and aggressive, contacting foreign intruders more than twice as often as did smaller residents, and engaging intruders in combat (snapping) ten times more often than did juveniles. [5] The larger shrimp tend to be older than the rest of the colony, and thus they allocate their energy to defending rather than breeding. [4] Such size- or age-related polyethism is a common aspect of labor specialization among social insects. [10] [16] Since most of the defenders do not breed, the only way to secure their genes in future generations is to protect their juvenile siblings, allowing them to grow to adulthood free from predation and survive long enough to reproduce. [4] This nest defense amounts to cooperative brood care and establishes S. regalis as a eusocial species. [5]
If fortress defense plays an important role in favoring cooperation among sponge-dwelling shrimps, it can be predicted that eusociality would enhance the ability to acquire, defend, and retain limited host resources compared to less social species. Duffy and Macdonald (2010) tested this prediction in Belize by examining how shrimp abundance correlated with sociality among species. They discovered that eusocial species are more abundant, occupy more sponges and have broader host ranges than non-social sister species. [14] [17]
S. regalis are exceptionally tolerant of conspecifics within their colonies, and aggressive towards conspecifics not of their own colony. These peaceful interactions are attributable to close genetic relatedness among nestmates. Allozyme data revealed that relatedness within colonies is high, averaging 0.50, indicating that colonies in this species represent close kin groups. The existence of such groups is an important prerequisite of explanations of social evolution based on kin selection. [10] [18] [19] During the intruder experiment, resident shrimp contacted foreign conspecifics less and snapped more frequently than they did when faced with a nestmate. Because nestmates are generally close kin in S. regalis, this discrimination may reflect kin recognition and may help maintain the integrity of kin-structured social colonies. [10]
Nestmate discrimination likely involves both waterborne and contact chemical signals which have been shown to mediate sex recognition in other alpheids. The high frequency of intruder contacts with the queen may suggest that she produces pheromones like in social insects. [10]
Kin selection is a process whereby natural selection favours a trait due to its positive effects on the reproductive success of an organism's relatives, even when at a cost to the organism's own survival and reproduction. Kin selection can lead to the evolution of altruistic behaviour. Kin selection is related to the concept of inclusive fitness, which combines the number of offspring produced with the number an individual can ensure the production of by supporting others. A broader definition of kin selection includes selection acting on interactions between individuals who share a gene of interest even if the gene is not shared due to common ancestry.
In evolutionary biology, inclusive fitness is one of two metrics of evolutionary success as defined by W. D. Hamilton in 1964:
In biology, altruism refers to behaviour by an individual that increases the fitness of another individual while decreasing their own. Altruism in this sense is different from the philosophical concept of altruism, in which an action would only be called "altruistic" if it was done with the conscious intention of helping another. In the behavioural sense, there is no such requirement. As such, it is not evaluated in moral terms—it is the consequences of an action for reproductive fitness that determine whether the action is considered altruistic, not the intentions, if any, with which the action is performed.
Alpheidae is a family of caridean snapping shrimp, characterized by having asymmetrical claws, the larger of which is typically capable of producing a loud snapping sound. Other common names for animals in the group are pistol shrimp or alpheid shrimp.
Lasioglossum malachurum, the sharp-collared furrow bee, is a small European halictid bee. This species is obligately eusocial, with queens and workers, though the differences between the castes are not nearly as extreme as in honey bees. Early taxonomists mistakenly assigned the worker females to a different species from the queens. They are small, shiny, mostly black bees with off-white hair bands at the bases of the abdominal segments. L. malachurum is one of the more extensively studied species in the genus Lasioglossum, also known as sweat bees. Researchers have discovered that the eusocial behavior in colonies of L. malachurum varies significantly dependent upon the region of Europe in which each colony is located.
Sociality is the degree to which individuals in an animal population tend to associate in social groups (gregariousness) and form cooperative societies.
Synalpheus is a genus of snapping shrimp of the family Alpheidae, presently containing more than 160 species; new ones are described on a regular basis, and the exact number even of described species is disputed.
Formica polyctena is a species of European red wood ant in the genus Formica and large family Formicidae. The species was first described by Arnold Förster in 1850. The latin species name polyctena is from Greek and literally means 'many cattle', referring to the species' habit of farming aphids for honeydew food. It is found in many European countries. It is a eusocial species, that has a distinct caste system of sterile workers and a very small reproductive caste. The ants have a genetic based cue that allow them to identify which other ants are members of their nest and which are foreign individuals. When facing these types of foreign invaders the F. polyctena has a system to activate an alarm. It can release pheromones which can trigger an alarm response in other nearby ants.
Eusociality, the highest level of organization of sociality, is defined by the following characteristics: cooperative brood care, overlapping generations within a colony of adults, and a division of labor into reproductive and non-reproductive groups. The division of labor creates specialized behavioral groups within an animal society which are sometimes referred to as 'castes'. Eusociality is distinguished from all other social systems because individuals of at least one caste usually lose the ability to perform at least one behavior characteristic of individuals in another caste. Eusocial colonies can be viewed as superorganisms.
Ropalidia marginata is an Old World species of paper wasp. It is primitively eusocial, not showing the same bias in brood care seen in other social insects with greater asymmetry in relatedness. The species employs a variety of colony founding strategies, sometimes with single founders and sometimes in groups of variable number. The queen does not use physical dominance to control workers; there is evidence of pheromones being used to suppress other female workers from overtaking queenship.
Nasutitermes corniger is a species of arboreal termite that is endemic to the neotropics. It is very closely related to Nasutitermes ephratae. The species has been studied relatively intensively, particularly on Barro Colorado Island, Panama. These studies and others have shown that the termite interacts with many different organisms including a bat that roosts in its nest and various species of ants that cohabit with the termite.
Austroplatypus incompertus is a species of ambrosia beetle belonging to the true weevil family, native to Australia, with a verified distribution in New South Wales and Victoria. It forms colonies in the heartwood of Eucalyptus trees and is the first beetle to be recognized as a eusocial insect. Austroplatypus incompertus is considered eusocial because groups contain a single fertilized female that is protected and taken care of by a small number of unfertilized females that also do much of the work. The species likely passed on cultivated fungi to other weevils.
Eusociality evolved repeatedly in different orders of animals, notably termites and the Hymenoptera. This 'true sociality' in animals, in which sterile individuals work to further the reproductive success of others, is found in termites, ambrosia beetles, gall-dwelling aphids, thrips, marine sponge-dwelling shrimp, naked mole-rats, and many genera in the insect order Hymenoptera. The fact that eusociality has evolved so often in the Hymenoptera, but remains rare throughout the rest of the animal kingdom, has made its evolution a topic of debate among evolutionary biologists. Eusocial organisms at first appear to behave in stark contrast with simple interpretations of Darwinian evolution: passing on one's genes to the next generation, or fitness, is a central idea in evolutionary biology.
Synalpheus carpenteri is a species of sponge-dwelling snapping shrimp described in 2006 from specimens collected from the Belizean Barrier Reef of the Exuma Islands, Bahamas, and the Atlantic coast of Panama. Its most identifying characteristic is the faint to bright orange overall color of the body. The species is named in honor of Michael Carpenter, Caribbean Coral Reef Ecosystem program, National Museum of Natural History, Smithsonian Institution, Washington, D.C.
Formica truncorum is a species of wood ant from the genus Formica. It is distributed across a variety of locations worldwide, including central Europe and Japan. Workers can range from 3.5 to 9.0mm and are uniquely characterized by small hairs covering their entire bodies. Like all other ants, F. truncorum is eusocial and demonstrates many cooperative behaviors that are unique to its order. Colonies are either monogynous, with one queen, or polygynous, with many queens, and these two types of colonies differ in many characteristics.
Synalpheus microneptunus is a species of small snapping shrimp native to the waters off the island of Barbados. It is one of at least seven known species of eusocial shrimp. They are cryptofauna, living exclusively within the network of tunnels in the sponges Neopetrosia proxima and Neopetrosia subtriangularis. They form small colonies of six to fifteen individuals, usually with only a single breeding female.
Neopetrosia proxima is a species of marine petrosiid sponge native to the tropical and subtropical waters of the western Atlantic Ocean.
Neopetrosia subtriangularis is a species of marine petrosiid sponges native to the waters off Florida and the Caribbean Sea. They superficially resemble staghorn corals.
Exoneura robusta is a species of the primitively eusocial allodapine bee, belonging to the genus commonly referred to as "reed bees". Their common name derives from their use of the soft pith of dead fern fronds as a nesting material. They are native to southeastern Australia, living in both montane and heathland habitats. E. robusta do not have a fixed pattern of sociality, but rather they are capable of adapting their social strategy to different environments. While typically univoltine, populations living in warmer habitats are capable of producing two broods per season. This leads to the incidence of sibling rearing and eusocial behavior. E. robusta lack strict morphological castes, thus allowing for their plastic social behavior and dominance hierarchies.
Synalpheus pinkfloydi, the Pink Floyd pistol shrimp, is a species of snapping shrimp in the genus Synalpheus. Described in 2017, it was named after the rock band Pink Floyd, in part because it has a distinctive "bright pink-red claw". The sound it makes by snapping the claw shut reaches 210 decibels, and can kill nearby small fish.