Pedal laceration
Pedal laceration is a type of fragmentation exhibited in sea anemones. In this process, a fragment of the pedal disc, which connects the anemone to its substrate, detaches and develops into a new, genetically identical individual.
Biology/Anatomy
Pedal laceration is visually differentiated from other common modes of asexual reproduction by the location of tissue separation. Budding and asexual fission occur near the tentacles and down the center of the body, respectively. Pedal laceration involves the fragmentation and separation of tissue from the base of the polyp of anemones near the pedal disc.Pedal laceration frequency is highly dependent on the presence of environmental stressors. Higher rates of laceration have been observed in anemones attached to unstable substrata, both oceanic sediment and rhodoliths. This behavior may help clonal populations respond to the movements of nearby locomotive mussels, whether to avoid burial by upturned sediment or to colonize empty patches of substrata left behind.
Laceration is exhibited by genera such as Actinia tenebrosa, ''Aiptasia pallida,Aiptasia diaphana,and Metridium senile.''
Mechanism
Laceration by tearing usually occurs when the animal moves and leaves behind a part - potentially measuring over a centimeter - that contains parts of its pedal disc, and may contain some mesentery, or column. Laceration by tearing may also be observed in cases where the anemone extends and leaves a piece behind as it retracts.In laceration by constriction, small pieces of the parent anemone, measuring under a centimeter, that contain parts of the pedal disc, mesentery, and column constrict into separate entities during laceration by constriction. After detaching from the parent body, the pieces may separate fully and move, or they may stay close to the parent and remain connected for a period.
Factors
Temperature of water
Pedal laceration usually occurs in seawater with temperatures exceeding 20°C, but activity diminishes as the temperature drops. It is infrequently observed when monthly average temperatures fall below 15°C. Elevated temperatures can boost metabolic processes, thereby increasing the rate of pedal laceration. While warmer temperatures may facilitate the healing of lacerated areas, excessively high temperatures can induce stress. For instance, in Haliplanella luciae, the rate of fission is influenced by temperature. Likewise, temperature has been shown to impact the fission rate in Diadumene luciae.Rate of water flow
Moderate currents can enhance the dispersal of pedal fragments, thereby supporting reproductive processes. Strong currents or manual cutting can lead to lacerations. In the case of Metridium senile, water flow has been demonstrated to affect asexual reproduction.Light
Continuous darkness significantly increases the rate of pedal laceration in Aiptasia pulchella. In contrast, light conditions reduce the rate of asexual reproduction. In the study, anemones kept in continuous darkness produced nearly twice as many lacerates as those kept in light. Dark-treated anemones generated almost double the lacerates compared to those exposed to light. Additionally, Sebens' team conducted the study and found no effect of light on the rate of asexual reproduction in Anthopleura elegantissima.Oxygen intake level
Aiptasia experiences higher rates of pedal laceration when the oxygen concentration in the water is reduced.Competition for space
In marine hard substrate environments, space is frequently a vital and limiting resource. High densities can lead to crowding, which may trigger asexual reproduction as a means of survival in such conditions.Food availability
Anemones that are well-fed may dedicate more energy to reproductive processes. On the other hand, a lack of food or restricted resources can either prevent laceration or, in certain cases, trigger it as a method of survival. For instance, research indicates that starvation can lead to higher rates of asexual reproduction in species such as Anthopleura elegantissima and Aiptasia geton comatus. Moreover, the presence of zooxanthellae has been found to promote pedal laceration during times of starvation. Additionally, the pedal laceration observed in Metridium senile has been linked to the availability of zooplankton.Feeding rates
The feeding rates did not have a notable impact on the pedal laceration rate in Aiptasia pulchella. In contrast, other species, like Haliplanella luciae, have demonstrated that feeding rates can directly affect asexual reproduction.Substrate type
Mature anemones are more likely to undergo laceration, and to produce more lacerate offspring, when the substrate beneath them is unstable. This allows clonal populations to recolonize upturned substrata, as individuals are unable to prevent themselves from being buried.Presence of symbiotic Dinoflagellates
The existence of symbiotic zooxanthellae can significantly impact the energy budget of sea anemones, which may, in turn, influence the rate of pedal laceration. The availability of light, affecting the photosynthesis of zooxanthellae, plays an important role in this process. In Aiptasia pulchella, the release of zooxanthellae in dark conditions results in a decrease in energy density, potentially leading to an increased rate of pedal laceration.Having algae as symbionts improves energy availability, thereby promoting growth and survival. For instance, in the study of Glennon, it found that symbiotic anemones outperformed aposymbiotic ones in terms of growth. Additionally, anemones that experienced reduced symbiont density through cold-shock treatment produced more pedal lacerates compared to those with a high density of symbionts. Notably, symbiotic lacerates did not show a faster developmental rate than aposymbiotic lacerates during the initial stages.