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1.
The protandrous anemonefish Amphiprion frenatus often forms a group consisting of a large female, a small male, and a smaller nonbreeder at an isolated single host anemone, where home ranges of subordinates were covered with the female's home range. Within the group, the dominant individuals suppress the growth of subordinates, resulting in large size differences. The spacing pattern and body size composition of A. frenatus on colonial hosts were investigated in Ishigaki Island, Okinawa, Japan. Six breeding pairs and 14 nonbreeders inhabited a colony of 157 anemones. Each pair maintained a territory in which pair members used different hosts. Nonbreeders had unstable home ranges on the outskirts of or in the pairs' territories. Body size differences between males and females in pairs and between males and nonbreeders were small. The small size differences in the colony of hosts are caused by reduced suppression of growth of subordinates by the dominant individuals. The total area of host anemones largely affects spacing pattern and social suppression of the anemonefish.  相似文献   

2.
For reef fishes that do not move between habitat patches following settlement, habitat selection is expected during settlement. Although false clown anemonefish, Amphiprion ocellaris, are sedentary following settlement, they are not especially discriminating during settlement, and are commonly found occupying anemones at which no apparent nest site exists. In this study I report on mobility of Stichodactyla gigantea sea anemones, including anemones with resident false clowns. I argue that anemone mobility can help explain why settling false clowns are not more discriminating: although the per annum probability of an anemone moving is low, the probability of that anemone moving over the course of a resident's life is considerably higher. Therefore, an anemone's current microhabitat may not be a good predictor of its microhabitat and suitability as a host in the future.  相似文献   

3.
Intimate knowledge of both partners in a mutualism is necessary to understand the ecology and evolution of each partner, and to manage human impacts that asymmetrically affect one of the partners. Although anemonefishes and their host anemones are iconic mutualists and widely sought by ornamental fisheries, the degree to which anemones depend on anemonefishes, and thus the colony-level effects of collecting anemonefishes, is not well understood. We tracked the size and abundance of anemone Entacmaea quadricolor and anemonefish Amphiprion melanopus colonies for 3 yr after none, some, or all of the resident anemonefish were experimentally removed. Total and partial removal of anemonefish had rapid and sustained negative effects on growth, reproduction and survival of anemones, as well as cascading effects on recruitment and productivity of anemonefish in the remaining colony. As predicted, total removal of anemonefish caused acute declines in size and abundance of anemones, although most anemone colonies (76 %) slowly resumed growth and reproduction after the arrival of anemonefish recruits, which subsequently grew and defended the hosts. Partial removal of anemonefish had similar but typically less severe effects on anemones. Remarkably, the colony-level effects on anemones and anemonefish were proportional to the size and number of anemonefish that were experimentally removed. In particular, anemone survival and anemonefish productivity were highest when one or more adult anemonefish remained in the colony, suggesting that adult fish not only enhanced the protection of anemones, but also increased the recruitment and/or survival of conspecifics. We conclude that the relationship between E. quadricolor and A. melanopus is not only obligate, but also demographically rigid and easily perturbed by anemonefish fisheries. Clearly, these two species must be managed together as a unit and with utmost precaution. To this end, we propose several tangible management actions that will help to minimize fishing effects.  相似文献   

4.
Coral bleaching and related reef degradation have caused significant declines in the abundance of reef-associated fishes. Most attention on the effects of bleaching has focused on corals, but bleaching is also prevalent in other cnidarians, including sea anemones. The consequences of anemone bleaching are unknown, and the demographic effects of bleaching on associated fish recruitment, survival, and reproduction are poorly understood. We examined the effect of habitat degradation including host anemone bleaching on fish abundance, egg production, and recruitment of the panda anemonefish (Amphiprion polymnus) near Port Moresby, Papua New Guinea. Following a high-temperature anomaly in shallow waters of the region, most shallow anemones to a depth of 6 m (approximately 35% of all the anemones in this area) were severely bleached. Anemone mortality was low but bleached anemones underwent a ~34% reduction in body size. Total numbers of A. polymnus were not affected by bleaching and reduction in shelter area. While egg production of females living in bleached anemones was reduced by ~38% in 2009 compared to 2008, egg production of females on unbleached anemones did not differ significantly between years. Total recruitment in 2009 was much lower than in 2008. However, we found no evidence of recruiting larvae avoiding bleached anemones at settlement suggesting that other factors or different chemical cues were more important in determining recruitment than habitat quality. These results provide the first field evidence of detrimental effects of climate-induced bleaching and habitat degradation on reproduction and recruitment of anemonefish.  相似文献   

5.
On the S.W. coast of Ireland at Lough Hyne (Ine) to the southof the rapids, an area of strong water flow, the anemone Anthopleuraballii (Cocks) was found preying on young escallops, Pectenmaximus (L.), in situ and under controlled conditions. Completedead shells were commonly found beside or on the oral surfaceof anemones. Anemones fed under controlled conditions digestedyoung escallops (8 - 17 mm shell height) within 7 - 15 h andthe ejected shell was distributed the same way. An undisturbedanemone accepted and devoured three spat presented to it insuccession. This species of anemone is locally common and isoften found in areas where escallops are encountered, and maythere cause significant mortalities. (Received 16 October 1982;  相似文献   

6.
Porat  D.  Chadwick-Furman  N. E. 《Hydrobiologia》2004,530(1-3):513-520
The symbiosis between giant sea anemones and anemonefish on coral reefs is well known, but little information exists on impacts of this interaction on the sea anemone host. On a coral reef at Eilat, northern Red Sea, individuals of the sea anemone Entacmaea quadricolor that possessed endemic anemonefish Amphiprion bicinctus expanded their tentacles significantly more frequently than did those lacking anemonefish. When anemonefish were experimentally removed, sea anemone hosts contracted partially. Within 1–4 h in most cases, individuals of the butterflyfish Chaetodon fasciatus arrived and attacked the sea anemones, causing them to contract completely into reef holes. Upon the experimental return of anemonefish, the anemone hosts re-expanded. The long-term growth rate and survival of the sea anemones depended on the size and number of their anemonefish. Over several years, sea anemones possessing small or no fish exhibited negative growth (shrinkage) and eventually disappeared, while those with at least one large fish survived and grew. We conclude that host sea anemones sense the presence of symbiotic anemonefish via chemical and/or mechanical cues, and react by altering their expansion behavior. Host sea anemones that lack anemonefish large enough to defend them against predation may remain contracted in reef holes, unable to feed or expose their tentacles for photosynthesis, resulting in their shrinkage and eventual death.  相似文献   

7.
Field observations and experiments on the Indo-Pacific anemonefish Amphiprion melanopus at Guam show that it colonizes the aggregating sea anemone Physobrachia douglasi extensively and nearly exclusively. There are an average of four fish per colony. The total standard length of anemonefish at each aggregation is highly correlated with the total area covered by resident anemones, suggesting both a carrying capacity and some form of social control of growth of anemonefish2). Inter-colony migration of juveniles, as well as larval recruitment, may contribute to maintenance of the optimum colony size. Adults do not migrate. Both juveniles and adults defend territory. Juvenile territories are mutually exclusive areas within the confines of the anemone aggregation, while adult territories are considerably larger than the area covered by the anemone aggregation. Though territories of mated ♀♀ and ♂♂ overlap completely, female emphasis is peripheral relative to the ♂. Adult conspecific intruders are attacked more heavily and at greater distances than are juveniles. Intraspecific territoriality in juveniles probably reflects the limited availability of critical habitat. In adults it may function to protect the pair bond. Interspecific aggression is less intense and appears to protect both the spawn and host anemones from various predators.  相似文献   

8.
The common intertidal sea anemone Anthopleura elegantissima(Brandt) occurs in two forms the clonal aggregating form andthe solitary form The obvious differences between the two apparentlyresult from the presence of asexual reproduction in the clonalaggregating form and its absence in the solitary form resultingdifferences in growth form suit the two anemones to differentlifestyles The clonal form is well suited to life higher inthe mid intertidal Asexual reproduction resulting in moderatelysmall individual size and close association with clonematesimproves its resistance to physical stress (drag and desiccation)and makes it a superior competitor in exposed habitats higherin the intertidal where species diversity and predator pressureare low The larger solitary animals live in more protected microhabitatslower in the intertidal and subtidal and are probably more resistantto predation and less able to withstand physical stress or intenseintraspecific competition The two forms also have differentbiogeographic ranges While the clonal aggregations are quitecommon at rocky sites at least as far north as Vancouver Islandin British Columbia populations of solitaries have not beenfound north of Point Reyes California Apparently the two formsare re productively isolated phenotype frequencies are verydifferent for clonals and solitaries living at the same locationswhile the between-sample variation within each form is relativelysmall These differences in phenotype frequencies biogeographicrange and microhabitat suggest that the clonal anemones andthe solitary anemones known as Anthopleura elegantissima areactually a sibling species pair.  相似文献   

9.
Reproductive skew and group size: an N-person staying incentive model   总被引:5,自引:2,他引:3  
Transactional models of social evolution emphasize that dominantbreeders may donate parcels of reproduction to subordinatesin return for peaceful cooperation. We develop a general transactionalmodel of reproductive partitioning and group size for N-persongroups when (1) expected group output is a concave (decelerating)functiong[N] of the number N of group members, and (2) thesubordinates may receive fractions of total group reproduction("staying incentives") just sufficient to induce them to stayand help the dominant instead of breeding solitarily. We focusespecially on "saturated" groups, that is, groups that havegrown in size just up to the point where subsequent joining by subordinates is no longer beneficial either to them (in parent-offspring groups) or to the dominant (in symmetric-relatedness groups).Decreased expected output for solitary breeding increases thesaturated group size and decreases the staying incentives.Increased relatedness decreases both the saturated group sizeand the staying incentives. However, in saturated groups withsymmetric relatedness, an individual subordinate's staying incentive converges to 1 — g[N* — 1]/g[N*]) regardless ofrelatedness, where N* is the size of a saturated group, providedthat the g[N] function near the saturated group size N* isapproximately linear. Thus, staying incentives can be insensitiveto relatedness in saturated groups, although the dominant's total fraction of reproduction (total skew) will be more sensitive.The predicted ordering for saturated group size is: Parent-fullsibling offspring = non-relatives > symmetrically relatedrelatives. Strikingly, stable groups of non-relatives can formfor concaveg[N] functions in our model but not in previousmodels of group size lacking skew manipulation by the dominant.Finally, symmetrical relatedness groups should tend to breakup by threatened ejections of subordinates by dominants, whereas parent-offspring groups should tend to breakup via unforceddepartures by subordinates.  相似文献   

10.
Despite the ecological importance of anemonefish symbioses, little is known about how nutritional contributions from anemonefish interact with sea anemone physiology and Symbiodinium (endosymbiotic dinoflagellate) genetic identity under field conditions. On Red Sea coral reefs, we measured variation in ammonia concentrations near anemones, excretion rates of anemonefish, physiological parameters of anemones and Symbiodinium, and genetic identity of Symbiodinium within anemones. Ammonia concentrations among anemone tentacles were up to 49% above background levels, and anemonefish excreted ammonia significantly more rapidly after diurnal feeding than they did after nocturnal rest, similar to their excretion patterns under laboratory conditions. Levels of 4 physiological parameters (anemone protein content, and Symbiodinium abundance, chlorophyll a concentration, and division rate) were similar to those known for laboratory-cultured anemones, and in the field did not depend on the number of anemonefish per anemone or depth below sea surface. Symbiodinium abundance varied significantly with irradiance in the shaded reef microhabitats occupied by anemones. Most anemones at all depths harbored a novel Symbiodinium 18S rDNA variant within internal transcribed spacer region 2 (ITS2) type C1, while the rest hosted known ITS2 type C1. Association with Symbiodinium Clade C is consistent with the symbiotic pattern of these anemones on other Indo-Pacific reefs, but the C1 variant of Symbiodinium identified here has not been described previously. We conclude that in the field, anemonefish excrete ammonia at rapid rates that correlate with elevated concentrations among host anemone tentacles. Limited natural variation in anemonefish abundance may contribute to consistently high levels of physiological parameters in both anemones and Symbiodinium, in contrast to laboratory manipulations where removal of fish causes anemones to shrink and Symbiodinium to become less abundant.  相似文献   

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