Tail Autotomy in the Central American Spiny Rat,Proechimys semispinosus

We studied the effects of sex, age, density and island size and isolation on tail autotomy within twelve island populations of the Central American spiny rat (Proechimys semispinosus, Rodentia: Echimyidae). The proportion of individuals losing their tail differed among islands but not between sexes. Most P. semispinosus lost their tail as adults. Population density and island size and isolation did not influence tail autotomy. Overall tail loss (8.0%) was lower than that previously reported in other populations of P. semispinosus. We suggest that low frequencies of tail loss were due to low rates of attack by mammalian predators typical of small, isolated islands and that differences among islands were due largely to the occasional appearance of transient predators such as coatis (Nasua narica). However, we caution against using tail loss as an index of predation because such a link has not been established yet.     

Evaluating neurophylogenetic patterns in the larval nervous systems of brachiopods and their evolutionary significance to other bilaterian phyla

Recent structural analyses of invertebrate nervous systems have supported hypotheses stating that specific developmental and cytological aspects of larval and adult brains are conserved among bilaterian animals. Opposing views argue that structural similarities in larval nervous systems may be the result of convergent evolution and that the developmental diversity of adult brains is more indicative of several independent origins. Here, I use various cytological probes, confocal microscopy, and reconstruction techniques to investigate the cellular diversity within the larval nervous systems of Glottidia pyramidata and Terebratalia transversa (Brachiopoda). Neuronal cell types are compared among the rhynchonelliform, linguliform, and craniiform brachiopods as well as the phoronids. Although the respective larval types of the previously mentioned systematic groups clearly diverge in the neuroarchitecture of their larval apical organs (and nervous systems in general), a ground plan is proposed based on shared, centrally‐located, peptidergic neuronal cell types that can be compared with similar cell types in other lophotrochozoan phyla (bryozoans and spiralians). Assessing hierarchal levels of homology within and among the nervous systems of morphologically disparate phyla is challenging in that many phyla share early developmental signals that induce the specification of the neural ectoderm, clouding our ability to discern divergent larval and juvenile brain structure. Solving these problems will require a combined effort involving both traditional and more recent cytological techniques with a diversity of molecular probes that will better map the neuronal complexity of diverse invertebrate nervous systems. J. Morphol., 2011. © 2011 Wiley‐Liss, Inc.     

Behavioural plasticity in the stinging act of female ectoparasitoids

Abstract. The plasticity of the stinging behaviour of female Eupelmidae ( Eupelmus vuilleti Crawford, E. orientalis Crawford Hymenoptera: Eupelmidae) was analysed through the interrelationships of a parasitic community living on larval stage of Callosobruchus maculatus Fabricius (Coleoptera: Bruchidae). In traditional African grainstores, Eupelmus females have at their disposal all the larval stages of their host. Their exploitation is revealed by the sting observed on the host caused by the ovipositor of parasitoid females. This stinging behaviour begins immediately on the adult female's emergence, and thereafter there is a daily increase in the number of hosts stung. Stinging activity is linked to the age of the available hosts, but not all of the hosts available are exploited by the two species studied. This absence of total exploitation could indicate a threshold of activity in the stinging acts which could be in part linked to the secretion activity of the poison glands of parasitoid female.
In females of E. vuilleti and E.orientalis the stinging act is usually associated with egg-laying. The relationship between stinging and egg-laying is stronger in more advanced larval stages of the host.
In the presence of parasitized hosts, females of E. orientalis and E.vuilleti can exhibit hyperparasitism. The majority of larvae (i.e. primary parasitoid) that have been hyperparasitized have been stung and a large number of them are completely inactive. However, E. vuilleti females deposited their eggs in the available space of the pupation chamber of the host. The neonatal larvae from these scattered eggs could exploit any available host without the female having 'prepared the ground' at the time of egg-laying.
In Eupelmidae, all this happens as if there were a complementary action between the females and the neonate which could, if necessary, reinforce and/or compensate for the deficiencies in the host exploitation by the female.     

In situ settlement behaviour of damselfish (Pomacentridae) larvae

Settlement‐stage damselfish (Pomacentridae) larvae of 13 species in seven genera were obtained from light traps at Lizard Island, Great Barrier Reef, Australia. Behaviour, observed in situ by SCUBA divers, of 245 larvae (6–13 mm, L_S; 5–60 individuals per species) released individually within a few m of reefs during the day differed markedly among species. From 0–28% (range among 13 species) of individuals of each species swam away from the adjacent reefs without swimming to the reefs. Of those that swam to a reef, 0–75% settled. For three species, sufficient data were available to test the hypothesis that these percentages did not differ amongst reefs: the hypothesis was rejected in one species. From 0–75% of larvae that reached the reef were eaten, 0–63% subsequently left the reef and 0–60% were still swimming over the reef at the end of the observation period. Swimming speeds of all but one species were greater when swimming away from the reef than toward it. Most species exceeded average current speeds when swimming away from reefs, but not when swimming toward and over them. Average swimming depths were in the upper half of the water column for most species, and were somewhat greater where the water depths were greater. The time the larvae swam over the reef before settling and the distance swum varied greatly among species from 0 to a mean of 5.5 min and 43 m. Settlement habitats chosen differed amongst species, and in some species, they were very specific. Average settlement depth varied among species from 6–13.5 m. In one species, settlement depth varied between reefs. About half of the 53 observed interactions between larvae and reef resident fishes were predation attempts: fishes of eight species (six families) attacked larvae. The other interactions were aggressive approaches by 11 species of resident fishes, all but one of which were pomacentrids. Many of these aggressive interactions discouraged settlement attempts. Larvae of some species experienced no predatory or aggressive interactions, whereas in other species interactions averaged >0.6 per released larva. Species that swam more‐or‐less directly to settlement sites near the reef edge experienced more interactions. Even within the same family, settlement behaviour differed among species in nearly all measures.