The hypoblast (visceral endoderm): an evo-devo perspective

When amniotes appeared during evolution, embryos freed themselves from intracellular nutrition; development slowed, the mid-blastula transition was lost and maternal components became less important for polarity. Extra-embryonic tissues emerged to provide nutrition and other innovations. One such tissue, the hypoblast (visceral endoderm in mouse), acquired a role in fixing the body plan: it controls epiblast cell movements leading to primitive streak formation, generating bilateral symmetry. It also transiently induces expression of pre-neural markers in the epiblast, which also contributes to delay streak formation. After gastrulation, the hypoblast might protect prospective forebrain cells from caudalizing signals. These functions separate mesendodermal and neuroectodermal domains by protecting cells against being caught up in the movements of gastrulation.     

Differences in caste dimorphism among three hornet species (Hymenoptera: Vespidae): forewing size, shape and allometry

Caste shape dimorphism (CShD) has previously been studied in wasps through comparison of different body parts, originating from different imaginal discs. Using geometric morphometrics with a new protocol for measuring wings of pinned specimens from natural history collections, we tested CShD of three hornet species in an organ developed from a single imaginal disc: the forewing. Gaussian mixture models retrieved most castes and species levels, confirming that caste is an important component of wing variations in females of these hornets. Size and allometry - the influence of size on shape - contribution to wing dimorphism between castes was major, but failed to explain the entire shape dimorphism. This deviation from simple allometric scaling was not similar in the three species: in Vespa tropica, allometric directions in the shape space differed between castes, whereas in V. crabro and V. velutina, they were similar but a significant part of CShD resulted from lateral transpositions. These results clearly indicate that queens are not just enlarged workers. They also support that the different patterns of CShD may result from different developmental mechanisms. Finally, they highlight that even in a highly social group like hornets, there is still variation in caste dimorphism among species.     

Snail shell coiling (re-)evolution and the evo-devo revolution

During the last two decades evolutionary developmental biology has become a major research programme whose findings put into question some concepts lying at the core of the 'Synthetic Theory'. However, some authors are waiting for a 'revolution' in biology, one in which the existing genetic determinism will give way to a new conceptual understanding of the complexity of living organisms. This 'revolution' should necessarily pass through the elaboration of an appropriate theoretical framework integrating the non-linear dynamics of development as its fundamental basis. This objective implies a drastic shift in the way causality is generally understood as well as a purge of numerous convenient but misleading metaphors such as genetic or developmental programmes. Although most authors do not take these metaphors too literally, some persist in employing such 'instructionist' notions in a more literal perspective, and, in doing so, deny some concepts at the core of evolutionary developmental biology. We critically review two recent studies suggesting that shell coiling has re-evolved in a family of limpets (Calyptraeidae, Gastropoda). We stress that this putative re-evolution of snail shell coiling results only from an arbitrary scoring procedure leading us to consider shell coiling as a binary discrete character. We show that the way in which these authors connect this case study to evolutionary theories stems from the unwarranted premise of a linear mapping of genes onto phenotypes where particulate inheritance of morphological characters seems implicitly assumed. We illustrate how the persisting unclear role of genes in morphogenesis allows the maintenance of the adaptationist programme.     

Functional evolutionary developmental biology (evo-devo) of morphological novelties in plants

The origin of morphological and ecological novelties is a long-standing problem in evolutionary biology.Understanding these processes requires investigation from both the development and evolution standpoints,which promotes a new research field called evolutionary developmental biology (evo-devo).The fundamental mechanism for the origin of a novel structure may involve heterotopy,heterochrony,ectopic expression,or loss of an existing regulatory factor.Accordingly,the morphological and ecological traits cont...     

Termite colony ontogeny: a long-term assessment of reproductive lifespan, caste ratios and colony size in Reticulitermes flavipes (Isoptera: Rhinotermitidae)

Thirty Reticulitermes flavipes (Kollar) colonies established by alates collected from two separate field sites were raised in the laboratory for eight years. Twenty-one of the colonies were founded by alates from one field source and nine from another, providing demographic data from two unrelated parental lineages. Colony totals ranged from 3620 to 11641 individuals, with no significant difference in size between lineages. Soldier caste proportion of the colony total and mean wet weights for workers, soldiers and kings were significantly different between the two lineages. This suggests that at least a portion of the variability observed in caste ratios and body size may be heritable. One founding reproductive had died in five of the colonies (17%); none lost both parents. The queenless colonies contained exclusively female replacement reproductives (neotenics); the kingless colony contained a female-skewed mixture of male and female neotenics. All the nests that lost a founding parent contained significantly more pre-alate nymphs than the nests with both a king and a queen. Comparisons with published reports of ontogenetic patterns in other termites and social insects are discussed.     

Genetic variability predicts common frog (Rana temporaria) size at metamorphosis in the wild

We investigated associations between genetic variability and two fitness-related traits--size and age at metamorphosis--in two subartic populations of the common frog, Rana temporaria. We found that metamorphic size was positively correlated with individual heterozygosity (as estimated using eight microsatellite loci) and that maternal heterozygosity also explained a significant amount of variation in this trait. In contrast, age at metamorphosis was only explained by environmental factors. Since size at metamorphosis is positively correlated with fitness in amphibians, these results suggest that genetic variability may be an important component of individual fitness in common frogs. The environmental variation underlying timing of metamorphosis may indicate that strong selection pressure on this trait in the Nordic environment is likely to override genetic effects.     

Foraging by Atta sexdens (Formicidae: Attini): seasonal patterns, caste and efficiency

Abstract. 1. Atta sexdens changes diel periods of foraging, the size of its foraging territory, the numbers and lengths of foraging trails, and its rate of foraging with respect to seasonality in subtropical Paraguay. Leaf loads are significantly larger in warmer months than loads carried in cooler months.
2. Foragers segregate into three labour groups in the field: a small subset climb trees, cut large quantities of vegetation, and drop them to the ground; the second subset of foragers searches out these leaf caches, cut diem into smaller pieces, and carry and deposit the leaf fragments on the foraging trail; the third subset of workers retrieves leaf fragments on the trail and carry them to the nest.
3. Pitfall trapping shows a large degree of patchiness in activity, with media workers dominating the foraging population, more so closer to vegetation which is being harvested.
4. The recovery efficiency of the multi-staged foraging behaviour is estimated to be only 49%, with the recovery of leaf caches near 50%. The impact of A. sexdens may, thus, be twice as great as previous estimates on their herbivory.     

Generic Keys to the soldier caste of New World Termitidae (Isoptera: Insecta)

Abstract The termite family Termitidae comprises four subfamilies: Apicotermitinae, Macrotermitinae, Termitinae and Nasutitermitinae. Keys are given here to the genera of the Termitinae and Nasutitermitinae found in the New World. The keys rely on morphological features of the soldier caste; for this reason no key is provided to the soldierless apicotermitine genera found in the New World. The Macrotermitinae are absent from the region.     

Association between caste and genotype in the termite Mastotermes darwiniensis Froggatt (Isoptera: Mastotermitidae)

Abstract Termite workers and soldiers differ markedly in their morphology and behaviour. We sought evidence for genetic influences on caste determination in the giant northern termite, Mastotermes darwiniensis , by investigating if workers and soldiers from the same colony differed genetically. The genotypes of 795 termites from 11 distinct colonies were assayed at six polymorphic microsatellite loci. We found that the multilocus genotypes of workers and soldiers from 8 of the 11 colonies did not differ significantly. Thus, the majority of the data provided no evidence for a genetic association with caste in workers and soldiers of M. darwiniensis . However, the genotype frequencies of workers and soldiers from three colonies differed, suggesting that genotype is occasionally associated with caste in this species. The genetic differentiation of castes within these colonies could reflect differences in the propensities of termites with distinct genotypes to develop into particular castes and provide a selective advantage to colonies headed by multiple reproductives.     

The caste system and social repertoire ofCataglyphis floricola (Hymenoptera Formicidae)

Cataglyphis floricolais an ant species from the Southern Iberian Peninsula; its most striking feature is that it collects petals as an important part of its diet. The caste system is based upon a monophasic polymorphism of workers, displayed over a short span of size variation. There is also a slight polymorphism between queen and workers. The number of acts identified in the workers' repertoire is 40, none of which is particularly unusual in other ant repertoires, except those related to petal transport and consumption. The queen's repertoire is similar to that of other ants of the higher subfamilies, with a high proportion of inactivity and a passive behaviour in social interactions.     

The effect of nonnestmates on foraging trail caste ratios ofNasutitermes corniger (Isoptera: Termitidae)

The mean number of workers on foraging trails ofNasutitermes corniger Motschulsky decreases after the introduction of nonnestmate conspecifics or congeneric heterospecifics. The mean number of soldiers on foraging trais does not vary when nestmates, conspecific nonnestmates or heterospecific workers are introduced. When heterospecific soldiers are introduced to the trail, however, the number ofN. corniger soldiers increases. Consequently, the ratio of soldiers to workers increases. These findings demonstrate that the addition of nonnestmates temporarily alters caste ratios on foraging trails, representing a shift in the distribution of castes in response to environmental perturbation.     

Compound eye development during caste differentiation in the termite Reticulitermes speratus (Isoptera: Rhinotermitidae)

We morphologically examined postembryonic compound eye development in Reticulitermes speratus (Kolbe) to understand developmental regulation during caste differentiation. The eye primordia were shown to exist from the larval stage. The number of ommatidia and compound eye size greatly increased over the course of imaginal development. Nymphoids (second-form reproductives) possessed a developed compound eye structure on the surface of the cuticle and thick optic nerves, but individual ommatidia were not clearly discriminated. However, in the line of apterous workers and soldiers, although the outer rim of the eye was observed from second-stage workers, there were few morphological differences among instars, including ergatoids (third-form reproductives). Both nymphoids and ergatoids are slightly physogastric and have highly developed reproductive organs. These results suggest that eye development in the apterous line could be strongly arrested and that there is a weak developmental correlation between the eyes and reproductive organs in R. speratus.     

Soldier determination in Pheidole bicarinata: Effect of methoprene on caste and size within castes

Topical application of methoprene to final-instar larvae of the ant Pheidole bicarinata can induce soldier development. Soldier induction takes place if methoprene levels are above a soldier-determining threshold during a critical period of juvenile hormone-sensitivity that occurs during about days 4–6 of the final instar. Furthermore, the amount of exogenous methoprene applied affects the timing of metamorphosis and the adult size in both the minor worker and soldier castes. When larvae that receive methoprene treatment become minor workers these are always larger than acetone-treated controls. In larvae that become soldiers, growth and timing of metamorphosis vary with the dose of methoprene, but in a more complex way. A high dose of methoprene produces a metamorphic delay and large soldiers. However, the lowest effective dose for soldier induction produces early metamorphosis and small adults. On the basis of these results, we have expanded our model of a mechanism by which juvenile hormone could control determination of worker castes in Pheidole bicarinata.