Jens T. Høeg

Balanus amphitrite or Amphibalanus amphitrite? A note on barnacle nomenclature

In a recent revision of the Balanidae based on morphological systematics, the much studied fouling species Balanus amphitrite was renamed Amphibalanus amphitrite. Here, the case is made for retaining the former nomenclature. Taxonomists are urged to exercise caution before introducing new formal taxonomies, which should ideally be based on several independent lines of evidence.

Sperm length, sperm storage and mating system characteristics in bumblebees

Summary: Multiple insemination induces sperm competition and may select for longer, faster moving sperm in species where sperm is short-lived and egg fertilization takes place almost immediately after ejaculation. Here we report the first detailed analysis of sperm length in social insects with long-term storage of sperm, using three bumblebee species with different mating systems as models. We show that individual males produce only one size-class of sperm, but that sperm length is highly variable among brothers, among unrelated conspecific males, and among males of different species. Males of Bombus hypnorum, a species with multiple-mating queens, have longer sperm than males of B. terrestris and B. lucorum whose queens are single mated. Although the sample size on the species level was too small to perform a phylogenetic analysis, this finding supports the hypothesis that, all other things being equal, multiple mating may select for longer sperm. Sperm length was positively correlated with male body size in B. terrestris and possibly in B. hypnorum, but not in B. lucorum. The variance of sperm length within single B. terrestris males before mating was consistently higher than the variance of ejaculated sperm that was stored in a queens spermatheca. Both longer sperm and shorter sperm could be preferentially stored, depending on the colony in which the males and queens were born and raised. These results indicate that the genotype of males may affect sperm length and that cryptic female choice of sperm length may have a genetic component as well.

Developing the options for managing marine pests: specificity trials on the parasitic castrator, Sacculina carcini, against the European crab, Carcinus maenas, and related species

The impacts of introduced marine pests are becoming increasingly apparent, prompting interest in the possibility of their biological control. We undertook laboratory and field experiments on host selection of one potential control agent (the endoparasitic barnacle, Sacculina carcini) against its natural host (the widely invasive European shore crab, Carcinus maenas) and several confamilial and more distantly related crustaceans. For comparison, we also tested host specificity in a related parasitic barnacle, Heterosaccus lunatus. The results confirm indistinct behavioral host selection in S. carcini, indicate very different mechanisms for host selection by S. carcini and H. lunatus (which could be related to differences between the two species in attachment points), and suggest host specificity in S. carcini depends on interactions between the parasite and the hosts physiology. Development of convincing safety trials for marine parasites like S. carcini, in which the infective stage is a planktonic larva, will be more difficult than for many terrestrial parasites and will require detailed knowledge of the parasites behavior and physiological interaction with its hosts.

Video observation of surface exploration in cyprids of Balanus amphitrite: the movements of antennular sensory setae

Video microscopy of cyprids of Balanus amphitrite was used to monitor the action of antennular setae during the exploratory behaviour prior to attachment. In addition, SEM was used to provide a revised description of all antennular setae for that species. The videos describe if a particular seta touches the substratum and the area it can cover during surface exploration. On the fourth segment, the plumose terminal setae A and B are never in contact with the substratum, lack a terminal pore and it is argued that they sense hydrodynamic forces. The aesthetasc-like terminal seta D is likewise held free in the water at all times and it is speculated that it senses dissolved substances, but, since it contains a scolopale rod, it must also have a mechano-receptive function. All remaining antennular setae on the second, third and fourth segments have a terminal pore and it is argued that these are bimodal receptors with both chemo- and mechano-receptive modalities. These setae are also at one time or another in contact with the substratum, except perhaps for the small preaxial seta 2 and terminal seta C. The first seta to contact the surface during a tentative step is radial seta 5, which is longer than all other radial setae. All other setae on the second and third segment are only in contact after a step is completed. When the attachment disc touches the surface (=a step completed) the long and curved postaxial seta 2 (on the second segment) and postaxial seta 3 on the third segment are both flexed to either side of the antennule. This lateral displacement ensures that these two setae can touch large surface areas to either side of the appendage. The four subterminal setae on the fourth segment contact the surface both immediately before and after a step has been completed, and the constant flicking of the segment significantly increases the surface area tested by both these chemoreceptors and by terminal seta E, which can sweep up to 60 μm laterally from the attachment disc. The flicking of the fourth segment may also serve to dilute the boundary layer of chemoreceptors on the fourth segment such as the aesthetasc-like terminal seta D and thus facilitate the detection of new stimuli.

Larval development of the rhizocephalan cirripede Briarosaccus tenellus (Maxillopoda: Thecostraca) reared in the laboratory: A scanning electron microscopy study

SEM investigations of laboratory-reared larvae of Briarosaccus tenellus Boschma, 1970, revealed five naupliar instars, one more than previously described for the Rhizocephala. The external features of these and the cypris larva are described in detail. The youngest instar (NO) is characterised by a better developed furca than in subsequent stages and one additional antennulary seta. Differences in outline, shape of antennulae, and hind-body denticulation, offer the potential of individual discrimination. All the nauplii possess a transparent, hollow cuticular ring around their body. This ‘flotation collar’ represents the bulged margin of the larval head shield and is attached to the body along a delicate ridge. Three pairs of tiny pores in contact with the ridge possibly regulate inflation of the ring, but details of this mechanisms remain unknown. Due to total lecithotrophy, the nauplii of B. tenellus have limbs setation reduced to that needed for swimming only, and other feeding structures such as the labrum are also highly reduced. In the antennulae, the morphological changes in form and setation were followed from nauplius to cypris and shown to largely resemble events in ontogeny of the thoracican barnacle Semibalanus balanoides. On this basis we establish a homology scheme between antennulary setae in these two species. In both B. tenellus and S. balanoides, a naupliar seta, apically on the fourth antennulary segment develops into a conspicuous aesthetasc while one (B. tenellus) or two (S. balanoides) subapical and postaxially sited setae on the same segment develops into into four short setae in the cypris. Our study reveals that the terminology used in describing cirripede nauplius and cypris larvae is often misleading or even erroneous and improvements are suggested. Notably replacing ‘cypris carapace’ with the ontogenetically and phylogenetically more informative term ‘head shield’.

Adaptive evolution of sexual systems in pedunculate barnacles

How and why diverse sexual systems evolve are fascinating evolutionary questions, but few empirical studies have dealt with these questions in animals. Pedunculate (gooseneck) barnacles show such diversity, including simultaneous hermaphroditism, coexistence of dwarf males and hermaphrodites (androdioecy), and coexistence of dwarf males and females (dioecy). Here, we report the first phylogenetically controlled test of the hypothesis that the ultimate cause of the diverse sexual systems and presence of dwarf males in this group is limited mating opportunities for non-dwarf individuals, owing to mating in small groups. Within the pedunculate barnacle phylogeny, dwarf males and females have evolved repeatedly. Females are more likely to evolve in androdioecious than hermaphroditic populations, suggesting that evolution of dwarf males has preceded that of females in pedunculates. Both dwarf males and females are associated with a higher proportion of solitary individuals in the population, corroborating the hypothesis that limited mating opportunities have favoured evolution of these diverse sexual systems, which have puzzled biologists since Darwin.

Comparative morphology and phylogeny of the family Thompsoniidae (Cirripedia, Rhizocephala, Akentrogonida), with descriptions of three new genera and seven new species

Akentrogonid rhizocephalans morphologically resembling the genus Thompsonia are revised as a result of examination of new material. The species concerned are all obligatorily colonial and have ovoid or cylindrically shaped externae with a terminal stalk and a much reduced anatomy. A numerical cladistic analysis of all Rhizocephala Akentrogonida using the Hennig 86 program leads to a redefinition of the Thompsoniidae HOeg and Rybakov, 1992. Autapomorphies for the Thompsoniidae are primarily the morphology of the attachment to the host and the total absence of a mesentery. The cladistic analysis refutes that the Thompsoniidae should have a plesiomorphic morphology and branch off very low on the rhizocephalan phylogeny. The family now comprises four genera: Pottsia gen. n. (monotypic), Diplothylacus gen. n. with two species, Thompsonia Kossmann with five species. A revived and redefined Thylacoplethus Coutière includes eight species. The genera are distinguished by the location of the spermatogenic tissue, the site where the eggs are fertilized, the presence or absence of a mantle pore and the way it is formed, the number or absence of oviducts, and the number of cuticular annuli on the stalk. All 16 species, of which six are new to science, are described when necessary, and, if possible, illustrated. A phylogeny for the redefined family is proposed. Thylacoplethus is morphologically closest to the hypothetically ancestral thompsoniid and is likely paraphyletic. The new genus Polysaccus with two species, one of them new to science, and the monotypic genus Pirusaccus Lützen resemble thompsoniids in externa morphology and in being obligatorily colonial.

The anatomy and development of the rhizocephalan barnacle Clistosaccus paguri Lilljeborg and relation to its host pagurus bernhardus (L.)

Abstract The anatomy of all developmental stages of Clistosaccus paguri Lilljeborg including internal primordia only 200 μm across has been studied by conventional and ultrastructural techniques. The earliest primordia lack any roots and organs. A receptacle and ovary arise as separate structures. The colleteric gland develops by infolding of the mantle cavity epithelium. The primordium becomes external during a host intermoult. The externa is apparently female. It is proposed that male cyprids, through the integument, have implanted cells found in the mantle of the externa. These male cells travel through the mantle into the single receptacle, where they proceed with spermatogenesis. Externae lacking male cells will not grow. The larvae are released as cyprids, in which no preformed kentrogon is present. About half of the infected hosts carry more than one externa. Multiple externae are separate and may represent different invading female cyprids. C. paguri infects all sizes of its host, and castrates it. The effect of the parasite on the host is discussed. The life span of the parasite seems to be one year and the parasite population shows an annual cycle.

Size and settling behaviour in male and female cypris larvae of the parasitic barnacle Sacculina carcini Thompson (Crustacea: Cirripedia: Rhizocephala)

Abstract Twenty-one broods from different externae of Sacculina carcini Thompson were cultured to the cypris stage. The size of the cyprids was measured and the larvae subjected to settling upon unparasitized crabs ( Garcinus maenas (L.)) and small juvenile externae. The cyprids occur in two sizes that may appear singly or together in the same brood. Small cyprids are of the female sex that settle upon crabs and are infective, while large cyprids are of the male sex and only settle upon juvenile externae. These results are in agreement with other well-studied rhizocephalans.

On the larval development of Eubranchipus grubii (Crustacea, Branchiopoda, Anostraca), with notes on the basal phylogeny of the Branchiopoda

Selected larval stages of Eubranchipus grubii (Anostraca) from Danish temporary waters are examined by scanning electron microscopy in a phylogenetic context. The study focuses on limb development and body segmentation. It is shown that the large, proximal endite of the trunk limbs in the adult Anostraca is actually a fusion product of two smaller endites which make their appearance in the early larval development. This gives a total of six endites along the inner margin of the trunk limbs. An unsegmented endopod follows more distally. A small additional, seventh endite makes a short appearance in late larvae, but has disappeared in the adults. The naupliar feeding apparatus is of the same type as found in other branchiopods, and has previously been suggested as an autapomorphy for the Branchiopoda. The similarities between the naupliar feeding apparatus of E. grubii and other branchiopods include the presence of a long protopod with a characteristic morphology of the coxal and basipodal masticatory spines/setae, and a three-segmented mandibular palp (basipod and two endopod segments) with a largely similar setation in all taxa. The mode of trunk limb development is also the same as seen in most other recent branchiopods. The phylogenetic significance for the basal phylogeny of the Branchiopoda of these and other morphological features is discussed in relation to the phylogenetic position of two branchiopod fossils, Lepidocaris rhyniensis and Rehbachiella kinnekullensis. While R. kinnekullensis has previously been suggested to be a stem lineage branchiopod, the position of L. rhyniensis is more uncertain. Three different possible phylogenetic positions of L. rhyniensis are discussed: (a) L. rhyniensis as a stem lineage anostracan, (b) L. rhyniensis as a stem lineage branchiopod or (c) L. rhyniensis as a stem lineage phyllopod. It seems most plausible to consider L. rhyniensis a stem lineage anostracan.