The Evolution of Reliable and Unreliable Badges of Fighting Ability

SYNOPSIS. When a population may be characterized by interferencecompetition for resources, variation in fighting ability amongindividuals, and repeated confrontations between individuals,together with difficulty of individual recognition, badges ofstatus should invade as recognition marks that render good fightersmemorable. Reliability of such badges can be maintained by negativefrequency-dependent selection when individuals of differentappearance (and status) either play mutually beneficial rolesor employ alternate competitive tactics. In territorial socialsystems intraspecific mimicry of recognition badges should evolvebecause, in contrast to group-living situations, the cost toa cheat of being discovered is low when individuals are dispersed.The general result of such mimicry is that good and poor fightersbecome similar in appearance. From the theoretical treatmentof status recognition badges I derive a number of predictionsthat pertain both to interand intraspecific differences in conspicuouscoloration and to the evolution of local song dialects in birds.     

Discovery of Stretch Receptor Organs in Nematodes–Structure, Arrangement and Functional Analysis

Filamentous organs, termed metanemes and interpreted as stretch receptor organs, have been discovered in nematodes of the order Enoplida. They have not been found in species of 11 other nematode orders. According to light microscopical observations, a metaneme consists of a 5–15 μm long scapulus, a 20–400 μm long frontal and a 30–170 μm long caudal cuticularized filament; the latter is lacking in some taxa. Metanemes are arranged serially in the lateral epidermal cords; they are parallel or at an angle of 10–30° to the longitudinal body line. The function of metanemes is likely to coordinate the serpentine movement and to control the actual body volume.     

Odontobius (Nematoda, Monhysteridae) from the baleen plates of whales and its relationship to Gammarinema living on crustaceans

Based on new material, the poorly known nematode species Odontobius ceti Roussel de Vauzème, 1834 is redescribed. It lives on the baleen plates of the baleen whales. It is argued that it belongs to the Monhysteridae sensu Lorenzen. Within this family, Odontobius appears to be most closely related to Gammarinema, species of which live externally on peracarid and decapod crustaceans. It is suggested that Odontobius ceti or its ancestor lived externally on crustaceans which were (or still are?) of nutritional importance to baleen whales and that in the course of feeding on these crustaceans the nematode became adapted to its current biotope.     

Foraging differences between white and dark morphs of the Pacific Reef Heron Egretta sacra

Among the species of diurnal herons (Ardeinae) showing light-dark colour polymorphism in plumage, colour phase is age-related in one species, closely associated with geography in three species, and found in most populations in three closely related species of reef herons. In Pacific Reef Herons Egretta sacra white-phased birds sought prey by a flight, land, and freeze hunting style in breaking surf, while dark birds pursued prey by actively walking or running on reef flats. On Mangaia, in the southern Cook Islands, more white-phased birds used the windward side of the island and more dark-phased birds used the lee side. On Rarotonga, 204 km from Mangaia, reef herons foraged almost exclusively in shaded streams and no entirely white-phased bird was encountered. These results provide the first evidence of differences in hunting techniques associated with colour morph and only the second observation of differences in habitat use by white- and dark-phased herons at single localities. As such they support Murton's (1971) idea that colour polymorphism serves herons in their role as predators. For reasons discussed in the text such differences are more expected in reef herons than in most other colour-polymorphic herons.