Patterns of variation in tail ornament size in birds

In recent years several different kinds of sexual selection models have been developed, and tail ornaments in birds have frequently been used as an example of a sexually selected character where the models might apply. However, very little is known about intra- and interpopulation variation in ornament size. We have studied the elongated tail ornaments in four species of whydahs Vidua , the forktailed flycatcher Tyrannus savana and the Asian paradise flycatcher Terpsiphone paradisi. Ornaments were relatively longer in males with the longest tarsi ('heterogony' with positive allometry). Also, tail lengths were remarkably variable within each geographical area, the coefficient of variation (average = 11%) being three times as high as for body size characters. Models, with female preference of ornaments bearing no relation to male viability, usually generate lines of neutral equilibria. Thus, they predict extraordinary variation in ornaments between populations. However, elongated tail ornaments did not show higher geographical variation than the body size characters, suggesting that there is no line of equilibria for these ornaments.     

The asteralean affinity of the Mauritian Roussea (Rousseaceae)

Roussea , a monotypic genus endemic to Mauritius, has for a long time been associated with Brexia (Celastraceae). Recently, it has been shown that Roussea is placed correctly in the mainly Australasian Asterales, but the sister group to Roussea has not been unequivocally identified. Cladistic analysis of the chloroplast genes ndhF and rbcL identifies the sister group to.Roussea as Carpodetaceae. Recognizing this relationship, the monotypic Rousseaceae is merged with Carpodetaceae into Rousseaceae s.l. comprising two subfamilies. This group is characterized by many-locular ovaries and similarities in the appearance of the petals. Rousseaceae s.l. exhibit a disjunct distribution in Mauritius, East Australia, New Zealand and New Guinea     

A PRELIMINARY CLADISTIC ANALYSIS OF NORTH ATLANTIC OENOPOTA MOERCH, 1852 AND PROPEBELA IREDALE, 1918 (GASTROPODA: CONOIDEA)

The phytogeny of 23 species of the conoidean gastropods Oenopotaand Propebela from the North Atlantic is estimated in a parsimonyanalysis based on 26 morphological characters. Mangeha attenuata(Montagu, 1803) is used as outgroup. The results indicate thatmost Propebela species form a mono-phyletic group within theOenopota/Propebela complex, whereas Oenopota constitutes a paraphyleticassembly. The genus Curtuoma Bartsch, 1941 is probably non-monophyletic. (Received 11 September 1995; accepted 8 December 1995)     

From climate change to population change: the need to consider annual life cycles

Detailed studies of organisms' life cycles are important for understanding population response to climate change. However, in general one cannot make strong inference about the overall population response from such studies, unless the full annual cycle of the species in question is covered. Here, we present a theoretical framework for the understanding of population response to climate change. Owing to the combined effects of demography, intraspecific feedback, and a possible use of environmental cues, environmentally induced changes in survival and/or reproduction do not necessarily lead to a straightforward change in population size. This framework can guide our thinking about how abiotic conditions work their way to the population level. More specifically, it can help us to identify mechanisms that need to be examined when predicting population change in response to expected climate change.     

Island isolation and habitat heterogeneity correlate with DNA variation in a marine snail (Littorina saxatilis)

The null assumption of molecular variation is that most of it is neutral to natural selection. This is in contrast to variation in morphological traits that we generally assume is maintained by selection, and therefore often by selection coupled to environmental heterogeneity in time and space. Examples of molecular variation that vary over habitat-shifts, particularly in allozymes, show that the relative impact of non-neutral variation as compared to neutral variation might be substantial in some systems. To assess the importance of habitat-generated variation in relation to variation generated by random processes in nuclear DNA markers at small spatial scales, we compared the effects of island isolation and habitat heterogeneity on genetic substructuring in a rocky shore snail ( Littorina saxatilis ). This species has a restricted migration among islands owing to the lack of free-floating larvae. Earlier studies show that allozymes vary extensively as a consequence of isolation by water barriers among islands, but also as a consequence of divergent selection among different microhabitats within islands. In the DNA markers we observed genetic differentiation owing to island isolation at three of nine loci. In addition, variation at three loci correlated with habitat type, but the correlation for two of the loci was weak. Overall, isolation contributed slightly more to the genetic variation among populations than did habitat-related factors but the difference was small. It is concluded that both island isolation, which interrupts gene flow, and a heterogeneous habitat cause genetic substructuring at the DNA level in L. saxatilis in the studied area, and thus in this species we need to be somewhat concerned about habitat heterogeneity also at DNA loci.  © 2004 The Linnean Society of London, Biological Journal of the Linnean Society , 2004, 82 , 377–384.