PART I. The Nature and Localization of Neuroseoretory Substances Isolation and Identification of Cardio-Excitor Hormone from the Pericardial Organs of Cancer borealis

Extracts of the neurohemal pericardial organs from Cancer borealishave a cardio-excitor activity when tested on the isolated,perfused heart. Analysis of the extract indicates that thereare two active peptides, similar in size and amino acid composition.The procedure for isolation of these peptides is presented,as well as a discussion of the proposed role of indolic substancesas cardio-excitor agents.     

Molecular systematics of flyingfishes (Teleostei: Exocoetidae): evolution in the epipelagic zone

The flyingfish family Exocoetidae is a diverse group of marine fishes that are widespread and abundant in tropical and subtropical seas. Flyingfishes are epipelagic specialists that are easily distinguished by their enlarged fins, which are used for gliding leaps over the surface of the water. Although phylogenetic hypotheses have been proposed for flyingfish genera based on morphology, no comprehensive molecular studies have been performed. In the present study, we describe a species‐level molecular phylogeny for the family Exocoetidae, based on data from the mitochondrial cytochrome b gene (1137 bp) and the nuclear RAG2 gene (882 bp). We find strong support for previous morphology‐based phylogenetic hypotheses, as well as the monophyly of most currently accepted flyingfish genera. However, the most diverse genus Cheilopogon is not monophyletic. Using our novel flyingfish topology, we examine previously proposed hypotheses for the origin and evolution of gliding. The results support the progressive transition from two‐wing to four‐wing gliding. We also use phylogenetic approaches to test the macroecological effects of two life history characters (e.g. egg buoyancy and habitat) on species range size in flyingfishes. © 2010 The Linnean Society of London, Biological Journal of the Linnean Society, 2011, 102, 161–174.     

Systematics of the scimitar babblers (Pomatorhinus: Timaliidae): phylogeny,biogeography, and species‐limits of four species complexes

Monophyly of the scimitar babblers (Pomatorhinus, Xiphirhynchus: Timaliidae), traditionally defined by the characteristic of having long, curved bills, has been questioned by recent molecular phylogenetic results. We examined representatives of all scimitar babbler species complexes, including all distinct lineages of four complexes as well as several potential relatives, and corroborate that Xiphirhynchus and some species of Stachyris group within Pomatorhinus. Pomatorhinus species comprise three separate clades: larger scimitar babblers (Pomatorhinus hypoleucos, Pomatorhinus erythrogenys complexes); orange‐ and coral‐billed scimitar babblers (Pomatorhinus ochraceiceps, Pomatorhinus ferruginosus complexes); and small scimitar babblers (Pomatorhinus schisticeps, Pomatorhinus ruficollis, Pomatorhinus horsfieldii, Pomatorhinus montanus complexes). Additionally, at least two of the traditional species complexes are not monophyletic. Lineages of the ruficollis and schisticeps groups are intertwined, and P. montanus and P. horsfieldi group within the schisticeps complex. Upon revision of four traditional species complexes, P. hypoluecos, P. ferruginosus, P. schisticeps, and P. ruficollis (with 41 subspecies described in total), 27 distinct, independent lineages or phylogenetic species were distinguished. Two contrasting biogeographical patterns are evident in these groups: Sino‐Himalayan areas are either sister to south‐east Asian areas or are embedded within a clade of other Asian areas. The present study demonstrates the need for unraveling the confusion in traditional taxonomy to allow the study of complex biodiversity patterns in tropical Asia. © 2011 The Linnean Society of London, Biological Journal of the Linnean Society, 2011, 102 , 846–869.     

Temperature effects on forest herbs assessed by warming and transplant experiments along a latitudinal gradient

Slow‐colonizing forest understorey plants are probably not able to rapidly adjust their distribution range following large‐scale climate change. Therefore, the acclimation potential to climate change within their actual occupied habitats will likely be key for their short‐ and long‐term persistence. We combined transplant experiments along a latitudinal gradient with open‐top chambers to assess the effects of temperature on phenology, growth and reproductive performance of multiple populations of slow‐colonizing understorey plants, using the spring flowering geophytic forb Anemone nemorosa and the early summer flowering grass Milium effusum as study species. In both species, emergence time and start of flowering clearly advanced with increasing temperatures. Vegetative growth (plant height, aboveground biomass) and reproductive success (seed mass, seed germination and germinable seed output) of A. nemorosa benefited from higher temperatures. Climate warming may thus increase future competitive ability and colonization rates of this species. Apart from the effects on phenology, growth and reproductive performance of M. effusum generally decreased when transplanted southwards (e.g., plant size and number of individuals decreased towards the south) and was probably more limited by light availability in the south. Specific leaf area of both species increased when transplanted southwards, but decreased with open‐top chamber installation in A. nemorosa. In general, individuals of both species transplanted at the home site performed best, suggesting local adaptation. We conclude that contrasting understorey plants may display divergent plasticity in response to changing temperatures which may alter future understorey community dynamics.     

A comparison of behavioural change in Drosophila during exposure to thermal stress

In order to understand how adaptive tolerance to stress has evolved, we compared related species and populations of Drosophila for a variety of fitness relevant traits while flies directly experienced the stress. Two main questions were addressed. First, how much variation exists in the frequency of both courtship and mating among D. melanogaster, D. simulans, and D. mojavensis when each are exposed to a range of temperatures? Second, how does variation in these same behaviours compare among four geographically isolated populations of D. mojavensis, a desert species with a well defined ecology? Our hierarchical study demonstrated that mating success under stress can vary as much between related species, such as D. melanogaster and D. simulans, as between the ecologically disparate pair, D. melanogaster and D. mojavensis. Strains of this latter desert species likewise varied in tolerance, with differences approaching the levels observed among species. The consequences of stress on male courtship differed markedly from those on female receptivity to courtship, as mating behaviours among species and among strains of D. mojavensis varied in subtle but significant ways. Finally, a comparison of variation in thermotolerance of F₁ hybrids between the two most extreme D. mojavensis populations confirmed that genetic variation underlying traits such as survival or the ability to fly after heat stress is completely different. © 2004 The Linnean Society of London, Biological Journal of the Linnean Society, 2004, 83 , 197–205.     

Biogeography in the Death Valley region: evidence from springsnails (Hydrobiidae: Tryonia)

Allozyme and mitochondrial DNA variation were analysed to examine evolution of the nine species of springsnails (genus Tryonia) living in the Death Valley system (Owens and Amargosa basins) of southeastern California and southwestern Nevada. Both allozyme and mtDNA evidence indicate that this highly endemic fauna is non-monophyletic. Species from the upper Amargosa basin comprise a clade most closely related to snails living in the Colorado basin. Snails from the lower Amargosa basin (Death Valley trough) reflect a complex evolutionary history and two of these species are more closely related to an estuarine species from western California than to other snails of the region. These results indicate a commonality of pattern with the well-studied Death Valley pupfishes (Cyprinodon), which also are non-monophyletic and include species that are most closely related to Colorado basin congeners. These biogeographic patterns are interpreted within the context of a recently proposed model for the early history of the lower Colorado River.     

Structure and variation in the hindlimb musculature of the woodcreepers (Aves: Passeriformes: Dendrocolaptinae)

The Dendrocolaptinae (woodcreepers), a clade of neotropical passerine birds, form an adaptive radiation with a spectrum of body sizes and bill shapes. Woodcreepers are scansorial, climbing vertical tree trunks supported by their forward toes and stiffened tail. The hindlimb musculature was dissected and described for 42 of the 50 species representing all genera, and for 14 outgroup species. Structural, functional, developmental and evolutionary aspects of muscular variations are analysed. Woodcreepers have extensive ossification of leg tendons. There is intraspecific variation in the degree of ossification, and interspecific variation in the occurrence of ossification between muscles. Intraspecific variation in muscle structure was apportioned according to a published classification. Nine muscles showed variation of the minor, singular, mimicking and incongruous types, but explosive variation was lacking. Some muscles are more prone to variation than others. Ten muscles showed interspecific variations of four types, for which new terms are proposed: occurrence variations; attachment variations in origins and insertions; structural variations in size, shape, or fibre arrangement; and relational variations with other muscles. Variations in the presence of a muscle component did not occur. Discrimination of intraspecific variations from interspecific variations is discussed.