Genetic tests of rapid parallel speciation of flightless birds from an extant volant ancestor

Prior to the extinction wave that followed the human colonization of Oceania, flightless rails (Aves: Rallidae) were among the largest radiations of island birds, and perhaps the most species-rich example of convergent evolution in vertebrates. Insular flightless species are thought to have evolved from extant, volant species that colonized from continental sources and rapidly followed parallel adaptive pathways to flightlessness. The present study provides the first test of this model of speciation using genetic data sampled throughout the range of a putative ancestral species. Mitochondrial control region sequences from 71 individuals of the Gallirallus philippensis species complex reveal essentially no geographic structure within archipelagos and only weak structure among archipelagos, with no major genetic breaks except for birds sampled in the Philippines. Demographic tests of coalescent models support a recent rapid expansion into Oceania (including Australia) out of the Philippines approximately 20 000 years ago. The estimated coalescence of G. philippensis mitochondrial alleles approximately 33 000 years ago closely corresponds to the expansion of humans into the archipelagoes of Near Oceania, suggesting that humans may have facilitated its colonization by exterminating flightless competitors and clearing lowland forests. Phylogenetic analyses that included all G. philippensis haplotypes and samples from 11 single-island endemic flightless species of Gallirallus indicate that G. philippensis is polyphyletic, but is not the ancestor of most of its flightless congeners, as previously thought. Nuclear gene sequences (β-actin inron 3) suggest that G. philippensis polyphyly is at least partly due to hybridization. The flightless condition evolves in rails before reproductive isolation is complete.  © 2009 The Linnean Society of London, Biological Journal of the Linnean Society , 2009, 96 , 601–616.     

Response of fauna in seagrass to habitat edges,patch attributes and hydrodynamics

This study has investigated the taxon‐specific responses of fauna to patch edges, and how these relate to patch attributes (patch size, seagrass biomass and water depth), and hydrodynamics in the seagrass habitat. Faunal abundances were sampled at the edge, 2 m in from the edge, and in the middle of 10 seagrass patches of variable size in Port Phillip Bay, Australia. Five of nine taxa showed edge effects. There were higher abundances at the edge compared with the middle for porcellid harpacticoids, and an increase in abundance from the edge to the middle of the patches for tanaids and isopods. For caprellid and gammarid amphipods, the edge effect varied across patches. Changes in current within the patch and patch size were related to the variability in the edge effect pattern of caprellids. None of the measured environmental variables (seagrass biomass, current and water depth) or patch size had a role in the variable edge effect pattern of gammarid amphipods. At the patch level, the distribution of six of nine taxa in this study, namely isopods, polychaetes, ‘other harpacticoids’, porcellid harpacticoids, cumaceans and gammarid amphipods, was related to differences in average water depth, average seagrass biomass and patch size. Our study indicates that the faunal response to edges cannot be generalized across seagrass habitat, and the implications of habitat area loss will vary depending on the taxon under consideration.     

Frequent fires reduce tree growth in northern Australian savannas: implications for tree demography and carbon sequestration

Tropical savannas are typically highly productive yet fire‐prone ecosystems, and it has been suggested that reducing fire frequency in savannas could substantially increase the size of the global carbon sink. However, the long‐term demographic consequences of modifying fire regimes in savannas are difficult to predict, with the effects of fire on many parameters, such as tree growth rates, poorly understood. Over 10 years, we examined the effects of fire frequency on the growth rates (annual increment of diameter at breast height) of 3075 tagged trees, at 137 locations throughout the mesic savannas of Kakadu, Nitmiluk and Litchfield National Parks, in northern Australia. Frequent fires substantially reduced tree growth rates, with the magnitude of the effect markedly increasing with fire severity. The highest observed frequencies of mild, moderate and severe fires (1.0, 0.8 and 0.4 fires yr^?1, respectively) reduced tree growth by 24%, 40% and 66% respectively, relative to unburnt areas. These reductions in tree growth imply reductions in the net primary productivity of trees by between 0.19 t C ha^?1 yr^?1, in the case of mild fires, and 0.51 t C ha^?1 yr^?1, in the case of severe fires. Such reductions are relatively large, given that net biome productivity (carbon sequestration potential) of these savannas is estimated to be just 1–2 t C ha^?1 yr^?1. Our results suggest that current models of savanna tree demography, that do not account for a relationship between severe fire frequency and tree growth rate, are likely to underestimate the long‐term negative effects of frequent severe fires on tree populations. Additionally, the negative impact of frequent severe fires on carbon sequestration rates may have been underestimated; reducing fire frequencies in savannas may increase carbon sequestration to a greater extent than previously thought.     

Isolation of polymorphic tetranucleotide microsatellite markers for the large‐billed scrubwren (Sericornis magnirostris)

We isolated 12 polymorphic microsatellite markers for the large‐billed scrubwren Sericornis magnirostris from genomic libraries enriched for (AAGG)_n and (AACC)_n repetitive elements and characterized them in 11 individuals. The number of alleles ranged from four to 15 per locus with the observed heterozygosity ranging from 0.14 to 0.91. These markers will be useful to address questions concerning population genetic structure and models of speciation.     

Fire weather risk differs across rain forest—savanna boundaries in the humid tropics of north‐eastern Australia

Alternative stable state theory has been applied to understanding the control by landscape fire activity of pyrophobic tropical rain forest and pyrophytic eucalypt savanna boundaries, which are often separated by tall eucalypt forests. We evaluate the microclimate of three vegetation types across an elevational gradient and their relative fire risk as measured by McArthur's Forest Fire Danger Index (FFDI). Microclimatic data were collected from rain forest, tall eucalypt forest and savanna sites on eight vegetation boundaries throughout the humid tropics in north Queensland over a 3‐year period and were compared with data from a nearby meteorological station. There was a clear annual pattern in daily FFDI with highest values in the austral winter dry season and lowest values in the austral summer wet season. There was a strong association of the meteorological station FFDI values with those from the three vegetation types, albeit they were substantially lower. The rank order of FFDI values among the vegetation types decreased from savanna, tall eucalypt forest, then rain forest, a pattern that was consistent across each transect. Only very rarely would rain forest be flammable, despite being adjacent to highly flammable savannas. These results demonstrate the very strong effect of vegetation type on microclimate and fire risk, compared with the weak effect of elevation, consistent with a fire–vegetation feedback. This study is the first demonstration of how vegetation type influences microclimate and fire risk across a topographically complex tropical forest–savanna gradient.     

Dehiscence of Fruit in Oilseed Rape (Brassica nap us L.): II. THE ROLE OF CELL WALL DEGRADING ENZYMES AND ETHYLENE

Pod shatter in oilseed rape is accompanied by the degradationof the cell wall at the site of fruit dehiscence. Cell separationis preceded by an increase in the activity of the hydrolyticenzyme cellulase (ß 1,4-glucanase, E.C. 3.1.2.4 [EC] ),and this rise in enzyme activity is restricted to the dehiscencezone cells. In contrast, the activity of the cell wall degradingenzyme polygalacturonase (E.C. 3.2.1.15 [EC] ) exhibits no correlationeither temporally or spatially with pod dehiscence. An analysisof the ethylene production profile by intact pods during maturationhas revealed the existence of an ethylene climacteric and thisis temporally correlated with the tissue-specific increase incellulase activity. The major site of ethylene production bythe fruit has been identified to be the developing seed. Sincemaintenance of intact pods in ethylene accelerates both thesenescence and dehiscence of the tissue, it is possible thatthis gaseous regulator plays an important role in the processof pod shatter in vivo. Key words: Oilseed rape, Brassica napus, pod shatter, cellulase, polygalacturonase, ethylene     

Responsiveness of Pseudaletia unipuncta males to the female sex pheromone

ABSTRACT. In wind tunnel experiments male response to different concentrations of synthetic pheromone varied with age. At 25°C responsiveness increased up to day 5 and then declined slightly on day 7. For any given age the level of response generally increased with an increase in pheromone concentration. Males held at 15°C (since emergence) showed a continual increase in responsiveness with age; however, overall response levels were less than at 25°C. At 25°C male response to low concentrations of pheromone (10 and 30 μg) varied markedly over a 24 h period but no differences were observed at higher concentrations (100 and 300 μg).