Tackling barriers to take-up of fuel poverty alleviation measures

Although there has been much work around the take-up of fuel poverty alleviation programmes carried out this has generally focussed on evidence from frontline managers and other stakeholders. Any investigation with end users has been minimal. Funded by Eaga Partnership Charitable Trust, Sustainable Cities Research Institute carried out a community-based investigation into barriers and possible solutions to the uptake of fuel poverty alleviation programmes. A combination of desk-based research with frontline staff and Participatory Appraisal (PA) techniques with communities were used to carry out this research. 362 people took part in the PA and 17 frontline staff returned detailed questionnaires. 4 areas were studied: 3 with poor and one with good take-up. Additionally vulnerable groups of consumers were identified; elderly, Black and Minority Ethnic (BME) groups and rural consumers. Each of the 3 areas with poor take-up has a good concentration of one of the identified vulnerable groups

In Pursuit of Sex Parity: Are Girls Becoming more Educated than Boys?

One of the Millennium Development Goals (MDGs) is the elimination of gender disparity in primary and secondary education. Global initiatives toward this end have mostly been to bring the benefits of education closer to girls so that the gap between them and boys may eventually close. In the Philippines, however, mounting evidence points to a reversed direction of the gender disparity. Are our boys falling behind on education? Why? Read more.education, millennium development goal (MDG), education indicators, Education for All (EFA), sex parity

Phylogeny and evolution of anomalous roots in Daviesia (Fabaceae : Mirbelieae)

The phylogeny of the Australian legume genus Daviesia was estimated using sequences of the internal transcribed spacers of nuclear ribosomal DNA. Partial congruence was found with previous analyses using morphology, including strong support for monophyly of the genus and for a sister group relationship between the clade D. pachyloma and the rest of the genus. A previously unplaced bird-pollinated species, anceps + D. D. epiphyllum, was well supported as sister to the only other bird-pollinated species in the genus, D. speciosa, indicating a single origin of bird pollination in their common ancestor. Other morphological groups within Daviesia were not supported and require reassessment. A strong and previously unreported sister clade of Daviesia consists of the two monotypic genera Erichsenia and Viminaria. These share phyllode-like leaves and indehiscent fruits. The evolutionary history of cord roots, which have anomalous secondary thickening, was explored using parsimony. Cord roots are limited to three separate clades but have a complex history involving a small number of gains (most likely 0-3) and losses (0-5). The anomalous structure of cord roots ( adventitious vascular strands embedded in a parenchymatous matrix) may facilitate nutrient storage, and the roots may be contractile. Both functions may be related to a postfire resprouting adaptation. Alternatively, cord roots may be an adaptation to the low-nutrient lateritic soils of Western Australia. However, tests for association between root type, soil type, and growth habit were equivocal, depending on whether the variables were treated as phylogenetically dependent (insignificant) or independent ( significant)

Gall-induction in insects: evolutionary dead-end or speciation driver?

The tree of life is significantly asymmetrical - a result of differential speciation and extinction - but general causes of such asymmetry are unclear. Differences in niche partitioning are thought to be one possible general explanation. Ecological specialization might lead to increases in diversification rate or, alternatively, specialization might limit the evolutionary potential of specialist lineages and increase their extinction risk. Here we compare the diversification rates of gall-inducing and non-galling insect lineages. Compared with other insect herbivores feeding on the same host plant, gall-inducing insects feed on plant tissue that is more nutritious and less defended, and they do so in a favorable microhabitat that may also provide some protection from natural enemies. We use sister-taxon comparisons to test whether gall-inducing lineages are more host-specific than non-galling lineages, and more or less diverse than non-gallers. We evaluate the significance of diversity bipartitions under Equal Rates Markov models, and use maximum likelihood model-fitting to test for shifts in diversification rates

The connective tissue cells of human dental pulp: An histologic and immunohistochemical study

Twenty human healthy teeth were extracted for orthondontic purposes and processed for histological, and immunohistochemical examination. Odontoblasts were pseudostratified in depth of 1-8 cells in pulpward direction showing the zone of Weil and the cell-rich zone in coronal third pulp. In the central part of pulp tissue, fibroblasts were arranged as a network. These cells strongly immunoreacted with an antibody (monoclonal and polyclonal) directed against the intermediate filament vimentin. The product reaction was specifically located in the cytoplasm. Near vessels occasional lymphocytes and mast cells were also present. Collagen fibers formed a plexus below the cell-rich zone in middle and coronal pulp.Vingt dents humaines saines ont été avulsées pour des raisons orthodontiques et traitées pour être examinées du point de vue histologique et par immunohistochimie. Les odontoblastes étaient pseudostratifiés (1-8 cellules) et dans le tiers coronaire de la pulpe soit la zone de Weil une zone riche en cellules est présente. Dans la partie centrale de la pulpe, les fibroblastes forment un réseau. Ces cellules sont fortement immuno-marquées par un anticorps (monoclonal ou polyclonal) dirigé contre la vimentine. Le marquage est spécifiquement localisé dans le cytoplasme. A proximité des vaisseaux, des mastocytes ainsi que des lymphocytes sont présents. Les fibres de collagène forment un plexus au-dessous de la zone cellulaire riche dans la partie coronaire et centrale de la pulpe

Evolutionary consequences of shifts to bird-pollination in the Australian pea-flowered legumes (Mirbelieae and Bossiaeeae)

BACKGROUND Interactions with pollinators are proposed to be one of the major drivers of diversity in angiosperms. Specialised interactions with pollinators can lead to specialised floral traits, which collectively are known as a pollination syndrome. While it is thought that specialisation to a pollinator can lead to either an increase in diversity or in some cases a dead end, it is not well understood how transitions among specialised pollinators contribute to changes in diversity. Here, we use evolutionary trait reconstruction of bee-pollination and bird-pollination syndromes in Australian egg-and-bacon peas (Mirbelieae and Bossiaeeae) to test whether transitions between pollination syndromes is correlated with changes in species diversity. We also test for directionality in transitions that might be caused by selection by pollinators or by an evolutionary ratchet in which reversals to the original pollination syndrome are not possible. RESULTS Trait reconstructions of Australian egg-and-bacon peas suggest that bee-pollination syndrome is the ancestral form and that there has been replicated evolution of bird-pollination syndromes. Reconstructions indicate potential reversals from bird- to bee-pollination syndromes but this is not consistent with morphology. Species diversity of bird-pollination syndrome clades is lower than that of their bee-pollination syndrome sisters.We estimated the earliest transitions from bee- to bird-pollination syndrome occurred between 30.8 Ma and 10.4 Ma. Geographical structuring of pollination syndromes was found; there were fewer bird-pollination species in the Australian southeast temperate region compared to other regions of Australia. CONCLUSIONS A consistent decrease in diversification rate coincident with switches to bird pollination might be explained if greater dispersal by bird pollinators results in higher levels of connectivity among populations and reduced chances of allopatric speciation.The earliest transitions overlap with the early diversification of Australian honeyeaters - the major lineage of pollinating birds in Australia. Our findings are consistent with the idea that environment and availability of pollinators are important in the evolution of pollination syndromes. Changes in flower traits as a result of transitions to bird-pollination syndrome might also limit reversals to a bee-pollination syndrome.Funding was provided by the Australian Research Council (grant number: DP0985473)