Phillimore scite author profile

Phillimore

5Publications

115Citation Statements Received

113Citation Statements Given

How they've been cited

106

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Affiliations

University College London, Campden BRI (Hungary)

Publications

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Ecology Predicts Large-Scale Patterns of Phylogenetic Diversification in Birds

Phillimore¹,

Freckleton²,

Owens³

2006

The American Naturalist

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One of the most striking patterns in evolutionary biology is that clades may differ greatly in the number of species they contain. Numerous hypotheses have been put forward to explain this phenomenon, and several have been tested using phylogenetic methods. Remarkably, however, all such tests performed to date have been characterized by modest explanatory power, which has generated an interest in explanations stressing the importance of random processes. Here we make use of phylogenetic methods to test whether ecological variables, typically ignored in previous models, may explain phylogenetic tree imbalance in birds. We show that diversification rate possesses an intermediate phylogenetic signal across families. Using phylogenetic comparative methods, we then build a multipredictor model that explains more than 50% of the variation in diversification rate among clades. High annual dispersal is identified as the strongest predictor of high rates of diversification. In addition, high diversification rate is strongly associated with feeding generalization. In all but one instance, these key findings remain qualitatively unchanged when we use an alternative phylogeny and methodology and when small clades, containing five species or less, are excluded. Taken together, these results suggest that large-scale patterns in avian diversification can be explained by variation in intrinsic biology.

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Sympatric Speciation in Birds Is Rare: Insights from Range Data and Simulations

Phillimore¹,

Orme²,

Thomas³

et al. 2008

The American Naturalist

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Sympatric speciation is now accepted as theoretically plausible and a likely explanation for divergence in a handful of taxa, but its contribution to large-scale patterns of speciation remains contentious. A major problem is that it is difficult to differentiate between alternate scenarios of geographic speciation when species ranges have shifted substantially in the past. Previous studies have searched for a signal of the geographic mode of speciation by testing for a correlation between time since speciation and range overlap. Here we use simulations to show that the proportion of species showing zero or complete range overlap are more reliable indicators of the geography of speciation than is the correlation between time since speciation and overlap. We then apply these findings to the distributions of 291 pairs of avian sister species. Although 49% of pairs show some overlap in their ranges, our simulations show that this is not surprising under allopatric models of speciation. More revealingly, less than 2% show complete range overlap. Our simulations demonstrate that the observed patterns are most consistent with a model in which allopatric speciation is dominant but in which sympatric speciation is also present and contributes 5% of speciation events.

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Cell cycle exit and stem cell differentiation are coupled through regulation of mitochondrial activity in the Drosophila testis

Maza

Hof-Michel

Phillimore

et al. 2021

Preprint

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Stem cells maintain tissue homeostasis by proliferating to replace cells lost to damage or natural turnover. Whereas stem and progenitor cells proliferate, fully differentiated cells exit the cell cycle. How cell identity and cell cycle state are coordinated during this process is still poorly understood. The Drosophila testis niche supports germline stem cells and somatic cyst stem cells (CySCs), which are the only proliferating somatic cells in the testis. CySCs give rise to post-mitotic cyst cells and therefore provide a tractable model to ask how stem cell identity is linked to proliferation. We show that the G1/S cyclin, Cyclin E, is required for CySC self-renewal; however, its canonical transcriptional regulator, a complex of the E2f1 and Dp transcription factors is dispensable for self-renewal and cell cycle progression. Nevertheless, we demonstrate that E2f1/Dp activity must be silenced to allow CySCs to differentiate. We show that E2f1/Dp activity inhibits the expression of genes important for mitochondrial activity. Furthermore, promoting mitochondrial activity or biogenesis is sufficient to rescue the differentiation of CySCs with ectopic E2f1/Dp activity but not their exit from the cell cycle. Our findings together indicate that E2f1/Dp coordinates cell cycle progression with stem cell identity by regulating the metabolic state of CySCs.

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Correspondence

Phillimore

Hillis

1923

The Class. Rev.

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Latin is said to be a terse language, but I believe I have succeeded, in the accompanying versions, in rendering every word of Catullus' poems from twelve-syllabled to tensyllabled lines. May I add that I have lately found in a school edition of Catullus, published by Parker of Oxford in 1818, a translation of the Phasellus into Greek iambics, line for line, by Joseph Scaliger. Yours faithfully, Cam House, PHILLIMORE.

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The Permanent Court of International Justice

Phillimore¹

1922

Journal of the British Institute of International Affairs

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Phillimore

Ecology Predicts Large-Scale Patterns of Phylogenetic Diversification in Birds

Sympatric Speciation in Birds Is Rare: Insights from Range Data and Simulations

Cell cycle exit and stem cell differentiation are coupled through regulation of mitochondrial activity in the Drosophila testis

Correspondence

The Permanent Court of International Justice

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