Abstract is: James Mallet (born 15 March 1955 in London) is an evolutionary zoologist specialising in entomology. He was educated at Winchester College. He became professor of biological diversity at the Department of Biology, University College London. He was co-director of the Centre for Ecology and Evolution, a centre of excellence in research and teaching formed by University College London, the Institute of Zoology (Zoological Society of London), Natural History Museum, Imperial College, Queen Mary, Royal Holloway and Kew Gardens. In 2013 he was distinguished lecturer on Organismic and Evolutionary Biology at Harvard University. His research has included work on the species concept central to evolutionary biology, along with hybridization and the process of speciation. He was awarded the Darwin-Wallace Medal by the Linnean Society of London in 2008.
human | Q5 |
P2381 | Academic Tree ID | 78606 |
P428 | botanist author abbreviation | Mallet |
P6178 | Dimensions author ID | 016215463037.92 |
P646 | Freebase ID | /m/04f1q7p |
P6264 | Harvard Index of Botanists ID | 37442 |
P586 | IPNI author ID | 22822-1 |
P244 | Library of Congress authority ID | n88605145 |
P856 | official website | http://www.oeb.harvard.edu/faculty/mallet/ |
http://www.ucl.ac.uk/taxome/jim | ||
P496 | ORCID iD | 0000-0002-3370-0367 |
P1153 | Scopus author ID | 7202284097 |
P10861 | Springer Nature person ID | 016215463037.92 |
P214 | VIAF ID | 6505709 |
P10832 | WorldCat Entities ID | E39PBJx8FcPfyrJVg8c34YJv73 |
P2006 | ZooBank author ID | 8E3246B2-6DA6-4E62-9011-28117DF7D2B3 |
P166 | award received | Darwin–Wallace Medal | Q1166881 |
P1889 | different from | James Mallet | Q16194910 |
P69 | educated at | Winchester College | Q1059517 |
P108 | employer | University College London | Q193196 |
P734 | family name | Mallet | Q16876324 |
Mallet | Q16876324 | ||
Mallet | Q16876324 | ||
P101 | field of work | botany | Q441 |
P735 | given name | James | Q677191 |
James | Q677191 | ||
P106 | occupation | biologist | Q864503 |
botanist | Q2374149 | ||
entomologist | Q3055126 | ||
P21 | sex or gender | male | Q6581097 |
P26 | spouse | Hopi Hoekstra | Q22073819 |
Q55774361 | A New Species of Passiflora (Passifloraceae) from Ecuador with Notes on the Natural History of Its Herbivore, Heliconius (Lepidoptera: Nymphalidae: Heliconiiti) |
Q24812593 | A Night Out with the Nerds |
Q21146041 | A conserved supergene locus controls colour pattern diversity in Heliconius butterflies |
Q114552061 | Anthropogenic pressures coincide with Neotropical biodiversity hotspots in a flagship butterfly group |
Q33506735 | Are species real? The shape of the species boundary with exponential failure, reinforcement, and the "missing snowball". |
Q29391922 | Butterfly genome reveals promiscuous exchange of mimicry adaptations among species |
Q56070089 | Causes and Consequences of a Lack of Coevolution in Müllerian mimicry |
Q92770597 | Comparing Adaptive Radiations Across Space, Time, and Taxa |
Q54942776 | Complex modular architecture around a simple toolkit of wing pattern genes. |
Q52890544 | Concepts in protistology: species definitions and boundaries. |
Q90126548 | Contrasting genomic and phenotypic outcomes of hybridization between pairs of mimetic butterfly taxa across a suture zone |
Q55399843 | Contrasting patterns of Andean diversification among three diverse clades of Neotropical clearwing butterflies. |
Q51985718 | Correlations between adult mimicry and larval host plants in ithomiine butterflies. |
Q104454701 | Cryptic speciation associated with geographic and ecological divergence in two Amazonian Heliconius butterflies |
Q59321213 | Darwin and Species |
Q42075458 | Dispersal and gene flow in a butterfly with home range behavior: Heliconius erato (Lepidoptera: Nymphalidae). |
Q51168023 | Disruptive ecological selection on a mating cue. |
Q28598262 | Diversification of clearwing butterflies with the rise of the Andes |
Q42060969 | ESTIMATING THE MATING BEHAVIOR OF A PAIR OF HYBRIDIZING HELICONIUS SPECIES IN THE WILD. |
Q36131508 | Ecological Genetics: A Key Gene for Mimicry and Melanism |
Q42007021 | Ecological and genetic factors influencing the transition between host-use strategies in sympatric Heliconius butterflies |
Q59321232 | Ecologically relevant cryptic species in the highly polymorphic Amazonian butterfly Mechanitis mazaeus s.l. (Lepidoptera: Nymphalidae; Ithomiini) |
Q33504499 | Ecology. Biodiversity conservation and the Millennium Development Goals |
Q31137401 | Ecology. Refuting refugia? |
Q28649503 | Estimation of the spontaneous mutation rate in Heliconius melpomene |
Q55952590 | Evolution of Diversity in Warning Color and Mimicry: Polymorphisms, Shifting Balance, and Speciation |
Q35895359 | Evolutionary Novelty in a Butterfly Wing Pattern through Enhancer Shuffling |
Q52713562 | Evolutionary biology: Catfish mimics. |
Q92691243 | Excess melanin precursors rescue defective cuticular traits in stony mutant silkworms probably by upregulating four genes encoding RR1-type larval cuticular proteins |
Q35678016 | Extensive range overlap between heliconiine sister species: evidence for sympatric speciation in butterflies? |
Q34945528 | Female behaviour drives expression and evolution of gustatory receptors in butterflies |
Q115432300 | GENETIC STRUCTURE AND LOCAL ADAPTATION IN NATURAL INSECT POPULATIONS. Edited by Susan Mopper and Sharon Y. Strauss. Chapman and Hall, New York. 1998. Hardback, £65.00. ISBN 0-412-08031-1. |
Q36667829 | Genetic analysis of a wild-caught hybrid between non-sister Heliconius butterfly species |
Q59321202 | Genetic differentiation without mimicry shift in a pair of hybridizingHeliconiusspecies (Lepidoptera: Nymphalidae) |
Q37272429 | Genome-wide evidence for speciation with gene flow in Heliconius butterflies |
Q36625666 | Genome-wide introgression among distantly related Heliconius butterfly species |
Q42011899 | Genome-wide patterns of divergence and gene flow across a butterfly radiation |
Q62477466 | Genomic architecture and introgression shape a butterfly radiation |
Q91044277 | Genomic architecture and introgression shape a butterfly radiation |
Q55692633 | Genomic evidence for divergence with gene flow in host races of the larch budmoth. |
Q21092449 | Genomic hotspots for adaptation: the population genetics of Müllerian mimicry in the Heliconius melpomene clade |
Q35601076 | Genomic islands of divergence in hybridizing Heliconius butterflies identified by large-scale targeted sequencing |
Q28752138 | Group selection and the development of the biological species concept |
Q30499898 | Host races in plant-feeding insects and their importance in sympatric speciation |
Q36744616 | How reticulated are species? |
Q24542790 | Hybrid sterility, Haldane's rule and speciation in Heliconius cydno and H. melpomene |
Q39208509 | Hybrid zones and the speciation continuum in Heliconius butterflies |
Q57251283 | Hybridisation and climate change: brown argus butterflies in Britain (Polyommatus subgenus Aricia) |
Q38074482 | Hybridization and speciation |
Q29616788 | Hybridization as an invasion of the genome |
Q24642021 | Hybridization, ecological races and the nature of species: empirical evidence for the ease of speciation |
Q60313001 | INFERENCES FROM A RAPIDLY MOVING HYBRID ZONE |
Q42051360 | Inferences from a rapidly moving hybrid zone. |
Q36158287 | Into the Andes: multiple independent colonizations drive montane diversity in the Neotropical clearwing butterflies Godyridina |
Q52881147 | Invasive insect hybridizes with local pests. |
Q52683269 | Limited performance of DNA barcoding in a diverse community of tropical butterflies. |
Q27347601 | Major Improvements to the Heliconius melpomene Genome Assembly Used to Confirm 10 Chromosome Fusion Events in 6 Million Years of Butterfly Evolution. |
Q125423778 | Major patterns in the introgression history of Heliconius butterflies |
Q59321164 | Melanism patches up the defective cuticular morphological traits through promoting the up-regulation of cuticular protein-coding genes in Bombyx mori |
Q42048061 | Mimicry: developmental genes that contribute to speciation |
Q42021849 | Mitochondrial DNA barcoding detects some species that are real, and some that are not. |
Q42022305 | Molecular phylogenetics of the neotropical butterfly subtribe Oleriina (Nymphalidae: Danainae: Ithomiini). |
Q59032362 | Move over Darwin |
Q28649720 | Multilocus species trees show the recent adaptive radiation of the mimetic heliconius butterflies |
Q21093421 | Natural hybridization in heliconiine butterflies: the species boundary as a continuum |
Q41998845 | New genomes clarify mimicry evolution |
Q36339432 | North Andean origin and diversification of the largest ithomiine butterfly genus |
Q114081661 | On the impermanence of species: the collapse of genetic incompatibilities in hybridizing populations |
Q55933236 | Perspectives Poulton, Wallace and Jordan: How discoveries inPapiliobutterflies led to a new species concept 100 years ago |
Q38901580 | Phylogenetic discordance at the species boundary: comparative gene genealogies among rapidly radiating Heliconius butterflies |
Q33240657 | Polyphyly and gene flow between non-sibling Heliconius species |
Q86978938 | Reply to Andrew Brower’s critique of the evidence for hybridization among Heliconius butterfly species in the wild |
Q38751830 | STRONG NATURAL SELECTION IN A WARNING-COLOR HYBRID ZONE. |
Q59321265 | Selection for enemy-free space: eggs placed away from the host plant increase survival of a neotropical ithomiine butterfly |
Q24633411 | Selective bird predation on the peppered moth: the last experiment of Michael Majerus |
Q59321283 | Shift happens! Shifting balance and the evolution of diversity in warning colour and mimicry |
Q92865324 | Simultaneous TE Analysis of 19 Heliconiine Butterflies Yields Novel Insights into Rapid TE-Based Genome Diversification and Multiple SINE Births and Deaths |
Q59321198 | Speciation: Frog Mimics Prefer Their Own |
Q52650002 | Species problem solved 100 years ago. |
Q59321227 | Species, Concepts of |
Q115438922 | Species: The units of biodiversity |
Q30860009 | Stable Heliconius butterfly hybrid zones are correlated with a local rainfall peak at the edge of the Amazon basin |
Q28767184 | Strikingly variable divergence times inferred across an Amazonian butterfly 'suture zone' |
Q88876026 | Supergene Evolution Triggered by the Introgression of a Chromosomal Inversion |
Q33243454 | Taxonomic inflation: its influence on macroecology and conservation |
Q59090583 | Taxonomy and the blues |
Q104207543 | Taxonomy: renaissance or Tower of Babel? |
Q59321240 | Testing historical explanations for gradients in species richness in heliconiine butterflies of tropical America |
Q113198865 | The Ecology and Evolution of Heliconius Butterflies, by Chris D. Jiggins (2016) |
Q42019812 | The anatomy of a 'suture zone' in Amazonian butterflies: a coalescent-based test for vicariant geographic divergence and speciation |
Q91168851 | The genetic architecture of adaptation: convergence and pleiotropy in Heliconius wing pattern evolution |
Q55765049 | Two New Species of Passiflora (Passifloraceae) From Panama, with Comments on Their Natural History |
Q38009396 | Unraveling the thread of nature's tapestry: the genetics of diversity and convergence in animal pigmentation |
Q59023973 | Variations on a theme? |
Q26749254 | What Is Speciation? |
Q36502200 | What does Drosophila genetics tell us about speciation? |
Q55966955 | Why was Darwin’s view of species rejected by twentieth century biologists? |
Q35621193 | Wing patterning gene redefines the mimetic history of Heliconius butterflies |
Q22073819 | Hopi Hoekstra | spouse | P26 |
Q16194910 | James Mallet | different from | P1889 |
James Mallet | wikimedia | |
James Mallet | wikipedia | |
James Mallet | wikipedia | |
James Mallet | wikipedia |
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