Hochberg, Michael E.
Hochberg, Michael E., 1960-
Michael E. Hochberg biologiste américain
Hochberg, Michael
VIAF ID: 76619986 (Personal)
Permalink: http://viaf.org/viaf/76619986
Preferred Forms
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- 100 1 _ ‡a Hochberg, Michael
- 100 1 _ ‡a Hochberg, Michael E
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- 100 1 _ ‡a Hochberg, Michael E.
- 100 1 _ ‡a Hochberg, Michael E.
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- 100 1 _ ‡a Hochberg, Michael E. ‡d 1960-
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- 100 0 _ ‡a Michael E. Hochberg ‡c biologiste américain
4xx's: Alternate Name Forms (13)
5xx's: Related Names (3)
- 551 _ _ ‡a Los Angeles, Calif. ‡4 ortg ‡4 http://d-nb.info/standards/elementset/gnd#placeOfBirth
- 551 _ _ ‡a Montpellier ‡4 ortw ‡4 http://d-nb.info/standards/elementset/gnd#placeOfActivity
- 510 2 _ ‡a Université de Montpellier ‡4 affi ‡4 http://d-nb.info/standards/elementset/gnd#affiliation ‡e Affiliation
Works
Title | Sources |
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Aspects of the genesis and maintenance of biological diversity / Michael E. Hochberg, Jean Clobert, Robert Barbault. - Oxford, 1996. | |
Back to the fundamentals: a reply to Barot et al. | |
Back to the future: evolving bacteriophages to increase their effectiveness against the pathogen Pseudomonas aeruginosa PAO1 | |
Bacterial microcosms obey Taylor's law: effects of abiotic and biotic stress and genetics on mean and variance of population density | |
Cancer across life, 2015: | |
Character displacement promotes cooperation in bacterial biofilms. | |
COEVOLUTION DES TRAITS D'HISTOIRE DE VIE DANS LES ASSOCIATIONS HOTE-PARASITE | |
The coevolution of cooperation and dispersal in social groups and its implications for the emergence of multicellularity | |
Coevolution of symbiotic mutualists and parasites in a community context | |
Contrasted coevolutionary dynamics between a bacterial pathogen and its bacteriophages | |
Control engineering | |
Countries should aim to lower the reproduction number R close to 1.0 for the short-term mitigation of COVID-19 outbreaks | |
Cultural diversity, economic development and societal instability | |
Decentralize, adapt and cooperate | |
Disease-dependent interaction policies to support health and economic outcomes during the COVID-19 epidemic | |
Dispersal and spatial heterogeneity allow coexistence between enemies and protective mutualists | |
The Diverse Effects of Intraspecific Competition on the Selective Advantage to Resistance: A Model and Its Predictions | |
Does multiple infection select for raised virulence? | |
Dynamics of preventive vs post-diagnostic cancer control using low-impact measures | |
Ecol. lett. (Online) | |
Ecological effects of environmental change. | |
ECOLOGIE DES COMMUNAUTES DE PARASITOIDES ASSOCIES AUX CYNIPIDAE GALLIGENES (HYMENOPTERA) : ROLE DES CARACTERISTIQUES DES GALLES, DE LA STRUCTURE DES POPULATIONS ET DE LA PHYLOGENIE DES HOTES SUR LEUR CORTEGE PARASITAIRE | |
Ecologie évolutive de la transmission maternelle d'anticorps | |
Ecology drives the worldwide distribution of human diseases | |
Ecology letters | |
editor's guide to writing and publishing science | |
Emergence of social complexity among coastal hunter-gatherers in the Atacama Desert of northern Chile | |
Erratum | |
ESTABLISHING GENETIC CORRELATIONS INVOLVING PARASITE VIRULENCE | |
Evaluation des risques écologiques associés aux plantes génétiquement modifiées : Etude de deux risques associés aux plantes Bt | |
Evolution de la résistance aux ennemis naturels et intéractions multiples : théorie et système biologique drosophiles-parasitoi͏̈des | |
THE EVOLUTION OF SPECIFICITY IN EVOLVING AND COEVOLVING ANTAGONISTIC INTERACTIONS BETWEEN A BACTERIA AND ITS PHAGE | |
The evolutionary ecology of metacommunities | |
Evolutionary ecology of social bacterial populations under antibiotic and bacteriophage pressure | |
Evolutionary Rationale for Phages as Complements of Antibiotics | |
Evolutionary rescue: an emerging focus at the intersection between ecology and evolution. | |
Evolutionary rescue in populations of Pseudomonas fluorescens across an antibiotic gradient | |
Experimental evolution nearby extinction : the case of Pseudomonas fluorescens under stress conditions. | |
Experimental evolution of diversity in heterogeneous environments. | |
Fees or refuges: which is better for the sustainable management of insect resistance to transgenic Bt corn? | |
Fighting microbial pathogens by integrating host ecosystem interactions and evolution | |
Fundamental ecology is fundamental | |
Hot Spots, Cold Spots, and the Geographic Mosaic Theory of Coevolution | |
Impact of ecological factors on the initial invasion of Bt transgenes into wild populations of birdseed rape (Brassica rapa). | |
Impact of interspecific hybridization between crops and weedy relatives on the evolution of flowering time in weedy phenotypes | |
THE IMPACT OF MIGRATION FROM PARASITE-FREE PATCHES ON ANTAGONISTIC HOST-PARASITE COEVOLUTION | |
Impending primate extinction | |
Importance of suppression and mitigation measures in managing COVID-19 outbreaks | |
Innovation: an emerging focus from cells to societies. | |
The joint evolution of defence and inducibility against natural enemies | |
Long-term effects of single and combined introductions of antibiotics and bacteriophages on populations of Pseudomonas aeruginosa | |
The network structure of cancer ecosystems | |
Overestimating the Role of Environment in Cancers | |
Parasitoid population biology | |
Patterns of host use by brood parasitic Maculinea butterflies across Europe | |
Peto's paradox and human cancers. | |
Peto's paradox and the promise of comparative oncology | |
Phage-bacteria infection networks | |
Phage selection for bacterial cheats leads to population decline. | |
Populational adaptive evolution, chemotherapeutic resistance and multiple anti-cancer therapies | |
Predicting Parasitoid Species Richness | |
Preventive evolutionary medicine of cancers | |
Pseudolysogeny and sequential mutations build multiresistance to virulent bacteriophages in Pseudomonas aeruginosa | |
Refuge theory and biological control | |
Resource availability affects the structure of a natural bacteria-bacteriophage community | |
Self-recognition, color signals, and cycles of greenbeard mutualism and altruism | |
Silicon photonics design : [from devices to systems] | |
SOCIALLY MEDIATED SPECIATION | |
Source Populations Act as Coevolutionary Pacemakers in Experimental Selection Mosaics Containing Hotspots and Coldspots | |
Spatial competition constrains resistance to targeted cancer therapy. | |
Species coexistence in a variable world | |
Species dispersal and biodiversity in human-dominated metacommunities | |
Steering Phages to Combat Bacterial Pathogens | |
The structure of natural microbial enemy-victim networks | |
Taylor's Law holds in experimental bacterial populations but competition does not influence the slope | |
Terminal investment induced by a bacteriophage in a rhizosphere bacterium | |
Towards cancer-aware life-history modelling | |
The tragedy of the reviewer commons | |
Transient negative effects of antibiotics on phages do not jeopardise the advantages of combination therapies | |
Trophic network structure emerges through antagonistic coevolution in temporally varying environments. | |
Virulence evolution in emerging infectious diseases. | |
virus à l'assaut des bactéries | |
When three is a crowd | |
When, why and how tumour clonal diversity predicts survival | |
সংশোধন |