Nanocomposites, Photoelectrochemistry and Superconductors

The group aims at understanding the mechanism of evolution of adaptive and non-adaptive characters in organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time.

The group aims at understanding the mechanism of evolution of adaptive and... organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time. The group aims at understanding the mechanism of evolution of adaptive and non-adaptive characters in organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time. The group aims at understanding the mechanism of evolution of adaptive and non-adaptive characters in organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time. Read More

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Nanocomposites, Photoelectrochemistry and Superconductors

The group aims at understanding the mechanism of evolution of adaptive and non-adaptive characters in organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time.

The group aims at understanding the mechanism of evolution of adaptive and... organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time. The group aims at understanding the mechanism of evolution of adaptive and non-adaptive characters in organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time. The group aims at understanding the mechanism of evolution of adaptive and non-adaptive characters in organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time. Read More

item-image
Nanocomposites, Photoelectrochemistry and Superconductors

The group aims at understanding the mechanism of evolution of adaptive and non-adaptive characters in organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time.

The group aims at understanding the mechanism of evolution of adaptive and... organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time. The group aims at understanding the mechanism of evolution of adaptive and non-adaptive characters in organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time. The group aims at understanding the mechanism of evolution of adaptive and non-adaptive characters in organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time. Read More

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Nanocomposites, Photoelectrochemistry and Superconductors

The group aims at understanding the mechanism of evolution of adaptive and non-adaptive characters in organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time.

The group aims at understanding the mechanism of evolution of adaptive and... organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time. The group aims at understanding the mechanism of evolution of adaptive and non-adaptive characters in organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time. The group aims at understanding the mechanism of evolution of adaptive and non-adaptive characters in organisms. By employing phenotypic manipulation experiments, primarily using laboratory fruit fly populations, his group investigates phenotype - fitness correlations. The group then employs Experimental Evolution to investigate the evolution of these phenotypes in experimental populations in real-time. Read More

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