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Robert J. Gegear

Title: Research Assistant Professor
Tel: 508-831-5472
Department: Biology & Biotechnology

for more information on Dr Gegear's research please visit beecology.wpi.edu

My laboratory studies animal sensory and cognitive systems within the contexts of evolutionary ecology and conservation biology. We are particularly interested in 1) how cognitive traits such as working memory capacity and perceptual bias influence the foraging ecology of flower-visiting animals, 2) how floral signal complexity in plants is adaptively linked to sensory and cognitive traits in animal pollinators, and 3) how human-induced changes to sensory and cognitive abilities of animals at the individual level ‘scales up’ to influence the structure, dynamics, and diversity of ecological communities and natural networks. To effectively address these questions, our research approach spans multiple organizational and disciplinary boundaries, combining concepts and experimental techniques from behavioral ecology, neurobiology, experimental psychology, molecular biology, population and community ecology, evolutionary biology, and computer science.

As a model system, we primarily use the bumblebee (Bombus spp.); however, we have made several transformative scientific discoveries using other animal models, including the monarch butterfly (Danaus plexippus) and the fruit fly (Drosophila melanogaster). Bumblebees are an ideal model to address the above research questions because they have evolved the behavioral capacity to flexibly track resources (floral nectar and pollen) in complex and constantly changing multi-sensory environments; they are highly amenable to experimental study of behavior under laboratory and field conditions; they are the main pollinator of numerous native plant species and therefore play critical role in maintaining the function and diversity of natural ecosystems; they have tremendous social and economic value as crop pollinators; and they are easily identified to species while visiting flowers in the wild, thereby enabling ‘citizen scientists’ with different academic backgrounds, perspectives, and life experiences to participate in our field-based research (see beecology.wpi.edu for more details).

To conduct high quality interdisciplinary research using the bumblebee system, I have developed a comprehensive experimental framework that integrates field, laboratory and in silico components.

Robert J. Gegear
Assistant Professor, Biology & Biotechnology
Bioinformatics and Computational Biology
Education: 
Ph.D. University of Western Ontario 2002
Postdoc University of Toronto 2005
Postdoc University of Massachusetts Medical School 2009
My laboratory studies animal sensory and cognitive systems within the contexts of evolutionary ecology and conservation biology. We are particularly interested in 1) how cognitive traits such as working memory capacity and perceptual bias influence the foraging ecology of flower-visiting animals, 2) how floral signal complexity in plants is adaptively linked to sensory and cognitive traits in animal pollinators, and 3) how human-induced changes to sensory and cognitive abilities of animals at the individual level ‘scales up’ to influence the structure, dynamics, and diversity of ecological communities and natural networks. To effectively address these questions, our research approach spans multiple organizational and disciplinary boundaries, combining concepts and experimental techniques from behavioral ecology, neurobiology, experimental psychology, molecular biology, population and community ecology, evolutionary biology, and computer science. As a model system, we primarily use the bumblebee (Bombus spp.); however, we have made several transformative scientific discoveries using other animal models, including the monarch butterfly (Danaus plexippus) and the fruit fly (Drosophila melanogaster). Bumblebees are an ideal model to address the above research questions because they have evolved the behavioral capacity to flexibly track resources (floral nectar and pollen) in complex and constantly changing multi-sensory environments; they are highly amenable to experimental study of behavior under laboratory and field conditions; they are the main pollinator of numerous native plant species and therefore play critical role in maintaining the function and diversity of natural ecosystems; they have tremendous social and economic value as crop pollinators; and they are easily identified to species while visiting flowers in the wild, thereby enabling ‘citizen scientists’ with different academic backgrounds, perspectives, and life experiences to participate in our field-based research (see beecology.wpi.edu for more details). To conduct high quality interdisciplinary research using the bumblebee system, I have developed a comprehensive experimental framework that integrates field, laboratory and in silico components.
Robert J. Gegear
Office: 
Life Science and Bioengineering Center 4016
Professional Highlights & Honors: 
Regional Impact Award
2018
New England Wildflower Society