Parasitism is pervasive and parasites come in all shapes and forms, from viruses, and bacteria to fungi, nematode worms, parasitic plants, and invertebrates such as fleas, mites, lice, bedbugs, and little “parasitoid” insects who lay their eggs on other insects. In fact, nearly every species on our planet has associated parasites that shape their biology. Even parasites have parasites. If we look on even smaller microscopic scales, DNA parasites are found in the genetic material of nearly every organism. How do species survive this onslaught of parasitism, and how do hosts respond to keep them in check? A major focus of this project is to investigate parasitism across different biological levels, and to identify common principles among the very diverse kinds of parasitic relationships. This research is relevant to improving agriculture and advancing human health. The second major goal of this project concerns a specific kind of parasite called “parasitoids”. Parasitoids are small insects that lay their eggs in other invertebrates, and the resulting young then feed on and kill the “host”. Parasitoids are among the most abundant of all insects, and they play a major role in controlling insect numbers in nature, including pests and disease vectors. The parasitoid group called Nasonia (jewel wasps) is a highly tractable study group for research and teaching. It has emerged as an insect model for both parasitoid biology and basic research. Yet, a synthetic treatment of Nasonia, including major advances and uses of the system, has not been done in over fifty years. To fill this gap, and to make the system more available to researchers and educators, a synthetic review of Nasonia will be conducted. This will include methods, research advances, and information on on-line tools for research and education. The review will both advance research on parasitoids, and increase public awareness and knowledge about this very important but under-recognized group of insects.

This research will identify common principles among the very diverse kinds of parasitic relationships to achieve a synthetic analysis, spanning parasitism from genomic parasites to ecological communities. Important themes to be illustrated in the monograph include biological levels of selection, the parasitism-mutualism continuum, genetic conflict, evolved dependencies, antagonistic coevolution versus unidirectional adaptation, coinheritance and fidelity of association, host defenses, and cooption of parasites by hosts. A synthetic monograph will be produced on the insect parasitoid Nasonia, and its uses in research and teaching. This work builds on the principle investigator’s 40 years of experience on these and other parasitoids, during which Nasonia has emerged as an insect model system. The monograph will feature the biology of Nasonia and related insects, genetic, genomic, and other resources, methods, and significant contributions of Nasonia to science, including in behavior, genetics, comparative biology, development, and symbiosis. Nasonia is also an excellent system for teaching at the high school and college levels. The monograph will feature its uses and advantages in teaching, tools, and examples of exercises. Online resources will be updated to assist researchers and teachers in utilizing Nasonia.

This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

Agency
National Science Foundation (NSF)
Institute
Division of Environmental Biology (DEB)
Type
Standard Grant (Standard)
Application #
1950078
Program Officer
Leslie J. Rissler
Project Start
Project End
Budget Start
2020-02-01
Budget End
2022-01-31
Support Year
Fiscal Year
2019
Total Cost
$323,270
Indirect Cost
Name
University of Rochester
Department
Type
DUNS #
City
Rochester
State
NY
Country
United States
Zip Code
14627