The research that we conduct in my laboratory aims to understand the causes of infertility at the gene level and pinpoint the mechanisms through which toxicants affect fertility both in humans and farm animals. Understanding how things happen will help in finding ways of overcoming it.
My research is designed to better understand the relative risks that environmental stressors may pose to the biota of aquatic and terrestrial ecosystems with the goal of improving scientific and public understanding of those risks.
I combine experiments, simulations, and theory to tackling problems like improving small hydropower systems, modeling the climate inside greenhouses, and studying airflow in both industrial processes and outdoors.
The problems I have worked on in animal science have direct implications for genetic selection, food quality (e.g. cow milk), and animal health. On the other hand, my work in understanding the structure and driving mechanisms of ecological (e.g. plant-pollinator) networks have indirect implications for ecosystem conservation, management, and restoration.
The ultimate goal of our research is to develop technology that helps to enable a shift of our carbon resource from fossil non-renewables (crude oil, natural gas and coal) to renewable biomass in form of agricultural and forestry byproducts such as corn stover, straws, wood chips and bark, etc.
My research is in the area of nuclear physics, using the atomic nucleus as a laboratory to understand the fundamental forces of nature, the origins of the elements in the Universe, and how simple patterns emerge from complex systems.