A5047089625- Local Government Finance and Decentralization
- Taxation and Compliance Studies
- Photoreceptor and optogenetics research
- Fiscal Policy and Economic Growth
- Zebrafish Biomedical Research Applications
- Fish Ecology and Management Studies
- Global Energy Security and Policy
- Neuroscience and Neuropharmacology Research
- Russia and Soviet political economy
- Photochromic and Fluorescence Chemistry
- Gender, Labor, and Family Dynamics
- Memory and Neural Mechanisms
- Underwater Vehicles and Communication Systems
- Fish biology, ecology, and behavior
- Neurobiology and Insect Physiology Research
University of Wisconsin–Madison
2023-2024
University of Toronto
2010-2018
Abstract How does conflict affect tax revenue mobilization? This paper uses a newly updated dataset to explore longitudinal trends of mobilization prior to, during and after periods in selection conflict‐affected states since 1980. medium‐N trend analysis provides greater insight into the relationship between performance over time characteristics conflicts question. Offering detailed snapshots experiences conflict, this an empirical counterpoint theories about role taxation war making state...
How does conflict affect tax revenue mobilization? This paper uses a newly updated dataset to explore longitudinal trends of mobilization prior to, during, and after periods in selection conflict-affected states since 1980. medium-N trend analysis is complemented by prototypical case study analysis, which provides greater insight into the relationship between performance over time characteristics conflicts question. Offering detailed snapshots experiences conflict, this an empirical...
Animals improve fitness by choosing when and where to disperse in the environment using sensory cues. In freshwater habitats subject flood drought, dispersal can urgently challenge newly hatched fish. Here we manipulated rearing systems reveal an adaptive sensorimotor strategy for dispersal. If constrained hatchlings or blocked feedback about motion simultaneously impairing lateral line vision, they gulped air elevated their buoyancy passively sail on faster surface waters. stagnant water,...
ABSTRACT Voltage-gated sodium channel (Na V ) activity underlies electrical signaling, synaptic release, circuit function, and, ultimately, behavior. Molecular tools that enable precise control of Na subpopulations make possible temporal regulation neuronal and cellular communication. To rapidly modulate currents, we have rendered a potent inhibitor, saxitoxin, transiently inert through chemical protection with novel nitrobenzyl-derived photocleavable group. Light-induced uncaging the...