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<p>We illustrate the nonlinear relationships among anthropogenic <span class="inline-formula">NO_<i>x</i></span> emissions, <span class="inline-formula">NO₂</span> tropospheric vertical column densities (TVCDs), and <span class="inline-formula">NO₂</span> surface concentrations using model simulations for July 2011 over the contiguous United States (CONUS). The variations in <span class="inline-formula">NO₂</span> surface concentrations and TVCDs are generally consistent and reflect anthropogenic <span class="inline-formula">NO_<i>x</i></span> emission variations for high anthropogenic <span class="inline-formula">NO_<i>x</i></span> emission regions well. For low anthropogenic <span class="inline-formula">NO_<i>x</i></span> emission regions, however, nonlinearity in the anthropogenic-emission–TVCD relationship due to emissions from lightning and soils, chemistry, and physical processes makes it difficult to use satellite observations to infer anthropogenic <span class="inline-formula">NO_<i>x</i></span> emission changes. The analysis is extended to 2003–2017. Similar variations in <span class="inline-formula">NO₂</span> surface measurements and coincident satellite <span class="inline-formula">NO₂</span> TVCDs over urban regions are in sharp contrast to the large variation differences between surface and satellite observations over rural regions. We find a continuous decrease in anthropogenic <span class="inline-formula">NO_<i>x</i></span> emissions after 2011 by examining surface and satellite measurements in CONUS urban regions, but the decreasing rate is lower by 9&thinsp;%–46&thinsp;% than the pre-2011 period.</p>