What is she best known for?
The fields of study she is best known for:
- Climate change
- Meteorology
- Global warming
Climatology, Atmospheric sciences, Ozone, Climate change and Chemical transport model are her primary areas of study.
Her research in Climatology intersects with topics in Haze, Indian ocean, Pollution and Air quality index.
The concepts of her Air quality index study are interwoven with issues in Global warming and Total organic carbon.
She works mostly in the field of Ozone, limiting it down to concerns involving Troposphere and, occasionally, Mineral dust, Atmospheric physics and Data assimilation.
She has researched Climate change in several fields, including Air pollution and Linear regression.
Her biological study deals with issues like Atmospheric chemistry, which deal with fields such as Tropospheric Emission Spectrometer and MOPITT.
Her most cited work include:
- Global modeling of tropospheric chemistry with assimilated meteorology : Model description and evaluation (1491 citations)
- Correlations between fine particulate matter (PM2.5) and meteorological variables in the United States: implications for the sensitivity of PM2.5 to climate change. (523 citations)
- Radiative forcing in the 21st century due to ozone changes in the troposphere and the lower stratosphere (505 citations)
What are the main themes of her work throughout her whole career to date?
Loretta J. Mickley mainly focuses on Climatology, Atmospheric sciences, Air quality index, Climate change and Ozone.
Her Climatology study integrates concerns from other disciplines, such as Global warming and Precipitation.
Her work carried out in the field of Atmospheric sciences brings together such families of science as Atmospheric chemistry and Radiative forcing, Aerosol.
Particularly relevant to Chemical transport model is her body of work in Air quality index.
Her research integrates issues of Land use, Greenhouse gas, Vegetation and Relative humidity in her study of Climate change.
Loretta J. Mickley interconnects Atmosphere, Stratosphere and Global change in the investigation of issues within Ozone.
She most often published in these fields:
- Climatology (42.86%)
- Atmospheric sciences (42.18%)
- Air quality index (40.14%)
What were the highlights of her more recent work (between 2018-2021)?
- Air quality index (40.14%)
- Climate change (34.69%)
- Air pollution (14.29%)
In recent papers she was focusing on the following fields of study:
Her primary areas of study are Air quality index, Climate change, Air pollution, Particulates and Smoke.
Her biological study focuses on Chemical transport model.
Her Climate change research is multidisciplinary, incorporating elements of Physical geography and Greenhouse gas.
Her Particulates study which covers Environmental chemistry that intersects with Decomposition and Aerosol.
Her research in Smoke focuses on subjects like Pollution, which are connected to Gasoline and Diesel fuel.
The various areas that Loretta J. Mickley examines in her Atmospheric sciences study include Air pollution exposure, Ozone, Particulate pollution and Extreme value theory.
Between 2018 and 2021, her most popular works were:
- An ensemble-based model of PM2.5 concentration across the contiguous United States with high spatiotemporal resolution (88 citations)
- Using satellite observations of tropospheric NO 2 columns to infer long-term trends in US NO x emissions: the importance of accounting for the free tropospheric NO 2 background (30 citations)
- Assessing NO2 Concentration and Model Uncertainty with High Spatiotemporal Resolution across the Contiguous United States Using Ensemble Model Averaging. (29 citations)
In her most recent research, the most cited papers focused on:
- Climate change
- Meteorology
- Global warming
Loretta J. Mickley mostly deals with Air quality index, Gradient boosting, Statistics, Ensemble forecasting and Atmospheric sciences.
Her Air quality index study incorporates themes from Climate model, Mineral dust, Particulates, Physical geography and Arid.
Loretta J. Mickley incorporates a variety of subjects into her writings, including Gradient boosting, Artificial neural network, Generalized additive model, Estimation, Air pollution and Elevation.
In the subject of general Statistics, her work in Standard deviation and Contrast is often linked to Geographic difference, thereby combining diverse domains of study.
Her Atmospheric sciences research is multidisciplinary, incorporating perspectives in Lightning, Emission inventory and Ozone.
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