Add to ORKG[1] We assess the impact of transport of pollution from midlatitudes on the abundance of ozone in the Arctic in summer 2006 using the GEOS-Chem global chemical transport model and its adjoint. We find that although the impact of midlatitude emissions on ozone abundances in the Arctic is at a maximum in fall and winter, in July transport from North America, Asia, and Europe together contributed about 25% of surface ozone abundances in the Arctic. Throughout the summer, the dominant source of ozone in the Arctic troposphere was photochemical production within the Arctic, which accounted for more than 50% of the ozone in the Arctic boundary layer and as much as 30%-40% of the ozone in the middle troposphere. An adjoint sensitivity analysis of ...
Abstract. Local ozone production and loss rates for the arctic free troposphere (58–85 ◦ N, 1–6 km, ...
Given the rapid nature of climate change occurring in the Arctic and the difficulty for climate mode...
Understanding the spatiotemporal pattern of near-surface ozone is the key part of polar atmospheric ...
Ozone pollution transported to the Arctic is a significant concern because of the rapid, enhanced wa...
Ozone pollution transported to the Arctic is a significant concern because of the rapid, enhanced wa...
We quantify the tropospheric ozone budget over remote high northern latitudes in summer using chemic...
International audienceChanges in abundances of short-lived climate pollutants such as tropospheric o...
Local ozone production and loss rates for the arctic free troposphere (58-85° N, 1-6 km, February-Ma...
We use aircraft observations obtained during the Arctic Research of the Composition of the Troposphe...
International audienceThe Arctic is influenced by air pollution transported from lower latitudes, an...
International audiencePOLARCAT provided a wealth of data on the concentrations and sources of short-...
Abstract. Local ozone production and loss rates for the arctic free troposphere (58–85 ◦ N, 1–6 km, ...
Given the rapid nature of climate change occurring in the Arctic and the difficulty for climate mode...
Understanding the spatiotemporal pattern of near-surface ozone is the key part of polar atmospheric ...
Ozone pollution transported to the Arctic is a significant concern because of the rapid, enhanced wa...
Ozone pollution transported to the Arctic is a significant concern because of the rapid, enhanced wa...
We quantify the tropospheric ozone budget over remote high northern latitudes in summer using chemic...
International audienceChanges in abundances of short-lived climate pollutants such as tropospheric o...
Local ozone production and loss rates for the arctic free troposphere (58-85° N, 1-6 km, February-Ma...
We use aircraft observations obtained during the Arctic Research of the Composition of the Troposphe...
International audienceThe Arctic is influenced by air pollution transported from lower latitudes, an...
International audiencePOLARCAT provided a wealth of data on the concentrations and sources of short-...
Abstract. Local ozone production and loss rates for the arctic free troposphere (58–85 ◦ N, 1–6 km, ...
Given the rapid nature of climate change occurring in the Arctic and the difficulty for climate mode...
Understanding the spatiotemporal pattern of near-surface ozone is the key part of polar atmospheric ...