The land surface models that provide surface fluxes of energy and mass to the atmosphere
in weather forecast and climate models typically represent plant canopies as a homogenous …

Tropospheric concentrations of phytotoxic ozone (O3) have undergone a great increase
from preindustrial 10–15 ppbv to a present-day concentration of 35–40 ppbv in large parts of …

The Amazon Basin is at the center of an intensifying discourse about deforestation, land-
use, and global change. To date, climate research in the Basin has overwhelmingly focused …

Surface ozone (O3) pollution poses significant threats to crop production and food security
worldwide, but an assessment of present-day and future crop yield losses due to exposure …

A new configuration of the Community Earth System Model (CESM)/Community Atmosphere
Model with full chemistry (CAM‐chem) supporting the capability of horizontal mesh …

Ozone (O3) is a damaging air pollutant to crops. As one of the most reactive oxidants known,
O3 rapidly forms other reactive oxygen species (ROS) once it enters leaves through stomata …

Tropospheric ozone (O 3) is among the most damaging air pollutant to plants. Plants alter
the atmospheric O 3 concentration in two distinct ways:(i) by the emission of volatile organic …

Machine learning methods are increasingly used in air quality studies to predict air pollution
levels, while few applied them to diagnose and improve the underlying mechanisms …

Carbonyl compounds are ubiquitous in the troposphere, yet their contributions to ambient
ozone (O 3) formation have rarely been quantified in China. To better understand their roles …

Climate change has the potential to increase surface ozone (O 3) concentrations, known as
the “ozone–climate penalty”, through changes to atmospheric chemistry, transport and dry …