Simulations of future tropospheric composition often include substantial increases in biogenic isoprene emissions arising from the Arrhenius-like leaf emission response and warmer surface temperatures, and from enhanced vegetation productivity in response to temperature and atmospheric CO2 concentration. However, a number of recent laboratory and field data have suggested a direct inhibition of leaf isoprene production by increasing atmospheric CO2 concentration, notwithstanding isoprene being produced from precursor molecules that include some of the primary products of carbon assimilation. The cellular mechanism that underlies the decoupling of leaf photosynthesis and isoprene production still awaits a full explanation but accounting for ...
Isoprene, the most abundant hydrocarbon in the atmosphere, plays a significant role in atmospheric c...
Coupled surface–atmosphere models are being used with increased frequency to make predictions of tro...
Changing land-use and climate may alter emissions of biogenic isoprene, a key ozone (O3) precursor. ...
[1] Isoprene is the dominant volatile organic compound produced by the terrestrial biosphere and fun...
Over the 21st century, changes in CO2 levels, climate and land use are expected to alter the global ...
Isoprene is a~precursor to tropospheric ozone, a key pollutant and greenhouse gas. Anthropogenic act...
Isoprene is a highly reactive volatile organic compound emitted by vegetation, known to be a precurs...
International audienceIn recent years evidence has emerged that the amount of isoprene emitted from ...
Isoprene and its oxidation products are major players in the oxidative chemistry of the troposphere....
Isoprene is important in atmospheric chemistry, but its seasonal emission pattern – especially in th...
The inhibition of biogenic isoprene emission by elevated CO[subscript 2]2 as observed in many plant ...
We explore the potential role of atmospheric carbon dioxide (CO2) on isoprene emissions using a glob...
We explore the potential role of atmospheric carbon dioxide (CO2) on isoprene emissions using a glob...
Coupled surface-atmosphere models are being used with increased frequency to make predictions of tro...
In recent years evidence has emerged that atmospheric CO2 concentration has a direct effect on leaf ...
Isoprene, the most abundant hydrocarbon in the atmosphere, plays a significant role in atmospheric c...
Coupled surface–atmosphere models are being used with increased frequency to make predictions of tro...
Changing land-use and climate may alter emissions of biogenic isoprene, a key ozone (O3) precursor. ...
[1] Isoprene is the dominant volatile organic compound produced by the terrestrial biosphere and fun...
Over the 21st century, changes in CO2 levels, climate and land use are expected to alter the global ...
Isoprene is a~precursor to tropospheric ozone, a key pollutant and greenhouse gas. Anthropogenic act...
Isoprene is a highly reactive volatile organic compound emitted by vegetation, known to be a precurs...
International audienceIn recent years evidence has emerged that the amount of isoprene emitted from ...
Isoprene and its oxidation products are major players in the oxidative chemistry of the troposphere....
Isoprene is important in atmospheric chemistry, but its seasonal emission pattern – especially in th...
The inhibition of biogenic isoprene emission by elevated CO[subscript 2]2 as observed in many plant ...
We explore the potential role of atmospheric carbon dioxide (CO2) on isoprene emissions using a glob...
We explore the potential role of atmospheric carbon dioxide (CO2) on isoprene emissions using a glob...
Coupled surface-atmosphere models are being used with increased frequency to make predictions of tro...
In recent years evidence has emerged that atmospheric CO2 concentration has a direct effect on leaf ...
Isoprene, the most abundant hydrocarbon in the atmosphere, plays a significant role in atmospheric c...
Coupled surface–atmosphere models are being used with increased frequency to make predictions of tro...
Changing land-use and climate may alter emissions of biogenic isoprene, a key ozone (O3) precursor. ...