BACKGROUND: Globally plants are the primary sink of atmospheric CO(2), but are also the major contributor of a large spectrum of atmospheric reactive hydrocarbons such as terpenes (e.g. isoprene) and other biogenic volatile organic compounds (BVOC). The prediction of plant carbon (C) uptake and atmospheric oxidation capacity are crucial to define the trajectory and consequences of global environmental changes. To achieve this, the biosynthesis of BVOC and the dynamics of C allocation and translocation in both plants and ecosystems are important. METHODOLOGY: We combined tunable diode laser absorption spectrometry (TDLAS) and proton transfer reaction mass spectrometry (PTR-MS) for studying isoprene biosynthesis and following C fluxes within ...
Volatile organic compounds (VOC) play important roles in atmospheric chemistry, plant ecology and ph...
Volatile organic compounds (VOC) play important roles in atmospheric chemistry, plant ecology and ph...
Understanding how plant carbon metabolism responds to environmental variables such as light is centr...
Globally plants are the primary sink of atmospheric CO(2), but are also the major contributor of a l...
Globally plants are the primary sink of atmospheric CO(2), but are also the major contributor of a l...
Background: Globally plants are the primary sink of atmospheric CO2, but are also the major contribu...
, but are also the major contributor of a large spectrum of atmospheric reactive hydrocarbons such a...
Biogenically released isoprene plays important roles in both tropospheric photochemistry and plant m...
Biogenically released isoprene plays important roles in both tropospheric photochemistry and plant m...
Biogenically released isoprene plays important roles in both tropospheric photochemistry and plant m...
Our understanding of biogenic volatile organic compound (BVOC) emissions improved substantially duri...
Our understanding of biogenic volatile organic compound (BVOC) emissions improved substantially duri...
C₁ metabolism in plants is known to be involved in photorespiration, nitrogen and amino acid metabol...
The plastidic 2-C-methyl-D-erythritol-4-phosphate (MEP) pathway is one of the most important pathway...
Plant studies using the short-lived isotope C-11 to label photosynthate via atmospheric carbon dioxi...
Volatile organic compounds (VOC) play important roles in atmospheric chemistry, plant ecology and ph...
Volatile organic compounds (VOC) play important roles in atmospheric chemistry, plant ecology and ph...
Understanding how plant carbon metabolism responds to environmental variables such as light is centr...
Globally plants are the primary sink of atmospheric CO(2), but are also the major contributor of a l...
Globally plants are the primary sink of atmospheric CO(2), but are also the major contributor of a l...
Background: Globally plants are the primary sink of atmospheric CO2, but are also the major contribu...
, but are also the major contributor of a large spectrum of atmospheric reactive hydrocarbons such a...
Biogenically released isoprene plays important roles in both tropospheric photochemistry and plant m...
Biogenically released isoprene plays important roles in both tropospheric photochemistry and plant m...
Biogenically released isoprene plays important roles in both tropospheric photochemistry and plant m...
Our understanding of biogenic volatile organic compound (BVOC) emissions improved substantially duri...
Our understanding of biogenic volatile organic compound (BVOC) emissions improved substantially duri...
C₁ metabolism in plants is known to be involved in photorespiration, nitrogen and amino acid metabol...
The plastidic 2-C-methyl-D-erythritol-4-phosphate (MEP) pathway is one of the most important pathway...
Plant studies using the short-lived isotope C-11 to label photosynthate via atmospheric carbon dioxi...
Volatile organic compounds (VOC) play important roles in atmospheric chemistry, plant ecology and ph...
Volatile organic compounds (VOC) play important roles in atmospheric chemistry, plant ecology and ph...
Understanding how plant carbon metabolism responds to environmental variables such as light is centr...