Add to ORKGIsoprene (Is) emissions by plants represent a loss of carbon and energy resources leading to the initial hypothesis that fast growing pioneer species in secondary tropical forests allocate carbon primarily to growth at the expense of isoprenoid defenses. In this study, we quantified leaf isoprene and methanol emissions from the abundant pantropical pioneer tree species Vismia guianensis and ambient isoprene concentrations above a diverse secondary forest in the central Amazon. As photosynthetically active radiation (PAR) was varied (0 to 3000μ2s-1) under standard leaf temperature (30°C), isoprene emissions from V. guianensis increased without saturation up to 80n2s-1. A nonlinear increase in isoprene emissions with respect to net photosynth...
Both plant physiology and atmospheric chemistry are substantially altered by the emission of volatil...
Tropical rainforests are an important source of isoprenoid and other volatile organic compound (VOC)...
Isoprene fluxes vary seasonally with changes in environmental factors (e.g., solar radiation and tem...
Abstract. Isoprene (Is) emissions by plants represent a loss of carbon and energy resources leading ...
Isoprene (Is) emissions by plants represent a loss of carbon and energy resources leading to the ini...
Isoprene (Is) emissions by plants represent a loss of carbon and energy resources leading to the in...
Volatile isoprenoids regulate plant performance and atmospheric processes, and Amazon forests compri...
Tropical forests absorb large amounts of atmospheric CO2 through photosynthesis, but high surface te...
Tropical forests are acknowledged to be the largest global source of isoprene (C5H8) and monoterpene...
Isoprene (C5H8) is a hydrocarbon gas emitted by many tree species and has been shown to protect phot...
Tropical forests are acknowledged to be the largest global source of isoprene (C5H8) and monoterpene...
As part of the Large Scale Biosphere-Atmosphere Experiment in Amazonia (LBA), we have developed a bo...
As part of the project LBA-EUSTACH (European Studies on Trace gases and Atmosphere Chemistry as a co...
Isoprene (C5H8) is a hydrocarbon gas emitted by many tree species and has been shown to protect phot...
As part of the project LBA-EUSTACH (European Studies on Trace gases and Atmosphere Chemistry as a co...
Both plant physiology and atmospheric chemistry are substantially altered by the emission of volatil...
Tropical rainforests are an important source of isoprenoid and other volatile organic compound (VOC)...
Isoprene fluxes vary seasonally with changes in environmental factors (e.g., solar radiation and tem...
Abstract. Isoprene (Is) emissions by plants represent a loss of carbon and energy resources leading ...
Isoprene (Is) emissions by plants represent a loss of carbon and energy resources leading to the ini...
Isoprene (Is) emissions by plants represent a loss of carbon and energy resources leading to the in...
Volatile isoprenoids regulate plant performance and atmospheric processes, and Amazon forests compri...
Tropical forests absorb large amounts of atmospheric CO2 through photosynthesis, but high surface te...
Tropical forests are acknowledged to be the largest global source of isoprene (C5H8) and monoterpene...
Isoprene (C5H8) is a hydrocarbon gas emitted by many tree species and has been shown to protect phot...
Tropical forests are acknowledged to be the largest global source of isoprene (C5H8) and monoterpene...
As part of the Large Scale Biosphere-Atmosphere Experiment in Amazonia (LBA), we have developed a bo...
As part of the project LBA-EUSTACH (European Studies on Trace gases and Atmosphere Chemistry as a co...
Isoprene (C5H8) is a hydrocarbon gas emitted by many tree species and has been shown to protect phot...
As part of the project LBA-EUSTACH (European Studies on Trace gases and Atmosphere Chemistry as a co...
Both plant physiology and atmospheric chemistry are substantially altered by the emission of volatil...
Tropical rainforests are an important source of isoprenoid and other volatile organic compound (VOC)...
Isoprene fluxes vary seasonally with changes in environmental factors (e.g., solar radiation and tem...