Your search keyword '"Kleist E"' showing total 2 results

1. Atmospheric benzenoid emissions from plants rival those from fossil fuels.

Author

Misztal, PK, Hewitt, CN, Wildt, J, Blande, JD, Eller, ASD, Fares, S, Gentner, DR, Gilman, JB, Graus, M, Greenberg, J, Guenther, AB, Hansel, A, Harley, P, Huang, M, Jardine, K, Karl, T, Kaser, L, Keutsch, FN, Kiendler-Scharr, A, Kleist, E, Lerner, BM, Li, T, Mak, J, Nölscher, AC, Schnitzhofer, R, Sinha, V, Thornton, B, Warneke, C, Wegener, F, Werner, C, Williams, J, Worton, DR, Yassaa, N, and Goldstein, AH

Subjects

Trees, Benzene, Ecosystem, Fossil Fuels, Atmosphere, Climate, Stress, Physiological, Volatile Organic Compounds, Stress, Physiological, Biochemistry and Cell Biology, Other Physical Sciences

Abstract

Despite the known biochemical production of a range of aromatic compounds by plants and the presence of benzenoids in floral scents, the emissions of only a few benzenoid compounds have been reported from the biosphere to the atmosphere. Here, using evidence from measurements at aircraft, ecosystem, tree, branch and leaf scales, with complementary isotopic labeling experiments, we show that vegetation (leaves, flowers, and phytoplankton) emits a wide variety of benzenoid compounds to the atmosphere at substantial rates. Controlled environment experiments show that plants are able to alter their metabolism to produce and release many benzenoids under stress conditions. The functions of these compounds remain unclear but may be related to chemical communication and protection against stress. We estimate the total global secondary organic aerosol potential from biogenic benzenoids to be similar to that from anthropogenic benzenoids (~10 Tg y(-1)), pointing to the importance of these natural emissions in atmospheric physics and chemistry.

Published

2015

2. Atmospheric benzenoid emissions from plants rival those from fossil fuels

Author

Misztal, PK, Hewitt, CN, Wildt, J, Blande, JD, Eller, ASD, Fares, S, Gentner, DR, Gilman, JB, Graus, M, Greenberg, J, Guenther, AB, Hansel, A, Harley, P, Huang, M, Jardine, K, Karl, T, Kaser, L, Keutsch, FN, Kiendler-Scharr, A, Kleist, E, Lerner, BM, Li, T, Mak, J, Nölscher, AC, Schnitzhofer, R, Sinha, V, Thornton, B, Warneke, C, Wegener, F, Werner, C, Williams, J, Worton, DR, Yassaa, N, and Goldstein, AH

Subjects

Earth Sciences, Atmospheric Sciences, Ecology, Biological Sciences, Atmosphere, Benzene, Climate, Ecosystem, Fossil Fuels, Stress, Physiological, Trees, Volatile Organic Compounds

Abstract

Despite the known biochemical production of a range of aromatic compounds by plants and the presence of benzenoids in floral scents, the emissions of only a few benzenoid compounds have been reported from the biosphere to the atmosphere. Here, using evidence from measurements at aircraft, ecosystem, tree, branch and leaf scales, with complementary isotopic labeling experiments, we show that vegetation (leaves, flowers, and phytoplankton) emits a wide variety of benzenoid compounds to the atmosphere at substantial rates. Controlled environment experiments show that plants are able to alter their metabolism to produce and release many benzenoids under stress conditions. The functions of these compounds remain unclear but may be related to chemical communication and protection against stress. We estimate the total global secondary organic aerosol potential from biogenic benzenoids to be similar to that from anthropogenic benzenoids (~10 Tg y(-1)), pointing to the importance of these natural emissions in atmospheric physics and chemistry.

Published

2015