Tropical and Boreal Forest - Atmosphere Interactions: A Review

Paulo Artaxo; Hans Christen Hansson; Meinrat O. Andreae; Jaana Bäck; Eliane Gomes Alves; Henrique M.J. Barbosa; Frida Bender; Efstratios Bourtsoukidis; Samara Carbone; Jinshu Chi; Stefano Decesari; Viviane R. Després; Florian Ditas; Ekaterina Ezhova; Sandro Fuzzi; Niles J. Hasselquist; Jost Heintzenberg; Bruna A. Holanda; Alex Guenther; Hannele Hakola; Liine Heikkinen; Veli Matti Kerminen; Jenni Kontkanen; Radovan Krejci; Markku Kulmala; Jost V. Lavric; Gerrit De Leeuw; Katrianne Lehtipalo; Luiz Augusto T. Machado; Gordon McFiggans; Marco Aurelio M. Franco; Bruno Backes Meller; Fernando G. Morais; Claudia Mohr; William Morgan; Mats B. Nilsson; Matthias Peichl; Tuukka Petäjä; Maria Praß; Christopher Pöhlker; Mira L. Pöhlker; Ulrich Pöschl; Celso Von Randow; Ilona Riipinen; Janne Rinne; Luciana V. Rizzo; Daniel Rosenfeld; Maria A.F.Silva Dias; Larisa Sogacheva; Philip Stier; Erik Swietlicki; Matthias Sörgel; Peter Tunved; Aki Virkkula; Jian Wang; Bettina Weber; Ana Maria Yáñez-Serrano; Paul Zieger; Eugene Mikhailov; James N. Smith; Jürgen Kesselmeier

doi:10.16993/tellusb.34

Tropical and Boreal Forest - Atmosphere Interactions: A Review

Paulo Artaxo^*, Hans Christen Hansson, Meinrat O. Andreae, Jaana Bäck, Eliane Gomes Alves, Henrique M.J. Barbosa, Frida Bender, Efstratios Bourtsoukidis, Samara Carbone, Jinshu Chi, Stefano Decesari, Viviane R. Després, Florian Ditas, Ekaterina Ezhova, Sandro Fuzzi, Niles J. Hasselquist, Jost Heintzenberg, Bruna A. Holanda, Alex Guenther, Hannele HakolaLiine Heikkinen, Veli Matti Kerminen, Jenni Kontkanen, Radovan Krejci, Markku Kulmala, Jost V. Lavric, Gerrit De Leeuw, Katrianne Lehtipalo, Luiz Augusto T. Machado, Gordon McFiggans, Marco Aurelio M. Franco, Bruno Backes Meller, Fernando G. Morais, Claudia Mohr, William Morgan, Mats B. Nilsson, Matthias Peichl, Tuukka Petäjä, Maria Praß, Christopher Pöhlker, Mira L. Pöhlker, Ulrich Pöschl, Celso Von Randow, Ilona Riipinen, Janne Rinne, Luciana V. Rizzo, Daniel Rosenfeld, Maria A.F.Silva Dias, Larisa Sogacheva, Philip Stier, Erik Swietlicki, Matthias Sörgel, Peter Tunved, Aki Virkkula, Jian Wang, Bettina Weber, Ana Maria Yáñez-Serrano, Paul Zieger, Eugene Mikhailov, James N. Smith, Jürgen Kesselmeier

^*Corresponding author for this work

Fredy & Nadine Herrmann Institute of Earth Sciences

Research output: Contribution to journal › Article › peer-review

50 Scopus citations

Abstract

This review presents how the boreal and the tropical forests affect the atmosphere, its chemical composition, its function, and further how that affects the climate and, in return, the ecosystems through feedback processes. Observations from key tower sites standing out due to their long-term comprehensive observations: The Amazon Tall Tower Observatory in Central Amazonia, the Zotino Tall Tower Observatory in Siberia, and the Station to Measure Ecosystem-Atmosphere Relations at Hyytiäla in Finland. The review is complemented by short-term observations from networks and large experiments. The review discusses atmospheric chemistry observations, aerosol formation and processing, physiochemical aerosol, and cloud condensation nuclei properties and finds surprising similarities and important differences in the two ecosystems. The aerosol concentrations and chemistry are similar, particularly concerning the main chemical components, both dominated by an organic fraction, while the boreal ecosystem has generally higher concentrations of inorganics, due to higher influence of long-range transported air pollution. The emissions of biogenic volatile organic compounds are dominated by isoprene and monoterpene in the tropical and boreal regions, respectively, being the main precursors of the organic aerosol fraction. Observations and modeling studies show that climate change and deforestation affect the ecosystems such that the carbon and hydrological cycles in Amazonia are changing to carbon neutrality and affect precipitation downwind. In Africa, the tropical forests are so far maintaining their carbon sink. It is urgent to better understand the interaction between these major ecosystems, the atmosphere, and climate, which calls for more observation sites, providing long-term data on water, carbon, and other biogeochemical cycles. This is essential in finding a sustainable balance between forest preservation and reforestation versus a potential increase in food production and biofuels, which are critical in maintaining ecosystem services and global climate stability. Reducing global warming and deforestation is vital for tropical forests.

Original language	English
Pages (from-to)	24-163
Number of pages	140
Journal	Tellus, Series B: Chemical and Physical Meteorology
Volume	74
Issue number	1
DOIs	https://doi.org/10.16993/tellusb.34
State	Published - 2022

Bibliographical note

Publisher Copyright:
© 2022 The Author(s).

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Artaxo, P., Hansson, H. C., Andreae, M. O., Bäck, J., Alves, E. G., Barbosa, H. M. J., Bender, F., Bourtsoukidis, E., Carbone, S., Chi, J., Decesari, S., Després, V. R., Ditas, F., Ezhova, E., Fuzzi, S., Hasselquist, N. J., Heintzenberg, J., Holanda, B. A., Guenther, A., ... Kesselmeier, J. (2022). Tropical and Boreal Forest - Atmosphere Interactions: A Review. Tellus, Series B: Chemical and Physical Meteorology, 74(1), 24-163. https://doi.org/10.16993/tellusb.34

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abstract = "This review presents how the boreal and the tropical forests affect the atmosphere, its chemical composition, its function, and further how that affects the climate and, in return, the ecosystems through feedback processes. Observations from key tower sites standing out due to their long-term comprehensive observations: The Amazon Tall Tower Observatory in Central Amazonia, the Zotino Tall Tower Observatory in Siberia, and the Station to Measure Ecosystem-Atmosphere Relations at Hyyti{\"a}la in Finland. The review is complemented by short-term observations from networks and large experiments. The review discusses atmospheric chemistry observations, aerosol formation and processing, physiochemical aerosol, and cloud condensation nuclei properties and finds surprising similarities and important differences in the two ecosystems. The aerosol concentrations and chemistry are similar, particularly concerning the main chemical components, both dominated by an organic fraction, while the boreal ecosystem has generally higher concentrations of inorganics, due to higher influence of long-range transported air pollution. The emissions of biogenic volatile organic compounds are dominated by isoprene and monoterpene in the tropical and boreal regions, respectively, being the main precursors of the organic aerosol fraction. Observations and modeling studies show that climate change and deforestation affect the ecosystems such that the carbon and hydrological cycles in Amazonia are changing to carbon neutrality and affect precipitation downwind. In Africa, the tropical forests are so far maintaining their carbon sink. It is urgent to better understand the interaction between these major ecosystems, the atmosphere, and climate, which calls for more observation sites, providing long-term data on water, carbon, and other biogeochemical cycles. This is essential in finding a sustainable balance between forest preservation and reforestation versus a potential increase in food production and biofuels, which are critical in maintaining ecosystem services and global climate stability. Reducing global warming and deforestation is vital for tropical forests.",

author = "Paulo Artaxo and Hansson, {Hans Christen} and Andreae, {Meinrat O.} and Jaana B{\"a}ck and Alves, {Eliane Gomes} and Barbosa, {Henrique M.J.} and Frida Bender and Efstratios Bourtsoukidis and Samara Carbone and Jinshu Chi and Stefano Decesari and Despr{\'e}s, {Viviane R.} and Florian Ditas and Ekaterina Ezhova and Sandro Fuzzi and Hasselquist, {Niles J.} and Jost Heintzenberg and Holanda, {Bruna A.} and Alex Guenther and Hannele Hakola and Liine Heikkinen and Kerminen, {Veli Matti} and Jenni Kontkanen and Radovan Krejci and Markku Kulmala and Lavric, {Jost V.} and {De Leeuw}, Gerrit and Katrianne Lehtipalo and Machado, {Luiz Augusto T.} and Gordon McFiggans and Franco, {Marco Aurelio M.} and Meller, {Bruno Backes} and Morais, {Fernando G.} and Claudia Mohr and William Morgan and Nilsson, {Mats B.} and Matthias Peichl and Tuukka Pet{\"a}j{\"a} and Maria Pra{\ss} and Christopher P{\"o}hlker and P{\"o}hlker, {Mira L.} and Ulrich P{\"o}schl and {Von Randow}, Celso and Ilona Riipinen and Janne Rinne and Rizzo, {Luciana V.} and Daniel Rosenfeld and Dias, {Maria A.F.Silva} and Larisa Sogacheva and Philip Stier and Erik Swietlicki and Matthias S{\"o}rgel and Peter Tunved and Aki Virkkula and Jian Wang and Bettina Weber and Y{\'a}{\~n}ez-Serrano, {Ana Maria} and Paul Zieger and Eugene Mikhailov and Smith, {James N.} and J{\"u}rgen Kesselmeier",

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year = "2022",

doi = "10.16993/tellusb.34",

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volume = "74",

pages = "24--163",

journal = "Tellus, Series B: Chemical and Physical Meteorology",

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Artaxo, P, Hansson, HC, Andreae, MO, Bäck, J, Alves, EG, Barbosa, HMJ, Bender, F, Bourtsoukidis, E, Carbone, S, Chi, J, Decesari, S, Després, VR, Ditas, F, Ezhova, E, Fuzzi, S, Hasselquist, NJ, Heintzenberg, J, Holanda, BA, Guenther, A, Hakola, H, Heikkinen, L, Kerminen, VM, Kontkanen, J, Krejci, R, Kulmala, M, Lavric, JV, De Leeuw, G, Lehtipalo, K, Machado, LAT, McFiggans, G, Franco, MAM, Meller, BB, Morais, FG, Mohr, C, Morgan, W, Nilsson, MB, Peichl, M, Petäjä, T, Praß, M, Pöhlker, C, Pöhlker, ML, Pöschl, U, Von Randow, C, Riipinen, I, Rinne, J, Rizzo, LV, Rosenfeld, D, Dias, MAFS, Sogacheva, L, Stier, P, Swietlicki, E, Sörgel, M, Tunved, P, Virkkula, A, Wang, J, Weber, B, Yáñez-Serrano, AM, Zieger, P, Mikhailov, E, Smith, JN & Kesselmeier, J 2022, 'Tropical and Boreal Forest - Atmosphere Interactions: A Review', Tellus, Series B: Chemical and Physical Meteorology, vol. 74, no. 1, pp. 24-163. https://doi.org/10.16993/tellusb.34

TY - JOUR

T1 - Tropical and Boreal Forest - Atmosphere Interactions

T2 - A Review

AU - Artaxo, Paulo

AU - Hansson, Hans Christen

AU - Andreae, Meinrat O.

AU - Bäck, Jaana

AU - Alves, Eliane Gomes

AU - Barbosa, Henrique M.J.

AU - Bender, Frida

AU - Bourtsoukidis, Efstratios

AU - Carbone, Samara

AU - Chi, Jinshu

AU - Decesari, Stefano

AU - Després, Viviane R.

AU - Ditas, Florian

AU - Ezhova, Ekaterina

AU - Fuzzi, Sandro

AU - Hasselquist, Niles J.

AU - Heintzenberg, Jost

AU - Holanda, Bruna A.

AU - Guenther, Alex

AU - Hakola, Hannele

AU - Heikkinen, Liine

AU - Kerminen, Veli Matti

AU - Kontkanen, Jenni

AU - Krejci, Radovan

AU - Kulmala, Markku

AU - Lavric, Jost V.

AU - De Leeuw, Gerrit

AU - Lehtipalo, Katrianne

AU - Machado, Luiz Augusto T.

AU - McFiggans, Gordon

AU - Franco, Marco Aurelio M.

AU - Meller, Bruno Backes

AU - Morais, Fernando G.

AU - Mohr, Claudia

AU - Morgan, William

AU - Nilsson, Mats B.

AU - Peichl, Matthias

AU - Petäjä, Tuukka

AU - Praß, Maria

AU - Pöhlker, Christopher

AU - Pöhlker, Mira L.

AU - Pöschl, Ulrich

AU - Von Randow, Celso

AU - Riipinen, Ilona

AU - Rinne, Janne

AU - Rizzo, Luciana V.

AU - Rosenfeld, Daniel

AU - Dias, Maria A.F.Silva

AU - Sogacheva, Larisa

AU - Stier, Philip

AU - Swietlicki, Erik

AU - Sörgel, Matthias

AU - Tunved, Peter

AU - Virkkula, Aki

AU - Wang, Jian

AU - Weber, Bettina

AU - Yáñez-Serrano, Ana Maria

AU - Zieger, Paul

AU - Mikhailov, Eugene

AU - Smith, James N.

AU - Kesselmeier, Jürgen

PY - 2022

Y1 - 2022

N2 - This review presents how the boreal and the tropical forests affect the atmosphere, its chemical composition, its function, and further how that affects the climate and, in return, the ecosystems through feedback processes. Observations from key tower sites standing out due to their long-term comprehensive observations: The Amazon Tall Tower Observatory in Central Amazonia, the Zotino Tall Tower Observatory in Siberia, and the Station to Measure Ecosystem-Atmosphere Relations at Hyytiäla in Finland. The review is complemented by short-term observations from networks and large experiments. The review discusses atmospheric chemistry observations, aerosol formation and processing, physiochemical aerosol, and cloud condensation nuclei properties and finds surprising similarities and important differences in the two ecosystems. The aerosol concentrations and chemistry are similar, particularly concerning the main chemical components, both dominated by an organic fraction, while the boreal ecosystem has generally higher concentrations of inorganics, due to higher influence of long-range transported air pollution. The emissions of biogenic volatile organic compounds are dominated by isoprene and monoterpene in the tropical and boreal regions, respectively, being the main precursors of the organic aerosol fraction. Observations and modeling studies show that climate change and deforestation affect the ecosystems such that the carbon and hydrological cycles in Amazonia are changing to carbon neutrality and affect precipitation downwind. In Africa, the tropical forests are so far maintaining their carbon sink. It is urgent to better understand the interaction between these major ecosystems, the atmosphere, and climate, which calls for more observation sites, providing long-term data on water, carbon, and other biogeochemical cycles. This is essential in finding a sustainable balance between forest preservation and reforestation versus a potential increase in food production and biofuels, which are critical in maintaining ecosystem services and global climate stability. Reducing global warming and deforestation is vital for tropical forests.

AB - This review presents how the boreal and the tropical forests affect the atmosphere, its chemical composition, its function, and further how that affects the climate and, in return, the ecosystems through feedback processes. Observations from key tower sites standing out due to their long-term comprehensive observations: The Amazon Tall Tower Observatory in Central Amazonia, the Zotino Tall Tower Observatory in Siberia, and the Station to Measure Ecosystem-Atmosphere Relations at Hyytiäla in Finland. The review is complemented by short-term observations from networks and large experiments. The review discusses atmospheric chemistry observations, aerosol formation and processing, physiochemical aerosol, and cloud condensation nuclei properties and finds surprising similarities and important differences in the two ecosystems. The aerosol concentrations and chemistry are similar, particularly concerning the main chemical components, both dominated by an organic fraction, while the boreal ecosystem has generally higher concentrations of inorganics, due to higher influence of long-range transported air pollution. The emissions of biogenic volatile organic compounds are dominated by isoprene and monoterpene in the tropical and boreal regions, respectively, being the main precursors of the organic aerosol fraction. Observations and modeling studies show that climate change and deforestation affect the ecosystems such that the carbon and hydrological cycles in Amazonia are changing to carbon neutrality and affect precipitation downwind. In Africa, the tropical forests are so far maintaining their carbon sink. It is urgent to better understand the interaction between these major ecosystems, the atmosphere, and climate, which calls for more observation sites, providing long-term data on water, carbon, and other biogeochemical cycles. This is essential in finding a sustainable balance between forest preservation and reforestation versus a potential increase in food production and biofuels, which are critical in maintaining ecosystem services and global climate stability. Reducing global warming and deforestation is vital for tropical forests.

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VL - 74

SP - 24

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JO - Tellus, Series B: Chemical and Physical Meteorology

JF - Tellus, Series B: Chemical and Physical Meteorology

IS - 1

ER -

Tropical and Boreal Forest - Atmosphere Interactions: A Review

Abstract

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