Role of the Terrestrial Biosphere in Atmospheric Chemistry and Climate
Abstract
The terrestrial biosphere–atmosphere interface provides a key chemical, biological, and physical lower boundary for the atmosphere. The presence of vegetation itself modifies the physical boundary, or the biogeophysical aspects of the system, by controlling important climate drivers such as soil moisture, light environment, and temperature. The leaf surface area of the terrestrial biosphere provides additional surface area for emissions, and it can be up to 55% of the total Earth’s surface area during the boreal summer. Vegetation also influences the biogeochemical aspects of the system by emitting a broad suite of reactive trace gases such as biogenic volatile organic compound (BVOC) emissions and climate-relevant primary biological aerosol particles (PBAP). Many of these emissions are a function of meteorological and climatological conditions at the surface, including temperature, light environment, soil moisture, and winds. Once emitted, they can be processed in the troposphere through a suite of chemical reactions. BVOC can contribute to the formation of ozone and secondary organic aerosols (SOA), and PBAP can rupture to form smaller particles with climatic relevance. These emissions and subsequent aerosol products can influence atmospheric processes that affect the surface climate, such as the attenuation of radiation, the formation of greenhouse gases such as ozonemore »
- Publication Date:
- Research Org.:
- Univ. of Michigan, Ann Arbor, MI (United States)
- Sponsoring Org.:
- USDOE Office of Science (SC), Biological and Environmental Research (BER); USDOE Office of Science (SC), Biological and Environmental Research (BER). Earth and Environmental Systems Science Division; National Science Foundation (NSF); National Oceanic and Atmospheric Administration (NOAA)
- OSTI Identifier:
- 1638454
- Alternate Identifier(s):
- OSTI ID: 1657517
- Grant/Contract Number:
- SC0019084
- Resource Type:
- Accepted Manuscript
- Journal Name:
- Accounts of Chemical Research
- Additional Journal Information:
- Journal Volume: 53; Journal Issue: 7; Journal ID: ISSN 0001-4842
- Publisher:
- American Chemical Society
- Country of Publication:
- United States
- Language:
- English
- Subject:
- 58 GEOSCIENCES; soils; moisture; aerosols; environmental modeling; light; 54 ENVIRONMENTAL SCIENCES; 59 BASIC BIOLOGICAL SCIENCES; 37 INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
Citation Formats
Steiner, Allison L. Role of the Terrestrial Biosphere in Atmospheric Chemistry and Climate. United States: N. p., 2020.
Web. doi:10.1021/acs.accounts.0c00116.
Steiner, Allison L. Role of the Terrestrial Biosphere in Atmospheric Chemistry and Climate. United States. https://doi.org/10.1021/acs.accounts.0c00116
Steiner, Allison L. Fri .
"Role of the Terrestrial Biosphere in Atmospheric Chemistry and Climate". United States. https://doi.org/10.1021/acs.accounts.0c00116. https://www.osti.gov/servlets/purl/1638454.
@article{osti_1638454,
title = {Role of the Terrestrial Biosphere in Atmospheric Chemistry and Climate},
author = {Steiner, Allison L.},
abstractNote = {The terrestrial biosphere–atmosphere interface provides a key chemical, biological, and physical lower boundary for the atmosphere. The presence of vegetation itself modifies the physical boundary, or the biogeophysical aspects of the system, by controlling important climate drivers such as soil moisture, light environment, and temperature. The leaf surface area of the terrestrial biosphere provides additional surface area for emissions, and it can be up to 55% of the total Earth’s surface area during the boreal summer. Vegetation also influences the biogeochemical aspects of the system by emitting a broad suite of reactive trace gases such as biogenic volatile organic compound (BVOC) emissions and climate-relevant primary biological aerosol particles (PBAP). Many of these emissions are a function of meteorological and climatological conditions at the surface, including temperature, light environment, soil moisture, and winds. Once emitted, they can be processed in the troposphere through a suite of chemical reactions. BVOC can contribute to the formation of ozone and secondary organic aerosols (SOA), and PBAP can rupture to form smaller particles with climatic relevance. These emissions and subsequent aerosol products can influence atmospheric processes that affect the surface climate, such as the attenuation of radiation, the formation of greenhouse gases such as ozone that can feedback to surface air temperature, and the alteration of clouds and subsequent precipitation. These atmospheric changes can then feedback to the land surface and emissions themselves, creating positive or negative feedback loops that can dampen or amplify the emission response. For the dominant BVOC isoprene, the feedback response to temperature can be positive or negative depending on ambient temperatures that drive isoprene emissions. The feedback response to soil moisture and precipitation can be positive, negative, or uncoupled depending on the moisture content of the soil and the total atmospheric aerosol loading. For light, the isoprene response can be positive or negative depending on the role of diffuse light. Overall, these feedbacks highlight the dynamical response of the biosphere to changing atmospheric conditions across a range of time scales, from minutes for trace gases and aerosols, to months for phenological changes, to years for land cover and land use change. Here, the dynamic aspect of this system requires us to understand, simulate, and predict the complex feedbacks between the biosphere and atmosphere and understand their role in the simulation and understanding of climate and global change. From the observational perspective, these feedbacks are challenging to identify in observations, and predictive modeling tools provide a crucial link for understanding how these feedbacks will change under warming climate scenarios.},
doi = {10.1021/acs.accounts.0c00116},
journal = {Accounts of Chemical Research},
number = 7,
volume = 53,
place = {United States},
year = {Fri Jun 26 00:00:00 EDT 2020},
month = {Fri Jun 26 00:00:00 EDT 2020}
}
Free Publicly Available Full Text
Publisher's Version of Record
Other availability
Search WorldCat to find libraries that may hold this journal
Cited by: 7 works
Citation information provided by
Web of Science
Web of Science
Save to My Library
You must Sign In or Create an Account in order to save documents to your library.
Works referenced in this record:
Land–Atmosphere Interactions: The LoCo Perspective
journal, June 2018
- Santanello, Joseph A.; Dirmeyer, Paul A.; Ferguson, Craig R.
- Bulletin of the American Meteorological Society, Vol. 99, Issue 6
Surface and Atmospheric Controls on the Onset of Moist Convection over Land
journal, October 2013
- Gentine, Pierre; Holtslag, Albert A. M.; D'Andrea, Fabio
- Journal of Hydrometeorology, Vol. 14, Issue 5
Dry Deposition of Ozone Over Land: Processes, Measurement, and Modeling
journal, March 2020
- Clifton, Olivia E.; Fiore, Arlene M.; Massman, William J.
- Reviews of Geophysics, Vol. 58, Issue 1
Biogenic Isoprene (A Review)
journal, November 2004
- Sanadze, G. A.
- Russian Journal of Plant Physiology, Vol. 51, Issue 6
Isoprene: identified as a forest-type emission to the atmosphere
journal, August 1970
- Rasmussen, Reinhold A.
- Environmental Science & Technology, Vol. 4, Issue 8
A national inventory of biogenic hydrocarbon emissions
journal, January 1987
- Lamb, Brian; Guenther, Alex; Gay, David
- Atmospheric Environment (1967), Vol. 21, Issue 8
The Model of Emissions of Gases and Aerosols from Nature version 2.1 (MEGAN2.1): an extended and updated framework for modeling biogenic emissions
journal, January 2012
- Guenther, A. B.; Jiang, X.; Heald, C. L.
- Geoscientific Model Development, Vol. 5, Issue 6
Gas-phase tropospheric chemistry of biogenic volatile organic compounds: a review
journal, January 2003
- Atkinson, Roger; Arey, Janet
- Atmospheric Environment, Vol. 37
Why are estimates of global terrestrial isoprene emissions so similar (and why is this not so for monoterpenes)?
journal, January 2008
- Arneth, A.; Monson, R. K.; Schurgers, G.
- Atmospheric Chemistry and Physics, Vol. 8, Issue 16
Isoprene and monoterpene emission rate variability: Model evaluations and sensitivity analyses
journal, January 1993
- Guenther, Alex B.; Zimmerman, Patrick R.; Harley, Peter C.
- Journal of Geophysical Research, Vol. 98, Issue D7
Estimates of global terrestrial isoprene emissions using MEGAN (Model of Emissions of Gases and Aerosols from Nature)
journal, January 2006
- Guenther, A.; Karl, T.; Harley, P.
- Atmospheric Chemistry and Physics, Vol. 6, Issue 11
Isoprene research - 60 years later, the biology is still enigmatic: Isoprene research
journal, March 2017
- Sharkey, Thomas D.; Monson, Russell K.
- Plant, Cell & Environment, Vol. 40, Issue 9
Isoprene Responses and Functions in Plants Challenged by Environmental Pressures Associated to Climate Change
journal, July 2017
- Fini, Alessio; Brunetti, Cecilia; Loreto, Francesco
- Frontiers in Plant Science, Vol. 8
Quantifying the contribution of environmental factors to isoprene flux interannual variability
journal, July 2012
- Tawfik, Ahmed B.; Stöckli, Reto; Goldstein, Allen
- Atmospheric Environment, Vol. 54
A proposed physical mechanism for ozone-meteorology correlations using land–atmosphere coupling regimes
journal, June 2013
- Tawfik, Ahmed B.; Steiner, Allison L.
- Atmospheric Environment, Vol. 72
Models and observations of the impact of natural hydrocarbons on rural ozone
journal, October 1987
- Trainer, M.; Williams, E. J.; Parrish, D. D.
- Nature, Vol. 329, Issue 6141
The role of biogenic hydrocarbons in urban photochemical smog: Atlanta as a case study
journal, September 1988
- Chameides, W.; Lindsay, R.; Richardson, J.
- Science, Vol. 241, Issue 4872
Primary biological aerosol particles in the atmosphere: a review
journal, January 2012
- Després, VivianeR.; Huffman, J. Alex; Burrows, Susannah M.
- Tellus B: Chemical and Physical Meteorology, Vol. 64, Issue 1
The Roots of Plant-Microbe Collaborations
journal, April 2004
- Marx, J.
- Science, Vol. 304, Issue 5668
Atmospheric budget of primary biological aerosol particles from fungal spores
journal, January 2009
- Heald, Colette L.; Spracklen, Dominick V.
- Geophysical Research Letters, Vol. 36, Issue 9
A prognostic pollen emissions model for climate models (PECM1.0)
journal, January 2017
- Wozniak, Matthew C.; Steiner, Allison L.
- Geoscientific Model Development, Vol. 10, Issue 11
Mechanism of grass-pollen-induced asthma
journal, March 1992
- Suphioglu, C.; Singh, M. B.; Taylor, P.
- The Lancet, Vol. 339, Issue 8793
Release of allergens as respirable aerosols: A link between grass pollen and asthma
journal, January 2002
- Taylor, Philip E.; Flagan, Richard C.; Valenta, Rudolf
- Journal of Allergy and Clinical Immunology, Vol. 109, Issue 1
Characterization of Atmospheric Pollen Fragments during Springtime Thunderstorms
journal, May 2020
- Hughes, Dagen D.; Mampage, Chamari B. A.; Jones, Lillian M.
- Environmental Science & Technology Letters, Vol. 7, Issue 6
Rupturing of Biological Spores As a Source of Secondary Particles in Amazonia
journal, October 2016
- China, Swarup; Wang, Bingbing; Weis, Johannes
- Environmental Science & Technology, Vol. 50, Issue 22
Atmospheric fungal nanoparticle bursts
journal, January 2020
- Lawler, Michael J.; Draper, Danielle C.; Smith, James N.
- Science Advances, Vol. 6, Issue 3
Aerosol formation in the photooxidation of isoprene and β-pinene
journal, January 1991
- Pandis, Spyros N.; Paulson, Suzanne E.; Seinfeld, John H.
- Atmospheric Environment. Part A. General Topics, Vol. 25, Issue 5-6
Formation of Secondary Organic Aerosols Through Photooxidation of Isoprene
journal, February 2004
- Claeys, M.
- Science, Vol. 303, Issue 5661
Recent advances in understanding secondary organic aerosol: Implications for global climate forcing: Advances in Secondary Organic Aerosol
journal, June 2017
- Shrivastava, Manish; Cappa, Christopher D.; Fan, Jiwen
- Reviews of Geophysics, Vol. 55, Issue 2
Gas-Phase Reactions of Isoprene and Its Major Oxidation Products
journal, February 2018
- Wennberg, Paul O.; Bates, Kelvin H.; Crounse, John D.
- Chemical Reviews, Vol. 118, Issue 7
Secondary organic aerosol formation from isoprene photooxidation under high-NO x conditions : SOA FORMATION FROM ISOPRENE OXIDATION
journal, September 2005
- Kroll, Jesse H.; Ng, Nga L.; Murphy, Shane M.
- Geophysical Research Letters, Vol. 32, Issue 18
Effect of Acidity on Secondary Organic Aerosol Formation from Isoprene
journal, August 2007
- Surratt, Jason D.; Lewandowski, Michael; Offenberg, John H.
- Environmental Science & Technology, Vol. 41, Issue 15
Evidence for Organosulfates in Secondary Organic Aerosol
journal, January 2007
- Surratt, Jason D.; Kroll, Jesse H.; Kleindienst, Tadeusz E.
- Environmental Science & Technology, Vol. 41, Issue 2
Estimate of global atmospheric organic aerosol from oxidation of biogenic hydrocarbons
journal, September 1999
- Griffin, Robert J.; Cocker, David R.; Seinfeld, John H.
- Geophysical Research Letters, Vol. 26, Issue 17
Coupled Partitioning, Dilution, and Chemical Aging of Semivolatile Organics
journal, April 2006
- Donahue, N. M.; Robinson, A. L.; Stanier, C. O.
- Environmental Science & Technology, Vol. 40, Issue 8
An evaluation of global organic aerosol schemes using airborne observations
journal, January 2020
- Pai, Sidhant J.; Heald, Colette L.; Pierce, Jeffrey R.
- Atmospheric Chemistry and Physics, Vol. 20, Issue 5
How important is biological ice nucleation in clouds on a global scale?
journal, April 2010
- Hoose, C.; Kristjánsson, J. E.; Burrows, S. M.
- Environmental Research Letters, Vol. 5, Issue 2
Pollen Rupture and Its Impact on Precipitation in Clean Continental Conditions
journal, July 2018
- Wozniak, M. C.; Solmon, F.; Steiner, A. L.
- Geophysical Research Letters, Vol. 45, Issue 14
Biological aerosol particles as a key determinant of ice nuclei populations in a forest ecosystem: BIOLOGICAL ICE NUCLEI IN FOREST
journal, September 2013
- Tobo, Yutaka; Prenni, Anthony J.; DeMott, Paul J.
- Journal of Geophysical Research: Atmospheres, Vol. 118, Issue 17
Simulating the influence of primary biological aerosol particles on clouds by heterogeneous ice nucleation
journal, January 2018
- Hummel, Matthias; Hoose, Corinna; Pummer, Bernhard
- Atmospheric Chemistry and Physics, Vol. 18, Issue 20
Large contribution of natural aerosols to uncertainty in indirect forcing
journal, November 2013
- Carslaw, K. S.; Lee, L. A.; Reddington, C. L.
- Nature, Vol. 503, Issue 7474
Observed suppression of ozone formation at extremely high temperatures due to chemical and biophysical feedbacks
journal, November 2010
- Steiner, A. L.; Davis, A. J.; Sillman, S.
- Proceedings of the National Academy of Sciences, Vol. 107, Issue 46
Impact of increasing heat waves on U.S. ozone episodes in the 2050s: Results from a multimodel analysis using extreme value theory: Predict Future Ozone Episodes
journal, April 2016
- Shen, L.; Mickley, L. J.; Gilleland, E.
- Geophysical Research Letters, Vol. 43, Issue 8
Effect of drought on isoprene emission rates from leaves of Quercus virginiana Mill.
journal, November 2004
- Pegoraro, E.; Rey, A.; Greenberg, J.
- Atmospheric Environment, Vol. 38, Issue 36
Observing Severe Drought Influences on Ozone Air Pollution in California
journal, April 2019
- Demetillo, Mary Angelique G.; Anderson, Jaime F.; Geddes, Jeffrey A.
- Environmental Science & Technology, Vol. 53, Issue 9
Bioprecipitation: a feedback cycle linking Earth history, ecosystem dynamics and land use through biological ice nucleators in the atmosphere
journal, November 2013
- Morris, Cindy E.; Conen, Franz; Alex Huffman, J.
- Global Change Biology, Vol. 20, Issue 2
High Climate Sensitivity in the Community Earth System Model Version 2 (CESM2)
journal, July 2019
- Gettelman, A.; Hannay, C.; Bacmeister, J. T.
- Geophysical Research Letters, Vol. 46, Issue 14
Response of a Deciduous Forest to the Mount Pinatubo Eruption: Enhanced Photosynthesis
journal, March 2003
- Gu, L.
- Science, Vol. 299, Issue 5615
Effects of diffuse radiation on canopy gas exchange processes in a forest ecosystem: DIFFUSE RADIATION EFFECTS IN FOREST
journal, May 2008
- Knohl, Alexander; Baldocchi, Dennis D.
- Journal of Geophysical Research: Biogeosciences, Vol. 113, Issue G2
Enhanced global primary production by biogenic aerosol via diffuse radiation fertilization
journal, August 2018
- Rap, A.; Scott, C. E.; Reddington, C. L.
- Nature Geoscience, Vol. 11, Issue 9
Direct retrieval of isoprene from satellite-based infrared measurements
journal, August 2019
- Fu, Dejian; Millet, Dylan B.; Wells, Kelley C.
- Nature Communications, Vol. 10, Issue 1
Author Correction: ISS observations offer insights into plant function
journal, September 2017
- Stavros, E. Natasha; Schimel, David; Pavlick, Ryan
- Nature Ecology & Evolution, Vol. 1, Issue 10
Occurrence and persistence of future atmospheric stagnation events
journal, June 2014
- Horton, Daniel E.; Skinner, Christopher B.; Singh, Deepti
- Nature Climate Change, Vol. 4, Issue 8