Understory CO2, sensible heat, and latent heat fluxes in a black spruce forest in interior Alaska

•Eddy covariance was applied to estimate understory flux in a black spruce forest.•The understory contributed more than half of ecosystem CO2 and energy exchanges.•The understory was more vulnerable to extreme conditions than black spruce trees. An open black spruce forest, the most common ecosystem...

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Published inAgricultural and forest meteorology Vol. 214-215; pp. 80 - 90
Main Authors Ikawa, Hiroki, Nakai, Taro, Busey, Robert C., Kim, Yongwon, Kobayashi, Hideki, Nagai, Shin, Ueyama, Masahito, Saito, Kazuyuki, Nagano, Hirohiko, Suzuki, Rikie, Hinzman, Larry
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.12.2015
Subjects
Boreal forest
Canopies
Carbon cycle
Ecosystems
Energy balance
Enthalpy
Estimates
Fluxes
Forests
Latent heat
Productivity
Understory
INE, USA, Alaska
Carbon cycle
Energy balance
Boreal forest
Understory
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Abstract •Eddy covariance was applied to estimate understory flux in a black spruce forest.•The understory contributed more than half of ecosystem CO2 and energy exchanges.•The understory was more vulnerable to extreme conditions than black spruce trees. An open black spruce forest, the most common ecosystem in interior Alaska, is characterized by patchy canopy gaps where the forest understory is exposed. This study measured CO2, sensible heat, and latent heat fluxes with eddy covariance (EC) in one of those large canopy gaps, and estimated understory fluxes in a black spruce forest in 2011–2014. Then understory fluxes and ecosystem fluxes were compared. The understory fluxes during the snow-free seasons were determined by two approaches. The first approach determined understory fluxes as the fluxes from the canopy gap, assuming that fluxes under the canopy crown also had the same magnitude as the canopy gap fluxes. The second approach determined the understory fluxes by scaling canopy gap fluxes with a canopy gap fraction, assuming that only canopy gaps, which mostly constitutes the forest floor, contribute to fluxes. The true understory fluxes would be in between these two estimates. Overall, the understory accounted for 53% (39–66%), 61% (45–77%), 63% (45–80%), 73% (56–90%), and 79% (59–98%) of the total net ecosystem productivity (NEP), gross primary productivity (GPP), ecosystem respiration (RE), sensible heat flux (H), and latent heat flux (LE), respectively. The ratio of understory NEP (NEPU) to the ecosystem NEP (NEPE) and similarly calculated LEU/LEE during the daytime increased with vapor pressure deficit (VPD) at low VPD conditions (∼2000Pa) at half-hourly temporal scale. At high VPD conditions, however, NEPU/NEPE decreased with VPD, whereas LEU/LEE was maintained at the high level even at high VPD conditions. Despite large ranges of the estimates for the understory contributions, we conclude that the understory plays an important role in the carbon and energy balances of the black spruce ecosystem, and their contribution highly depends on the level of VPD.
AbstractList An open black spruce forest, the most common ecosystem in interior Alaska, is characterized by patchy canopy gaps where the forest understory is exposed. This study measured CO2, sensible heat, and latent heat fluxes with eddy covariance (EC) in one of those large canopy gaps, and estimated understory fluxes in a black spruce forest in 2011-2014. Then understory fluxes and ecosystem fluxes were compared. The understory fluxes during the snow-free seasons were determined by two approaches. The first approach determined understory fluxes as the fluxes from the canopy gap, assuming that fluxes under the canopy crown also had the same magnitude as the canopy gap fluxes. The second approach determined the understory fluxes by scaling canopy gap fluxes with a canopy gap fraction, assuming that only canopy gaps, which mostly constitutes the forest floor, contribute to fluxes. The true understory fluxes would be in between these two estimates. Overall, the understory accounted for 53% (39-66%), 61% (45-77%), 63% (45-80%), 73% (56-90%), and 79% (59-98%) of the total net ecosystem productivity (NEP), gross primary productivity (GPP), ecosystem respiration (RE), sensible heat flux (H), and latent heat flux (LE), respectively. The ratio of understory NEP (NEPU) to the ecosystem NEP (NEPE) and similarly calculated LEU/LEE during the daytime increased with vapor pressure deficit (VPD) at low VPD conditions (2000Pa) at half-hourly temporal scale. At high VPD conditions, however, NEPU/NEPE decreased with VPD, whereas LEU/LEE was maintained at the high level even at high VPD conditions. Despite large ranges of the estimates for the understory contributions, we conclude that the understory plays an important role in the carbon and energy balances of the black spruce ecosystem, and their contribution highly depends on the level of VPD.
•Eddy covariance was applied to estimate understory flux in a black spruce forest.•The understory contributed more than half of ecosystem CO2 and energy exchanges.•The understory was more vulnerable to extreme conditions than black spruce trees. An open black spruce forest, the most common ecosystem in interior Alaska, is characterized by patchy canopy gaps where the forest understory is exposed. This study measured CO2, sensible heat, and latent heat fluxes with eddy covariance (EC) in one of those large canopy gaps, and estimated understory fluxes in a black spruce forest in 2011–2014. Then understory fluxes and ecosystem fluxes were compared. The understory fluxes during the snow-free seasons were determined by two approaches. The first approach determined understory fluxes as the fluxes from the canopy gap, assuming that fluxes under the canopy crown also had the same magnitude as the canopy gap fluxes. The second approach determined the understory fluxes by scaling canopy gap fluxes with a canopy gap fraction, assuming that only canopy gaps, which mostly constitutes the forest floor, contribute to fluxes. The true understory fluxes would be in between these two estimates. Overall, the understory accounted for 53% (39–66%), 61% (45–77%), 63% (45–80%), 73% (56–90%), and 79% (59–98%) of the total net ecosystem productivity (NEP), gross primary productivity (GPP), ecosystem respiration (RE), sensible heat flux (H), and latent heat flux (LE), respectively. The ratio of understory NEP (NEPU) to the ecosystem NEP (NEPE) and similarly calculated LEU/LEE during the daytime increased with vapor pressure deficit (VPD) at low VPD conditions (∼2000Pa) at half-hourly temporal scale. At high VPD conditions, however, NEPU/NEPE decreased with VPD, whereas LEU/LEE was maintained at the high level even at high VPD conditions. Despite large ranges of the estimates for the understory contributions, we conclude that the understory plays an important role in the carbon and energy balances of the black spruce ecosystem, and their contribution highly depends on the level of VPD.
Author Nagai, Shin
Suzuki, Rikie
Ikawa, Hiroki
Nakai, Taro
Ueyama, Masahito
Kobayashi, Hideki
Saito, Kazuyuki
Hinzman, Larry
Kim, Yongwon
Busey, Robert C.
Nagano, Hirohiko
Author_xml – sequence: 1
  givenname: Hiroki
  orcidid: 0000-0002-4984-8067
  surname: Ikawa
  fullname: Ikawa, Hiroki
  email: hikawa.biomet@gmail.com
  organization: International Arctic Research Center, University of Alaska Fairbanks, Fairbanks, AK 99775-7340, USA
– sequence: 2
  givenname: Taro
  surname: Nakai
  fullname: Nakai, Taro
  organization: International Arctic Research Center, University of Alaska Fairbanks, Fairbanks, AK 99775-7340, USA
– sequence: 3
  givenname: Robert C.
  surname: Busey
  fullname: Busey, Robert C.
  organization: International Arctic Research Center, University of Alaska Fairbanks, Fairbanks, AK 99775-7340, USA
– sequence: 4
  givenname: Yongwon
  surname: Kim
  fullname: Kim, Yongwon
  organization: International Arctic Research Center, University of Alaska Fairbanks, Fairbanks, AK 99775-7340, USA
– sequence: 5
  givenname: Hideki
  surname: Kobayashi
  fullname: Kobayashi, Hideki
  organization: Department of Environmental Geochemical Cycle Research, Japan Agency for Marine-Earth Science and Technology, Yokohama, Kanagawa 236-0001, Japan
– sequence: 6
  givenname: Shin
  surname: Nagai
  fullname: Nagai, Shin
  organization: Department of Environmental Geochemical Cycle Research, Japan Agency for Marine-Earth Science and Technology, Yokohama, Kanagawa 236-0001, Japan
– sequence: 7
  givenname: Masahito
  surname: Ueyama
  fullname: Ueyama, Masahito
  organization: Graduate School of Life and Environmental Sciences, Osaka Prefecture University, Sakai, Osaka 599-8531, Japan
– sequence: 8
  givenname: Kazuyuki
  surname: Saito
  fullname: Saito, Kazuyuki
  organization: Department of Integrated Climate Change Projection Research, Japan Agency for Marine-Earth Science and Technology, Yokohama, Kanagawa 236-0001, Japan
– sequence: 9
  givenname: Hirohiko
  surname: Nagano
  fullname: Nagano, Hirohiko
  organization: International Arctic Research Center, University of Alaska Fairbanks, Fairbanks, AK 99775-7340, USA
– sequence: 10
  givenname: Rikie
  surname: Suzuki
  fullname: Suzuki, Rikie
  organization: Department of Environmental Geochemical Cycle Research, Japan Agency for Marine-Earth Science and Technology, Yokohama, Kanagawa 236-0001, Japan
– sequence: 11
  givenname: Larry
  surname: Hinzman
  fullname: Hinzman, Larry
  organization: International Arctic Research Center, University of Alaska Fairbanks, Fairbanks, AK 99775-7340, USA
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Snippet •Eddy covariance was applied to estimate understory flux in a black spruce forest.•The understory contributed more than half of ecosystem CO2 and energy...
An open black spruce forest, the most common ecosystem in interior Alaska, is characterized by patchy canopy gaps where the forest understory is exposed. This...
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elsevier
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StartPage 80
SubjectTerms Boreal forest
Canopies
Carbon cycle
Ecosystems
Energy balance
Enthalpy
Estimates
Fluxes
Forests
Latent heat
Productivity
Understory
Title Understory CO2, sensible heat, and latent heat fluxes in a black spruce forest in interior Alaska
URI https://dx.doi.org/10.1016/j.agrformet.2015.08.247
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