Spring in the boreal environment: observations on pre- and post-melt energy and CO2 fluxes in two central Siberian ecosystems

A range of observations points towards earlier onset of spring in northern high latitudes. However, despite the profound effects this may have on vegetation–atmosphere exchange of carbon (NEE), vegetation–atmosphere physical coupling, or the location of the tundra–taiga interface, the number of stud...

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Main Authors: Arneth, Almut, Lloyd, Jon, Shibistova, Olga, Sogachev, Andrej, Kolle, Olaf
Format: Article in Journal/Newspaper
Language:unknown
Published: Boreal Environment Research Publishing Board 2006
Subjects:
taiga
Tundra
Siberia
Online Access:https://researchonline.jcu.edu.au/17954/1/Arneth_et_al_2006.pdf
id ftjamescook:oai:researchonline.jcu.edu.au:17954
record_format openpolar
spelling ftjamescook:oai:researchonline.jcu.edu.au:17954 2024-02-11T10:09:04+01:00 Spring in the boreal environment: observations on pre- and post-melt energy and CO2 fluxes in two central Siberian ecosystems Arneth, Almut Lloyd, Jon Shibistova, Olga Sogachev, Andrej Kolle, Olaf 2006-08 application/pdf https://researchonline.jcu.edu.au/17954/1/Arneth_et_al_2006.pdf unknown Boreal Environment Research Publishing Board http://www.borenv.net/BER/ber114.htm#311 https://researchonline.jcu.edu.au/17954/ https://researchonline.jcu.edu.au/17954/1/Arneth_et_al_2006.pdf Arneth, Almut, Lloyd, Jon, Shibistova, Olga, Sogachev, Andrej, and Kolle, Olaf (2006) Spring in the boreal environment: observations on pre- and post-melt energy and CO2 fluxes in two central Siberian ecosystems. Boreal Environmental Research, 11 (4). pp. 311-328. openpub Article PeerReviewed 2006 ftjamescook 2024-01-22T23:27:31Z A range of observations points towards earlier onset of spring in northern high latitudes. However, despite the profound effects this may have on vegetation–atmosphere exchange of carbon (NEE), vegetation–atmosphere physical coupling, or the location of the tundra–taiga interface, the number of studies that investigate winter–spring transition fluxes in contrasting northern vegetation types is limited. Here, we examine spring ecosystem–atmosphere energy and carbon exchange in a Siberian pine forest and mire. Divergent surface albedo before and during snow-melt resulted in daytime net radiation (Rn) above the forest exceeding Rn above the mire by up to 10 MJ m–2. Until stomata could open, absorbed radiation by the green pine canopy caused substantial daytime sensible heat fluxes (H > 10MJ m–2). H above the mire was very low, even negative (< –2 MJ m–2), during that same period. Physiological activity in both ecosystems responded rapidly to warming temperatures and snow-melt, which is essential for survival in Siberia with its very short summers. On days with above-zero temperatures, before melt was complete, low rates of forest photosynthesis (1–2 μmol m–2 s–1) were discernible. Forest and mire NEE became negative the same day, or shortly after, photosynthesis commenced. The mire lagged by about two weeks behind the forest and regained its full carbon uptake capacity at a slower rate. Our data provide empirical evidence for the importance the timing of spring and the relative proportion of forest vs. mire has for late winter/spring boundary-layer growth, and production and surface–atmosphere mixing of trace gases. Models that seek to investigate effects of increasingly earlier spring in high latitudes must correctly account for contrasting physical and biogeochemical ecosystem–atmosphere exchange in heterogeneous landscapes. Article in Journal/Newspaper taiga Tundra Siberia James Cook University, Australia: ResearchOnline@JCU
institution Open Polar
collection James Cook University, Australia: ResearchOnline@JCU
op_collection_id ftjamescook
language unknown
description A range of observations points towards earlier onset of spring in northern high latitudes. However, despite the profound effects this may have on vegetation–atmosphere exchange of carbon (NEE), vegetation–atmosphere physical coupling, or the location of the tundra–taiga interface, the number of studies that investigate winter–spring transition fluxes in contrasting northern vegetation types is limited. Here, we examine spring ecosystem–atmosphere energy and carbon exchange in a Siberian pine forest and mire. Divergent surface albedo before and during snow-melt resulted in daytime net radiation (Rn) above the forest exceeding Rn above the mire by up to 10 MJ m–2. Until stomata could open, absorbed radiation by the green pine canopy caused substantial daytime sensible heat fluxes (H > 10MJ m–2). H above the mire was very low, even negative (< –2 MJ m–2), during that same period. Physiological activity in both ecosystems responded rapidly to warming temperatures and snow-melt, which is essential for survival in Siberia with its very short summers. On days with above-zero temperatures, before melt was complete, low rates of forest photosynthesis (1–2 μmol m–2 s–1) were discernible. Forest and mire NEE became negative the same day, or shortly after, photosynthesis commenced. The mire lagged by about two weeks behind the forest and regained its full carbon uptake capacity at a slower rate. Our data provide empirical evidence for the importance the timing of spring and the relative proportion of forest vs. mire has for late winter/spring boundary-layer growth, and production and surface–atmosphere mixing of trace gases. Models that seek to investigate effects of increasingly earlier spring in high latitudes must correctly account for contrasting physical and biogeochemical ecosystem–atmosphere exchange in heterogeneous landscapes.
format Article in Journal/Newspaper
author Arneth, Almut
Lloyd, Jon
Shibistova, Olga
Sogachev, Andrej
Kolle, Olaf
spellingShingle Arneth, Almut
Lloyd, Jon
Shibistova, Olga
Sogachev, Andrej
Kolle, Olaf
Spring in the boreal environment: observations on pre- and post-melt energy and CO2 fluxes in two central Siberian ecosystems
author_facet Arneth, Almut
Lloyd, Jon
Shibistova, Olga
Sogachev, Andrej
Kolle, Olaf
author_sort Arneth, Almut
title Spring in the boreal environment: observations on pre- and post-melt energy and CO2 fluxes in two central Siberian ecosystems
title_short Spring in the boreal environment: observations on pre- and post-melt energy and CO2 fluxes in two central Siberian ecosystems
title_full Spring in the boreal environment: observations on pre- and post-melt energy and CO2 fluxes in two central Siberian ecosystems
title_fullStr Spring in the boreal environment: observations on pre- and post-melt energy and CO2 fluxes in two central Siberian ecosystems
title_full_unstemmed Spring in the boreal environment: observations on pre- and post-melt energy and CO2 fluxes in two central Siberian ecosystems
title_sort spring in the boreal environment: observations on pre- and post-melt energy and co2 fluxes in two central siberian ecosystems
publisher Boreal Environment Research Publishing Board
publishDate 2006
url https://researchonline.jcu.edu.au/17954/1/Arneth_et_al_2006.pdf
genre taiga
Tundra
Siberia
genre_facet taiga
Tundra
Siberia
op_relation http://www.borenv.net/BER/ber114.htm#311
https://researchonline.jcu.edu.au/17954/
https://researchonline.jcu.edu.au/17954/1/Arneth_et_al_2006.pdf
Arneth, Almut, Lloyd, Jon, Shibistova, Olga, Sogachev, Andrej, and Kolle, Olaf (2006) Spring in the boreal environment: observations on pre- and post-melt energy and CO2 fluxes in two central Siberian ecosystems. Boreal Environmental Research, 11 (4). pp. 311-328.
op_rights openpub
_version_ 1790608792400953344

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