Modeling CO2 emissions from boreal lakes in present and future
Julkaistu sarjassa
JYU dissertationsTekijät
Päivämäärä
2019Tekijänoikeudet
© The Author & University of Jyväskylä
In this work, carbon dioxide (CO2) dynamics in boreal lakes were studied using
vertical process-based coupled physical-biogeochemical lake models. Many lakes
in the boreal zone are at present supersaturated with the greenhouse gas CO2 and
emit it to the atmosphere. Transport of terrestrially produced organic carbon to
boreal lakes and its in-lake degradation is predicted to increase under the ongoing
climate change, and lakes may be even greater CO2 sources to the atmosphere in
the future.
Two process-based models of different complexity were developed for the simulation
of carbon cycling in lakes. The models are based on a one-dimensional
vertical lake model called MyLake, which simulates lake thermal conditions and
phosphorus-phytoplankton dynamics. The applications of each model to humic
boreal lakes were calibrated and validated with comprehensive measurements of
water column CO2 concentration. The performance of the simpler model was found
to be inadequate, partially because of the unusual behavior of the phytoplankton
community in the study lake, but the output of the more advanced model agreed
well with measurements. Further, the applicability of different parameterizations
for the gas exchange velocity for CO2 incorporated into the more advanced model
was assessed. None of the applied parameterizations resulted in an improved lake
model performance regarding water column CO2 concentration or air-water CO2
flux. The use of more sophisticated and possibly more correct gas exchange models,
on the contrary, led to difficulties in obtaining sufficient gain of CO2 in the
water column.
Impacts of warmer air temperature and climate-induced changes in stream inflow
on CO2 dynamics in a boreal lake between the periods 1980–2009 and 2070–2099
were assessed using projections for air temperature from recent-generation global
climate models with different radiative forcing scenarios and literature estimates
for changes in seasonal stream inflow volume. Also, the effects of additional increases
in the inflow concentrations of CO2 and dissolved organic carbon (DOC)
were compared. The results imply that CO2 concentrations in boreal lakes will be
elevated in future climate and, in consequence, the release of CO2 to the atmosphere
will further increase.
Keywords: lakes, gas exchange, carbon dioxide, modelling, biogeochemistry,
carbon cycling, climate change
...
Julkaisija
Jyväskylän yliopistoISBN
978-951-39-7777-1ISSN Hae Julkaisufoorumista
2489-9003Metadata
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- JYU Dissertations [748]
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