Estimating Relative Contribution of Autotrophic Respiration to Soil Respiration in Permafrost Region of Alaska, Using 13 C Pulse Labeling Method Akira L. Yoshikawa, Masako Dannora, Koh Yasue, Tetsuou Shirota, Kenshi Takahashi, Tomoaki Morishita, Tomohiro Saito, Ryohei Yamamoto, Yojiro Matsuura, Kyotaro Noguchi, Christian Hossann, Roger W. Ruess
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Estimating Relative Contribution of Autotrophic Respiration to Soil Respiration … · 2019-07-02 · Conclusion • We observed changes in the proportion of R a and Rh in soil respiration
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Estimating Relative Contribution of Autotrophic Respiration to Soil Respiration in Permafrost Region of Alaska,
Using 13C Pulse Labeling Method
Akira L. Yoshikawa, Masako Dannora, Koh Yasue, Tetsuou Shirota, Kenshi Takahashi, Tomoaki Morishita, Tomohiro Saito, Ryohei Yamamoto, Yojiro Matsuura,Kyotaro Noguchi, Christian Hossann, Roger W. Ruess
“For the past 20 years, temperatures above freezing in February have only been recorded three times -- first in 2011, then in 2017 and now, [2018].”
On Greenland and Central Arctic
“Alaska, for first time in modern records, had a spring average temperature of 0°C.”
On temperature of March-May 2016
Climate Change in Circumpolar Region
• Changing climate is likely to dramatically change the below ground environment in permafrost region (Schuur et al. 2015).
• This is expected to influence tree phenology, plant below ground C allocation pattern, as well as activities of soil microbial community (Hicks Pries et al. 2013).
• These activities determine CO2 efflux from boreal forest floor which is crucial for climate modeling. Thus, properly understanding how soil respiration and its components respond to the environment is important.
Cl imate Change in Circumpolar Region
Soil Respiration
Soil Respiration: Rs Pump CO2 analyzer Gas sampler
May: 6-9 days after labeling July: 4-8 days after labeling Sept: 9 days or more after labeling (has not reached a peak)
13C Label Recovery: Soi l Chamber (Rs)
Days after labeling
• 13C label increased with time, and spread further
• 𝛿13C from Rs showed large variation between chambers
Labeled photosynthetic assimilates are transported further with time
Spatial heterogeneity in distribution of roots from labeled tree
Relative Contribution of Autotrophic Respiration to Soil Respiration Ra/Rs
𝛿s : 𝛿13C of soil Rs
𝛿a : Average 𝛿13C from 3 isolated root chamber
𝛿h : Average 𝛿13C of Rs prior to labeling
Ra/Rs of each chamber with average value denoted by large circles
Relative Contribution of Autotrophic Respiration to Soil Respiration Ra/Rs
Within 1m from tree May July Sept
Median Ra/Rs. (%) 2.5% 21.6% 6.8%
Max Ra/Rs (%) 16.0% ≥100% 46.9%
Average temperature during samplingOrganic moss
layer2.3˚C 7.6˚C 3.0˚C
Mineral Layer 11.5cm depth
0.2˚C 3.6˚C 2.9˚C
Summary of Results
• July had the highest Rs and the highest Ra/Rs.
• Ra/Rs was higher in September than in May, even though Rs and organic layer temperature were similar.
• This may be due to near 0˚C temperature in May at mineral layer affecting root physiological conditions and metabolism.
• There was a large spatial heterogeneity among sampled chambers for Ra/Rs and 13C label recovery.
Conclusion
• We observed changes in the proportion of Ra and Rh in soil respiration between three seasons.
• Strong spatial heterogeneity was observed in the estimated Ra/Rs, which needs to be addressed in future studies.
• By using 13C pulse labeling method, we can partition Ra and Rh, and observe seasonal differences among them.
• Because Ra and Rh is dictated by separate biological processes and can be affected differently by phenology, it is important to consider seasonal changes in order to understand CO2 efflux from boreal forest floor.
Acknowledgements
The research in this presentation was made possible with funding from Exploratory Research on Humanosphere Science and
KAKENHI: Grant-inAid for Scientific Research.
We wish to express our gratitude to Jamie Hollingsworth, Daniel Epron, Nicolas Angeli, Caroline Plain, Tomoko Tanabe,
Yudong Shen, Satoko Otake and Jay Jones for their support on this research