Post on 02-Apr-2022
Thomas Dirnböck, Environment Agency Austria
Round Table Session “Arctic and Alpine ecosystems in face of climate change”
Increased disturbances in mountain forests under climate change
EUROPE‘S FOREST CARBON SINK
© zhu difeng – Fotolia.com
Bellassen, V. & Luyssaert, S. (2014), Nature 506,153–155
Legacy
~ 10%
FOREST DISTURBANCES ARE ON THE RISE
3
Tomiczek et al. (2011)
Forest Damage between 1944-2010• Wind throw / snow
• Spruce bark beetle
© Uweltbundesamt
REDUCTION IN CARBON SINK STRENGTH
4
Kobler et al. (2015, European
Journal of Forest Research)
C – Pools [ha-1]
So
il134 t
Ro
ots
33 t
Ste
m153 t
Bra
nc
hN
eed
le30 t
C – Fluxes [ha-1y-1]
Litter 2.7 t
Litter >1.6 t
Photosyntheses
Respiration
Heterotrophic soil-
respiration 6.5 t
Root-respiration
∑ = Growth 2.9 t
∑ total 7.2 t - ∑ total 6.5 t = 0.7 t (NEP)
Leaching ?
C – Pools [ha-1]
So
il115 t
Ro
ots
22 t
Ste
m109 t
Bra
nc
hN
eed
le26 t
C -Fluxes [ha-1y-1]
Litter 2.2 t
Litter >1 t
Photosyntheses
Respiration
Heterotrophic soil-
respiration 5.9 t
Root-respiration
∑ = Growth 2.8 t
∑ total 6.0 t - ∑ total 5.9 t = 0.1 t (NEP)
Leaching ?
POST-DISTURBANCE EFFECT OF THE HERB LAYER
age 25
C-s
ink
age 6
C-s
ou
rce
age 3
C-s
ou
rce
Mature (age 115)
C-s
ink
Mic
rob
ialC
resp
irati
on
DOC-C < 0.05t
Zehetgruber et al. (2017, Plant and Soil)
NATIONAL PARK KALKALPEN, AUSTRIA
7© Erich Mayrhofer
© Roland Mayr
© Roland Mayr
© Franz Sieghartsleitner
© Robert Maybach
REGIONAL CARBON SINK IN THE NATIONAL PARK KALKALPEN
Understory effectCarbon sink between 2000
and 2015
Dirnböck et al. (2020, Landscape Ecology)
UNDERSTORY CONTRIBUTED 16-37% TO NET ECOSYSTEM
PRODUCTION AND UP TO 65% IN DISTURBED AREAS
NN – no understory
R – tree regeneration
H – herb/grass layer
HR – tree regeneration +
herb/grass layer
Dirnböck et al. (2020, Landscape Ecology)
WHILE DISTURBANCE WILL INCREASE C LOSS, TREE COMPOSITION
CHANGES MAY MITIGATE FURTHER CLIMATE CHANGE
Thom, Seidl et al. (2017, Ecological Monographs)
1
1
CONCLUSIONS
Climate change will accelerate forest disturbances causing a drop
in forest C sink strength in the future
Vital tree regeneration is crucial in reducing C loss after forest stand
replacement
The grass and herb layer developing in disturbance patches
substantially reduces ecosystem C loss
Long-term monitoring in combination with modelling and remote
sensing is an ideal setting to study such complex ecosystem
processes
© a
wpix
el.com
–F
oto
lia.c
om
© Stefan Smidt