Modelling forest mortality risk€¦ · Forest adaptation is complex (c.f.agriculture at least)....
Transcript of Modelling forest mortality risk€¦ · Forest adaptation is complex (c.f.agriculture at least)....
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Modelling forest mortality riskMoving from landscape to forest; moving from description to action
CSIRO AGRICULTURE AND FOOD
Michael Battaglia| Group Leader Adaptation and Mitigation, Global Change Program1 March 2017
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Precision agriculture preceded precision forestry
• Precision agriculture was more a concept based on observing, measuring and responding to inter and intra‐field variability in crops
• Precision forestry more akin to smart agriculture – the use of modern technology to get as much real information as possible to implement decisions and monitor performance
• Fundamentally about shift from prescription forestry to data driven decisions
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Data driven decisions: desiderata
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Data DecisionReproducibleTransparentRobustReflexiveActionable
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Models can play an important link
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Data Model Decision
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Experimentation(Observe)
Knowledge capture(Transfer)
DSS(Analyze)
Priorities
Demonstration
ACT
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Technical knowledgeModels
RecommendationsGuidelines
Practical knowledgeExperience
Business constraintsRisk preference
Rules
ValuesEthicsCulture
Peers and family
Decision
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Technical knowledgeModels
RecommendationsGuidelines
Practical knowledgeExperience
Business constraintsRisk preference
Rules
ValuesEthics
Peers an family
Decision
Decisions about buying toasters
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Technical knowledgeModels
RecommendationsGuidelines
Practical knowledgeExperience
Business constraintsRisk preference
Rules
ValuesEthicsCulture
Peers and family
Decision
Decisions about who to marry
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We are all being asked to make decisions about an uncertain climate future: a case study
9 |
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Forest adaptation is complex (c.f. agriculture at least). Decisions need support• Trees are long‐lived, intervention points are few• Our understanding is poor and the system complex• In additional to incremental change, system has thresholds that result in step changes
• Adaptation must take place across the value chain• Landscape level connections• We are adapting while climate change is ‘being done to us’
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The world is full of unique observations, making sense of these requires integration and synthesis – especially for drought and climate extremes our data is very sparse
(▲) observed data
(▬) the volume curve that CABALA predicts from the weather that occurred during the rotation
(▬) are possible growth trajectories that might have occurred planting each year from 1940 to the 1998
(▬) long term average production
(▬) is mean annual rainfall for the period 1940 to 2006
(●) rainfall during observed rotation
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C.D. Allen et al. (2010) Forest Ecology and Management
Widespread Tree Mortality
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Modelling can help: and example with drought mortality and climate change
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• Reproducible: we can keep workflows and show how decisions were reached
• Transparent: assumptions are explicit, and can be built upon, decisions are based on a risk assessments that can be presented
• Robust: we can define the limits to adaptation• Reflexive: we can learn from new experience, we can design investigative studies, to reduce gap between possible and plausible.
• Actionable: we can assess and quantify management actions, at the scale (local) that actions are implemented
• Participatory: we can design interactive what‐if discussions, and create a meeting point for technical and practical knowledge
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Papers that ignore mortality or key processes such as eCO2
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Relative to 1980 growth% change
< -10-9 - 01 - 10> 10
Relative to 1980 growth% change
< -10-9 - 01 - 10> 10
Add in drought mortality
Battaglia et al 2009
Misleading too!
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Mortality proportion = f{altitude, slope, age, thinning status),assuming a stationary climate
Or look for broad surrogates or correlates for tree mortality
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Mortality proportion = f{altitude, slope, age, thinning status),assuming a stationary climate
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0
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1
‐1200 ‐1000 ‐800 ‐600 ‐400 ‐200 0
Prop
ortio
nal stand
mortality
Rainfall‐Evapotranspiration (mm)
But assumes system equilibrium and no local condition effects
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0
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Prop
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Rainfall‐Evapotranspiration (mm)
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So what are we to do….
……………….. Can we progress with the limited experience and knowledge we have?
……………………………….Can Models help us?
………………………………….An Australian example –evidence to decision making.
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So what is the evidence
• Not all trees die: it is individuals that die not forests
• Small local differences in conditions matter
• What we do, and the stand state at the time of drought matters
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Evidence: we know a lot about plants and how they interact with water stress intensity
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Leaf water potential (MPa)
-4 -3 -2 -1
Q (k
g m
-2 s
-1)
0.00
0.01
0.02
0.03
0.04
0.05
0.06Moderate, Mar 3rdModerate, Mar 4thModerate, Mar 4thSevere, Mar 2ndSep 22, 2010Nov 3, 2010Dec 1, 2010Jan 18, 2011April 16, 2011
Turgor loss point
pd (-MPa)
0 1 2 3 4
Hyd
raul
ic c
ondu
ctan
ce, K
p (kg
m-2
s-1
MPa
-1)
0.00
0.01
0.02
0.03
0.04
0.05
0.06
Critical thresholds for functionsoil > TLP – normal operating range, all going wellTLP soil> Kp=0 – water stressed range: in this range transpiration impededand plant drawing on carbohydrate stores, we see stomata open for very short periodssoil< KP=0 – Critical water stress (hydraulic failure) – plants have lost ability to conductwater and hydraulic failure likely
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Table 1 Species leaf water potential at turgor loss point and the number of days after drought (DOD) at which pre-dawn leaf water potential reached the tugor loss point.
Species Turgor loss point (MPa) Day of drought to TLP % depletion TNC
E. globulus ‐2.2 34 +11%
E. smithii ‐2.0 50‐60 ‐14%
P. radiata ‐1.6 75‐85 ‐49%
Evidence: we know plants respond to duration differently, leading to different causes of death
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McDowell et al. Trends in Ecology and Evolution October 2011, Vol. 26, No. 10
Duration of drought
Mechanistic representations/ conceptualisations consequently are complex, and rarely useful in prediction.
Death is a syndrome not a single cause and event connection ..…..like health, and like why your rugby team wins or looses, although if your playing NZ it is predictable – perhaps unlike drought death!
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Where too then?
• We want to be data driven and respect this evidence
• We want to be predictive in complex situations
• We want a framework that leads to action and not just scaremongering
• Adams (2013) following Hawkes (2000) argue for process‐based representation of drought to overcome problems. Polari (2014) argues further for statistical‐dynamical modelling
Presentation title | Presenter name26 |
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Consistent with our evidence Allen(2010) said forest drought mortality was a function of duration and intensity of drought
Phenomenological in that doesn’t invoke the mechanism
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But drought intensity has to be defined by the tree or forest, not the climate
trees and our silviculture intermediates between climate and production
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Site conditions, management and weather
Forest growth model
Predicted stand growth
stress
We use a growth model to integrate factors to get a tree water stress –adjusted for local conditions and stand and tree state
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Respecting the evidence of physiological thresholds we create a stress dose that looks at duration and intensity in a species specific way
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Leaf water potential (MPa)
-4 -3 -2 -1
Q (k
g m
-2 s
-1)
0.00
0.01
0.02
0.03
0.04
0.05
0.06Turgor loss point
, 0
∑D=0, if
Daily dose (damage) is relate to degree of stress below turgor loss point
When water stress released recovery
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But the evidence tells us there is a (normal) distribution of trees that die at different stress levels (S)
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1 , ,
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0.0
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0 20 40 60 80
Observe
d prop
ortion
of stand
dea
d or
missing
at last inv
entory
Maximum dose in rotation
=40 and s2=15
72 Eucalyptus globulus plots in Western and Southern Australia, many paired where site differences across short distancesAged between 4.5 and 22.1Initial stocking between 743 and 1250 spha
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y = 1.02x ‐ 0.01R² = 0.77
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Pred
icted prop
ortion
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issing
at
last in
ventory
Observed proportion of stand dead or missing at last inventory
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y = 1.02x ‐ 0.01R² = 0.77
0.0
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Pred
icted prop
ortion
of stand
dea
d or m
issing
at
last in
ventory
Observed proportion of stand dead or missing at last inventory
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Time course from date of planting to last inventory of daily leaf waterpotential (black line top pane), model drought stress dose (grey linetop pane), and observed (dots) and predicted live stems per hectare(grey line bottom pane) and maximum site dose value to that point intime (bottom pane black line.
12
3
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Presentation title | Presenter name36 |
Relative to 1980 growth% change
< -10-9 - 01 - 10> 10
Relative to 1980 growth% change
< -10-9 - 01 - 10> 10
Add in drought mortality
Battaglia et al 2009
Effect Net change
No Mortality +12.8%
With Mortality ‐7.3%
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Number of rotations out of 20 where there is a moderate or severe risk of drought death (≥class 2) on 5m deep soils
White et al 2011 Climate driven mortality in forest plantations – prediction and effective adaptation
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Evidence again: But we have some control
White et al. 2009 FEM 259, 33-44
Year98 99 00 01 02 03 04 05
Mea
n A
nnua
l Inc
rem
ent (
m3 h
a-1 y
r-1)
0
5
10
15
20
25
30
300 SPH 600 SPH1200 SPH
Date
1/1/98
1/1/99
1/1/00
1/1/01
1/1/02
1/1/03
Pre-
daw
n le
af w
ater
pot
entia
l (M
Pa)
-2.5
-2.0
-1.5
-1.0
-0.5
0.0
300 SPH 600 SPH 1200 SPH
White DA, Crombie DS, Kinal J, Battaglia M, McGrath JF, Mendharn DS, Walker SN (2009) Managing productivity and drought risk in Eucalyptus globulus plantations in south-western Australia. Forest Ecology and Management 259, 33-44.
drought
Ouch!
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Adaptation to changes in production mortality: moving from landscapes to coupes, descriptions to actions
Effects of changes in stocking and fertiliser application on production and mortality
Stems per ha remaining (%)50 60 70 80 90 100
Freq
uenc
y
0
20
40
60
80
100
Volume m2 ha-190 100 110 120 130 140 150 160 170
Freq
uenc
y
0
10
20
30
40
Effects of changes in stocking and fertiliser application on production and mortality
Stems per ha remaining (%)0 20 40 60 80 100
Freq
uenc
y
0
20
40
60
80
100
Volume m2 ha-10 20 40 60 80 100 120 140 160
Freq
uenc
y
0
20
40
60
80
Effects of changes in stocking and fertiliser application on production and mortality
Stems per ha remaining (%)88 90 92 94 96 98 100
Freq
uenc
y
0
20
40
60
80
100
Volume m2 ha-1150 160 170 180 190 200 210 220
Freq
uenc
y
0
5
10
15
20
25
123
RiskSPH < 700 catastrophic mortality 25/100 decrease in volume of ‐5 to ‐15%
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Conclusions
• We have framed precision forestry as data driven decision making• In some areas in which we want to make decisions our data is sparse, and uncertainty is high
• We can ‘amplify’ the power of our data, and overcome the tyranny of the unique observation, by fitting them into a conceptual framework and modelling
• We should respect the science – modelling is a creative exercise, modelling ignoring the facts is a delusional exercise
• To support adaptation we need to move from the science to identification of hazard to the presentation of loss in appropriate (actionable) manner
• Information (modelling) needs to be decision‐centric and locally relevant
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Michael BattagliaGroup Leadert +61 3 62 375612e [email protected] www.csiro.au
CSIRO AGRICULTURE AND FOOD
Thank you