the place of genetic diversity in adapting forests to …the place of genetic diversity in adapting...
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![Page 1: The place of genetic diversity in adapting forests to …The place of genetic diversity in adapting forests to climate change Jean-Charles Bastien EFIATLANTIC & IEFC annual meeting](https://reader034.vdocuments.us/reader034/viewer/2022043002/5f7f59878640fc4a325c541f/html5/thumbnails/1.jpg)
The place of genetic diversity in adapting forests to climate change
Jean-Charles Bastien
EFIATLANTIC & IEFC annual meeting Edinburgh May 10, 2017
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1. Populations, not the species as a whole, are the adaptation units to local climate.
An answer to climate change : study the within population genetic variability of adaptive traits
2. The result of evolutionary adaptation* will (partly) determine what happens to populations given climate change.
3. A relevant management of the genetic variability may positively influence how population respond and adapt to climate change.
* Evolutionary” adaptation : the process whereby an organism becomes better suited to its environment.
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Are forest trees able to naturally adapt to future climate?Evolutionary dilemmas in the face of climate change
• Extinction of local population
• Migrate to new (better suited) habitats
• Acclimate by modifying individuals to new environment (phenotypic plasticity) and evolve through natural selection of better suited individuals
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1- Disappear : Lessons from the past
• Few extinctions at the south margins of natural areas• Strong differentiations among populations • Significant lost of genetic diversity within populations
Sessile OakBrewer et al. Forest Ecology and Management 2002
15 000 BP 13 000 BP
9 000 BP 6 000 BP
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2- Migrate : a realistic solution?
European Pollen Database, Univ. Aix-Marseille
Brewer et al, Forest Ecology and Management 2002
Sessile OakPost glacial migration ≈ 400 meters/yr.
Sessile Oak
Today
Migration required to reach the predicted bioclimatic envelopes in
100 years ≈ 5 to 7 km/yr.
Sessile Oak
2080
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3- Acclimate & EvolveA short term solution : the phenotypic plasticity
• Phenotypic plasticity = the ability of an individual to change its characteristics (phenotype) in response to changes in the environment
• Phenotypic plasticity is common in plants. Plants modify their phenology and growth in response to changes in environments
• Bud-set• Bud-burst• Flowering• Acclimation to drought
Acer rubrum – Royer et al 2009 Plos One
Temperature
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Evolution of start and end flowering dates in Orléans
• Variations of Douglas-fir floral phenology
Visible impacts of CC on trees
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Seed sampling in various environments of the
natural range
Grow provenances / families in several
common environments
Measure many adaptive traits
Analyze trait /climate relationships
Douglas-Fir of Western OR and WA
December Minimum Temperature
-10 -8 -6 -4 -2 0 2 4 6
Comb
inatio
n of V
ariab
les, P
rimar
ily G
rowt
h
-5
-4
-3
-2
-1
0
1
2
3
GIS
Evidence for plasticity comes from common garden (provenance) studies
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Effet du changement climatique sur le Pin contortaWang et al. (2006) Global Change Biol. 12:2404-2416
Climate change effect on lodgepole pine (P. contorta)Wang et al. (2006) Global Change Biol. 12:2404-2416
140 populations 60 test sites
Local source : Productivity increases by 7% up to + 1.5°C (2030) but decreases above 2°COptimal source : Productivity increases by 14-36%
+1.5°C
30%
+4°C
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Climate change effect on sessile Oak (Q. petraea)(A. Ducousso)
300,0
320,0
340,0
360,0
380,0
400,0
420,0
440,0
1 2 3 4 5 6 7 8 9
Hauteur totale à 10 ans (cm)
Difference in mean annual temperaturebetween trial site and provenance (°C)
+0.5 to 1 °C
Average of all provenances
Best provenance
-4.5 -3.5 -2.5 -1.5 -0.5 0.5 1.5 2.5 3.5
Total height a age 10 (cm)
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-5 0 5 10Difference in mean annual temperaturebetween trial site and provenance (°C)
+2 to 2.5 °C
Anna
ulgr
owth
afte
r10
year
s(c
m/y
r.)
Height growth ~ climatic distance between trial site and provenance
Climate change effect on Douglas fir (P. menziesii)(J. Boiffin & V. Badeau, 2016)
Population effect (age 10 - 14)
1
2
3
4
5
6
7
8
180 populations8 bioclimatic groups
S E i HERE D L T T I t i t P C GEBCO USGS FA
88 test sites10 bioclimatic groups
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3- Acclimate & EvolveA long term solution : the genetic adaptation
“Evolution through natural selection “
Possible if genetic diversity is broad enough, but requires several generations
STRESSSTRESS
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3- Acclimate & EvolveA long term solution : the genetic adaptation
“Evolution through natural selection “
Possible if genetic diversity is broad enough, but requires several generations
Partial survival:Reproduction between surviving trees
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3- Acclimate & EvolveA long term solution : the genetic adaptation
“Evolution through natural selection “
Possible if genetic diversity is broad enough, but requires several generations
Partial survival:Reproduction between surviving trees
New stand (a priori better suited)
Important factors include:
• Central vs peripheral populations• Trailing edge vs leading edge• Levels of gene flow• Mating system• Population size• Phenotypic variation• Heritabilities• Genetic correlations• Intensity of selection/fecundity• Generation turnover• Biotic interactions
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3- Acclimate & EvolveA long term solution : the genetic adaptation
… has been effective in 1 generation
1 generation
Norway SpruceSkroppa & Kohmann, 1997 Forest Genetics 4:171-177
% trees with bud set
August Sept.
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What can we do to help forest trees adapt to future climate ?
1. Adapt silviculture (densities, thinnings, rotations)
Stem density of 25 Douglas-fir stands in Burgundy vs recommended silvicultural itineraries
Situation in 2003
Stan
d de
nsity
(nb
stem
s per
ha)
Age (years)
Anne Sophie Sergent, 2011
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Stan
d de
nsity
(nb
stem
s per
ha)
Anne Sophie Sergent, 2011
What can we do to help forest trees adapt to future climate ?
1. Adapt silviculture (densities, thinnings, rotations)
Stem density of 25 Douglas-fir stands in Burgundy vs recommended silvicultural itineraries
Situation in 2009
Age (years)
Stan
d de
nsity
(nb
stem
s per
ha)
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What can we do to help forest trees adapt to future climate ?
1. Adapt silviculture (densities, thinnings, rotations)
2. Move populations to new sites where they are expected to be better adapted in the future.
From Aitken 2012
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What can we do to help forest trees adapt to future climate ?
1. Adapt silviculture (densities, thinnings, rotations)
2. Move populations to new sites where they are expected to be better adapted in the future.
From Aitken 2012
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What can we do to help forest trees adapt to future climate ?
1. Adapt silviculture (densities, thinnings, rotations)2. Move populations to new sites where they are expected to be better
adapted in the future.3. Create transfer decision-support tools to help foresters select seed lots
that are adapted to future climates at their sites
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code nom Nom Cat. Nom Cat.
QPE101 Bordure Manche QPE101 SQPE102, QPE103*, QPE104*, QPE105*, QPE106*
S
QPE102 Picardie QPE102 SQPE101, QPE103*, QPE104*, QPE105*, QPE106*
S
QPE103 Massif armoricain QPE103 S QPE104, QPE106, S
QPE104 Perche QPE104 S QPE106, QPE107*, QPE311*
S
QPE105 Sud Bassin parisien QPE105 S QPE102, QPE106*, QPE107*, QPE411*
S
QPE106 Secteur ligérien QPE106 S QPE104, QPE107*, QPE311*, QPE411*
S
Zones d'utilisation Matériels conseillés Autres matériels utilisablesRégion de provenancecode nom Nom Cat. Nom Cat.
Zones d'utilisation Matériels conseillés Autres matériels utilisablesRégion de provenanceAreas of use
Recommendedmaterials
Other usable materials
Seed zones
Code Name Name NameCat. Cat.
Updated French guidelines on FRM deployment in the context of climate change
Sessile Oak (Quercus petraea)
Picardie
http://agriculture.gouv.fr/graines-et-plants-forestiers
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What can we do to help forest trees adapt to future climate ?
1. Adapt silviculture (densities, thinnings, rotations)2. Move populations to new sites where they are expected to be better
adapted in the future.3. Create transfer decision-support tools to help foresters select seed lots
that are adapted to future climates at their sites4. Practice selection and breeding for adaptive characteristics
• Assess provenances and varieties for their sensitivity to CC• Breed for adaptive traits (drought hardiness, tolerance to pests, xylem cavitation)
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Evaluate the sensitivity of varieties to climate changeFrench Douglas-fir seed orchard evaluation network
Area’s heart (ok/ok)Margin 1 (ok/?)Margin 2 (no/no)Altitude (no/ok)
Test site’s environments
8 Douglas-fir seed orchards43 tests planted 2009 to 2016
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Identify traits related to adaptation & plasticity Wood density : a predictor of resistance to drought in Douglas fir(Manuela Ruiz Diaz, Anne-Sophie Sergent, Alejandro Martinez Meier, Nathalie Bréda, and Philippe Rozenberg)
15 plots (700 m2) in 2 regions30 trees / plot
- 15 surviving- 15 dead / decaying
900 trees
Bourgogne
Midi PyrénéesBourgogne Midi-Pyrénées
– Surviving – Dead
Mea
n rin
g w
ood
dens
ityM
ean
ring
early
woo
d de
nsity
0 100 200 300 400
0.2
0.4
0.6
0.8
Length of microdensity profile (X 25 µm)
Dens
ity(k
g.dm
-3 0 100 200 300 400
Within ring wood density profile
Increment core
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What can we do to help forest trees adapt to future climate ?
1. Adapt silviculture (densities, thinnings, rotations)
2. Move populations to new sites where they are expected to be better adapted in the future.
3. Create transfer decision-support tools to help foresters select seedlots that are adapted to future climates at their sites
4. Practice selection and breeding for adaptive characteristics • Assess provenances and varieties for their sensitivity to CC• Breed for adaptive traits (drought hardiness, tolerance to pests, xylem cavitation)
5. Conserve genetic diversity6. Test new species
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Summary & conclusion
1. How are plants adapted to their local climates?
2. Will plants naturally adapt to future climates?
3. What can we do to help plants adapt to future climates ?
- In their history, trees have experienced recurring major environmental changes- Trees have developed evolving mechanisms that have enabled them to adapt:
- phenotypic plasticity- maintenance of high genetic diversity- important gene flows
- These mechanisms are and will be solicited by ongoing climate change- Phenotypic plasticity & migration rates do not appear to be sufficient
- Management options exist for helping plants adapt to climate change, these include : assisted migration, enhancing genetic diversity, selection and breeding, ….
- Planting is an option to consider for renewing the forest in a context of rapidly changing climatic and economic contexts.
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Thank you for your attention