@bourbia.bsky.social
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Postdoc at UTAS. Plant water relations
pinned post!
#Arbuscular
mycorrhizal fungi do not improve root hydraulic supply during soil drying (at least tomato and pea) Whole root hydraulic conductance was measured in intact soils using a non-invasive rehydration technique
doi.org/10.1093/plph...
@Jiacan_Sun Eloise Foo
@coeplantsuccess.bsky.social
5 months ago
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New paper in
@jxbotany.bsky.social
High temperature leads to a loss of isohydry in Pinus radiata
@coeplantsuccess.bsky.social
academic.oup.com/jxb/advance-...
4 days ago
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#Arbuscular
mycorrhizal fungi do not improve root hydraulic supply during soil drying (at least tomato and pea) Whole root hydraulic conductance was measured in intact soils using a non-invasive rehydration technique
doi.org/10.1093/plph...
@Jiacan_Sun Eloise Foo
@coeplantsuccess.bsky.social
5 months ago
0
5
0
reposted by
Christiane Werner
6 months ago
Interested in new approches to trace
#forest
🌲🌳🧪responses to
#climate_change
? More on
#ECOSENS
and
##B2WALD
here in my
#TED
TALK „ted talk christiane
share.google/PqjmjMXk4uza...
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reposted by
Christiane Werner
10 months ago
Our new
#review
out on Impact of emerging
#compound
#droughts
on
#forests🌲🌳
: A water supply and demand perspective
#PlantBiology
onlinelibrary.wiley.com/doi/10.1111/...
@charlottegrossiord.bsky.social
@simonhaber.bsky.social
@vallicrosah.bsky.social
@ecosense-sfb-1537.bsky.social
🧪
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Impact of emerging compound droughts on forests: A water supply and demand perspective
This review examines the physiological and ecological responses of trees to emerging compound droughts from a water demand and supply perspective, as well as the role of acclimation and consequences ...
https://onlinelibrary.wiley.com/doi/10.1111/plb.70080
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