Patrice Pottier
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patricepottier.bsky.social
Patrice Pottier
@patricepottier.bsky.social
1.9K followers 3.2K following 44 posts

Postdoc at ANU and UNSW; @SORTEE board member
Global change biology 🌍🌑️🏭, ecophysiology, evidence synthesis, open science πŸ”“
I love all kinds of critters 🐠🦎🐸πŸͺ²πŸπŸ¦‘πŸ¦ˆπŸͺΈ
Opinions my own; he/him

Videos
Environmental science 69%
Geography 17%
Posts Replies Media Videos

Reposted by Patrice Pottier, Samuele Ramellini

nicholaswu.bsky.social
Nicholas Wu @nicholaswu.bsky.social Β· 14d
Want to join a global 🌎 initiative to test the thermal limits of 🐟 using standardised approach? Led by @patricepottier.bsky.social, we are planning a globally distributed experiment to collect data on fish embryonic heat tolerance 🌑️. Make this experiment global!

πŸ”—: www.thermalecologyalliance.org

Reposted by Patrice Pottier

ecoevorxiv.bsky.social
EcoEvoRxiv @ecoevorxiv.bsky.social Β· Jul 30
"A systems-modelling approach to predict biological responses to extreme heat" doi.org/10.32942/X2B...

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· May 14
Very important study!! Check out the physiological and life-history to experimental evolution for thermal tolerance πŸ‘‡

Some surprising results that help us better understand trade-offs and physiological mechanisms conferring thermal sensitivity

🐟🌑️
jutfelt.bsky.social Fredrik Jutfelt 🐠 @jutfelt.bsky.social · May 14
How do fish evolve to tolerate higher temperatures, and are there trade-offs? We explore these questions in our new paper
@natclimate.nature.com led by Anna Andreassen
@annahandreassen.bsky.social

www.nature.com/articles/s41...
πŸ§ͺπŸŸπŸ¦‘

Reposted by Michael G. Bertram, Krizler C. Tanalgo, Patrice Pottier , and 1 more

jutfelt.bsky.social
Fredrik Jutfelt 🐠 @jutfelt.bsky.social · May 14
How do fish evolve to tolerate higher temperatures, and are there trade-offs? We explore these questions in our new paper
@natclimate.nature.com led by Anna Andreassen
@annahandreassen.bsky.social

www.nature.com/articles/s41...
πŸ§ͺπŸŸπŸ¦‘

Reposted by Patrice Pottier

szymekdr.bsky.social
Szymek Drobniak @szymekdr.bsky.social Β· Apr 10
One of my studies, written with wonderful @itchyshin.bsky.social Sammy Burke @patricepottier.bsky.social Trace Ainsworth & Losia Łagisz earned a #TopCitedArticle badge. onlinelibrary.wiley.com/doi/full/10.... We showed that coral diseases may get upended by climate change, wiping out most of corals
The impact of rising temperatures on the prevalence of coral diseases and its predictability: A global meta‐analysis
We conducted a global meta-analysis using 30 years of coral reef surveys and sea surface temperature records to identify the interaction between coral disease prevalence and rising ocean temperatures...
onlinelibrary.wiley.com

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 28
Thank you for sharing!

Reposted by Wolfgang WΓΌster, Patrice Pottier

agunderson.bsky.social
Alex Gunderson @agunderson.bsky.social Β· Mar 27
We made the cover

www.nature.com/articles/s41...
Cover of the journal "Nature" showing a long-nosed horned frog on leaf litter and the words "Heat Stress: How vulnerable are the worlds amphibians to rising temperatures?"

Reposted by Patrice Pottier, Marta Maziarz

szymekdr.bsky.social
Szymek Drobniak @szymekdr.bsky.social Β· Mar 26
The latest issue of @nature.com sports a charismatic cover image ooooof... A frog! :) our recent paper on amphibians and the ways global climate change is bound to affect them (www.nature.com/articles/s41...) found its way to the cover of Nature. πŸ’œπŸ’šπŸΈ

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 7
Sorry, one of the images was not uploaded properly.

Here's the figure for the validation approach
🧡(6/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
And this media release from @unsw.bsky.social

www.unsw.edu.au/newsroom/new...

#UNSWNewsroom
The pot is already boiling for 2% of the world’s amphibians: new study
Amphibians are increasingly vulnerable to global warming, according to new research.
www.unsw.edu.au

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
You can also check out this @aunz.theconversation.com
article for an easy summary

theconversation.com/hot-frogs-an...

#TheConversation
Hot frogs and sizzling salamanders: climate change is pushing amphibians to their limits
New research shows frogs and other amphibians are already on the brink of overheating in a warming world. Here’s how many will suffer as global temperatures rise.
theconversation.com

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
Please also check out @nicholaswu.bsky.social's fantastic post about this study:

bsky.app/profile/nich...

He's an incredible graphic designer and scientist, and many of the illustrations in this thread/paper are from him.
nicholaswu.bsky.social Nicholas Wu @nicholaswu.bsky.social Β· Mar 6
New paper in @nature.com led by @patricepottier.bsky.social! We demonstrated global vulnerability of amphibians to warming, threatening 10% of >5,000 species examined. How did we do it? See thread🧡

Paper: www.nature.com/articles/s41...

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
Huge thank you to @unsw.bsky.social and the E&ERC
for supporting me throughout this research.

I am also incredibly thankful to have been able to do this work on the traditional land of the Bedegal people. I feel gifted to learn from thousands of years of cultural and natural heritage.

🧡(27/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
A massive thank you to all my co-authors @ecophys.bsky.social , @nicholaswu.bsky.social , @agunderson.bsky.social n, Julie Rej, Nayelli Rivera-Villanueva, @pietropollo.bsky.social ,
Samantha Burke, @szymekdr.bsky.social & @itchyshin.bsky.social
I couldn't have done this without you!

🧡(26/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
There is also a dedicated web page hosted in
@github if you would like to go through the analyses and see some additional results and visualisations! 🌟

p-pottier.github.io/Vulnerabilit...

🧡(25/27)
Vulnerability of amphibians to global warming
p-pottier.github.io

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
We explore things in more detail in the paper, so please check it out and let me know if you have any questions!

doi.org/10.1038/s415...

This was by far the most challenging, but also rewarding project of my PhD (4 years from conceptualisation to publication). So glad to see this out!!

🧡(24/27)
Vulnerability of amphibians to global warming
doi.org

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
6. Microenvironmental complexity is vital for thermoregulation.

The availability of shade, vegetation, and water bodies is critical in buffering amphibians during heat waves. Immediate action is needed to manage these microhabitat features (esp. water sources!) ⚠️

🧡(23/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
5. Amphibians are vulnerable globally.

Both temperate and tropical amphibians are predicted to experience overheating events!

It is not safe to assume that tropical ectotherms are most vulnerable to warming, it is region- and species-specific ⚠️

🧡(22/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
4. We need to incorporate realistic temperature fluctuations in climate vulnerability assessments.

Using averaged temperatures does not reliably inform vulnerability risk because extreme heat events 🌑️ are the very phenomena triggering overheating events ⚠️

🧡(21/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
3. Plasticity is not able to buffer amphibians from extreme temperature events.

Although plasticity allows amphibians to adjust their thermal limits, it is not sufficient to compensate for projected temperature increases under global warming 😰

🧡(20/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
2. The impacts of global warming on amphibians will escalate abruptly.

Differences projected under 2 or 4Β°C of warming are enormous. We need to reduce our greenhouse gas emissions before it is too lateπŸ₯΅

🧡(19/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
Ok, but what does this all mean? πŸ€”

1. Amphibians are particularly vulnerable to extreme temperature events.

Our estimates are in fact conservative (assume constant access to shade and wet skin). The impacts of warming will be much stronger than what we predict 😱

🧡(18/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
This is very different from our results with TSM πŸ€”

In fact, calculating TSM based on averaged temperature profiles hides critical tipping points for thermal stress (c,d)! ⚠️

Therefore, capturing daily temperature variation is key in assessing vulnerability risk!

🧡(17/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
We did not find uniform latitudinal patterns in the predicted number of overheating events ⚠️

In the S. Hemisphere, tropical species encounter disproportionally more overheating events, while in the N. Hemisphere, non-tropical species are more susceptible (a,b)

🧡(16/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
Interestingly, our models show that most amphibians will not overheat in aquatic microenvironments πŸ’§. Only 11 species would be vulnerable under extreme climate warming scenarios.

This clearly demonstrates the importance of water bodies for amphibian thermoregulation⚠️

🧡(15/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
We predicted that 104 species (2%) are already exposed to overheating events, and 4Β°C of global warming would push 7.5% of species beyond their thermal limits in terrestrial conditions (a)

In arboreal conditions (b), numbers are slightly lower, but we find similar patterns

🧡(14/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
However, it does not mean that amphibians do not experience overheating events (when body temperatures exceed CTmax)!⚠️

In fact, extreme temperatures occasionally push many amphibians beyond their thermal limits, particularly under extreme warming scenarios😱

🧡(13/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
If we first look at TSM, we find that it is always positive, but declines towards mid and low latitudes, which is consistent with previous evidence βœ…

TSM is also slightly higher in aquatic (b) environments relative to terrestrial (b) and arboreal (c) habitats

🧡(12/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
We also accounted for plasticity, and CTmax was adjusted daily to the temperatures experienced in the 7 days prior.

We then calculated 2 metrics: thermal safety margins (TSM, mean difference between CTmax and body temperatures), and the number of overheating events

🧡(11/27)

patricepottier.bsky.social
Patrice Pottier @patricepottier.bsky.social Β· Mar 6
The beauty of biophysical models from
#NicheMapR is that they estimate body temperatures at high spatial and temporal resolutions 🌟

In our study, we estimated daily operative body temperature profiles, and measured their proximity to thermal limits

🧡(10/27)