David Bauman
@davbauman.bsky.social
Plant ecologist | 🌳 demography | Processes shaping tropical forests and savannas 🌳🌿🌦️ | Causal Inference |
Researcher at AMAP, @ird-fr.bsky.social (IRD). https://www.researchgate.net/profile/David-Bauman-2
Researcher at AMAP, @ird-fr.bsky.social (IRD). https://www.researchgate.net/profile/David-Bauman-2
Read the full paper (open access) here: doi.org/10.1111/geb.70141
As for my fellow statistics/R/reproducible code lovers, you'll find the detailed commented R code (and data) for all analyses and figures here 🙃: zenodo.org/records/1704...
🧵9/9
As for my fellow statistics/R/reproducible code lovers, you'll find the detailed commented R code (and data) for all analyses and figures here 🙃: zenodo.org/records/1704...
🧵9/9
Data, R code, and model outputs for "Mosaic of size-dependent mortality in three ecologically and economically important pine species reveals patterns across space and time" (Bauman et al. 2025, Globa...
This repository provides the full research compendium (repository of data, code, model outputs, and figures) associated with the following peer-reviewed publication: Bauman, D., McMahon, S.M., & Johns...
zenodo.org
October 27, 2025 at 8:58 AM
Read the full paper (open access) here: doi.org/10.1111/geb.70141
As for my fellow statistics/R/reproducible code lovers, you'll find the detailed commented R code (and data) for all analyses and figures here 🙃: zenodo.org/records/1704...
🧵9/9
As for my fellow statistics/R/reproducible code lovers, you'll find the detailed commented R code (and data) for all analyses and figures here 🙃: zenodo.org/records/1704...
🧵9/9
We find that 🌳 demography is not uniform, even within a species’ range.
Accounting for this mosaic of mortality can improve management & conservation of forests facing intensifying stressors, and stresses the crucial role of permanent plots across environmental gradients. @umramap.bsky.social
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Accounting for this mosaic of mortality can improve management & conservation of forests facing intensifying stressors, and stresses the crucial role of permanent plots across environmental gradients. @umramap.bsky.social
🧵8/9
October 27, 2025 at 8:58 AM
We find that 🌳 demography is not uniform, even within a species’ range.
Accounting for this mosaic of mortality can improve management & conservation of forests facing intensifying stressors, and stresses the crucial role of permanent plots across environmental gradients. @umramap.bsky.social
🧵8/9
Accounting for this mosaic of mortality can improve management & conservation of forests facing intensifying stressors, and stresses the crucial role of permanent plots across environmental gradients. @umramap.bsky.social
🧵8/9
🌎 Take-home message:
To predict forest futures, we need to go beyond climate envelopes — including disturbances, pests, and ontogeny — if we want realistic models of mortality and carbon cycling.
@ird-fr.bsky.social
🧵7/9
To predict forest futures, we need to go beyond climate envelopes — including disturbances, pests, and ontogeny — if we want realistic models of mortality and carbon cycling.
@ird-fr.bsky.social
🧵7/9
October 27, 2025 at 8:58 AM
🌎 Take-home message:
To predict forest futures, we need to go beyond climate envelopes — including disturbances, pests, and ontogeny — if we want realistic models of mortality and carbon cycling.
@ird-fr.bsky.social
🧵7/9
To predict forest futures, we need to go beyond climate envelopes — including disturbances, pests, and ontogeny — if we want realistic models of mortality and carbon cycling.
@ird-fr.bsky.social
🧵7/9
In contrast, in low-mortality years, competition was the main mortality agent, suggesting a prevalence of gap dynamics under low mortality years and regions.
High-mortality patches, though, were dominated by disturbance agents like storms and insects.
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High-mortality patches, though, were dominated by disturbance agents like storms and insects.
🧵6/9
October 27, 2025 at 8:58 AM
In contrast, in low-mortality years, competition was the main mortality agent, suggesting a prevalence of gap dynamics under low mortality years and regions.
High-mortality patches, though, were dominated by disturbance agents like storms and insects.
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High-mortality patches, though, were dominated by disturbance agents like storms and insects.
🧵6/9
🔥 Pinus elliottii (slash pine) and P. palustris (longleaf pine) showed more localised spatial structures.
Extreme weather events (storms, mostly) and fire dominated their high-mortality years (especially 2013–2023).
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Extreme weather events (storms, mostly) and fire dominated their high-mortality years (especially 2013–2023).
🧵5/9
October 27, 2025 at 8:58 AM
🔥 Pinus elliottii (slash pine) and P. palustris (longleaf pine) showed more localised spatial structures.
Extreme weather events (storms, mostly) and fire dominated their high-mortality years (especially 2013–2023).
🧵5/9
Extreme weather events (storms, mostly) and fire dominated their high-mortality years (especially 2013–2023).
🧵5/9
🌳 Pinus taeda (loblolly pine) stood out:
Its survival has clearly declined over the past two decades across its natural range.
This pattern was spatially consistent and mostly linked to weather, insects, and competition.
🧵4/9
Its survival has clearly declined over the past two decades across its natural range.
This pattern was spatially consistent and mostly linked to weather, insects, and competition.
🧵4/9
October 27, 2025 at 8:58 AM
🌳 Pinus taeda (loblolly pine) stood out:
Its survival has clearly declined over the past two decades across its natural range.
This pattern was spatially consistent and mostly linked to weather, insects, and competition.
🧵4/9
Its survival has clearly declined over the past two decades across its natural range.
This pattern was spatially consistent and mostly linked to weather, insects, and competition.
🧵4/9
We found that mortality patterns form a mosaic across space and time — and change in nonlinear ways with tree size (ontogeny).
👉 Most interspecific differences appear in saplings (2.5 to 10 cm DBH) and near maximum tree size.
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👉 Most interspecific differences appear in saplings (2.5 to 10 cm DBH) and near maximum tree size.
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October 27, 2025 at 8:58 AM
We found that mortality patterns form a mosaic across space and time — and change in nonlinear ways with tree size (ontogeny).
👉 Most interspecific differences appear in saplings (2.5 to 10 cm DBH) and near maximum tree size.
🧵3/9
👉 Most interspecific differences appear in saplings (2.5 to 10 cm DBH) and near maximum tree size.
🧵3/9
Tree mortality isn’t random — it depends on who you are, where you grow, and what happens to you.
We analysed demographic data from ~130,000 trees across 14,500 plots (years 2003–2023), looking at mortality agents like competition, storms, fire, insects, and disease.
🧵2/9
We analysed demographic data from ~130,000 trees across 14,500 plots (years 2003–2023), looking at mortality agents like competition, storms, fire, insects, and disease.
🧵2/9
October 27, 2025 at 8:58 AM
Tree mortality isn’t random — it depends on who you are, where you grow, and what happens to you.
We analysed demographic data from ~130,000 trees across 14,500 plots (years 2003–2023), looking at mortality agents like competition, storms, fire, insects, and disease.
🧵2/9
We analysed demographic data from ~130,000 trees across 14,500 plots (years 2003–2023), looking at mortality agents like competition, storms, fire, insects, and disease.
🧵2/9
This follows our earlier Ecology Letters study showing that dead trees can influence neighbours even more than living ones.
Forests have long memories — the "ghosts" of trees past still shape who grows, survives, and coexists. 🌳🌱
🔗 doi.org/10.1111/ele....
[3/3]
Forests have long memories — the "ghosts" of trees past still shape who grows, survives, and coexists. 🌳🌱
🔗 doi.org/10.1111/ele....
[3/3]
The unexpected influence of legacy conspecific density dependence
The presence of dead conspecific neighbours significantly decreased tree survival. Negative legacy conspecific effects proved nearly four times stronger than living conspecific density effects. The l...
doi.org
October 22, 2025 at 9:43 AM
This follows our earlier Ecology Letters study showing that dead trees can influence neighbours even more than living ones.
Forests have long memories — the "ghosts" of trees past still shape who grows, survives, and coexists. 🌳🌱
🔗 doi.org/10.1111/ele....
[3/3]
Forests have long memories — the "ghosts" of trees past still shape who grows, survives, and coexists. 🌳🌱
🔗 doi.org/10.1111/ele....
[3/3]
We’ve long known that young trees struggle near adults of the same species — this mechanism helps maintain diversity.
But what if that effect doesn’t end when the adult tree dies?
Turns out this "legacy effect" can last at least 5 years — even after the tree is dead 🌲
[2/3]
But what if that effect doesn’t end when the adult tree dies?
Turns out this "legacy effect" can last at least 5 years — even after the tree is dead 🌲
[2/3]
October 22, 2025 at 9:43 AM
We’ve long known that young trees struggle near adults of the same species — this mechanism helps maintain diversity.
But what if that effect doesn’t end when the adult tree dies?
Turns out this "legacy effect" can last at least 5 years — even after the tree is dead 🌲
[2/3]
But what if that effect doesn’t end when the adult tree dies?
Turns out this "legacy effect" can last at least 5 years — even after the tree is dead 🌲
[2/3]
With #COP30 next month in Belém 🇧🇷, we hope this will be a wake-up call: tropical forests are under growing pressure from climate change.
Safeguarding them demands ambitious and fair climate action, including stronger support for countries that protect these vital ecosystems for us all. 🌳🌡️📈
[5/5]
Safeguarding them demands ambitious and fair climate action, including stronger support for countries that protect these vital ecosystems for us all. 🌳🌡️📈
[5/5]
October 17, 2025 at 11:53 AM
With #COP30 next month in Belém 🇧🇷, we hope this will be a wake-up call: tropical forests are under growing pressure from climate change.
Safeguarding them demands ambitious and fair climate action, including stronger support for countries that protect these vital ecosystems for us all. 🌳🌡️📈
[5/5]
Safeguarding them demands ambitious and fair climate action, including stronger support for countries that protect these vital ecosystems for us all. 🌳🌡️📈
[5/5]
Of course, this doesn’t mean these forests have lost all climate value ➡️ they remain immense carbon stores and irreplaceable biodiversity havens.
But it shows that keeping global warming well below 1.5 °C is now even harder—and more urgent. 🌏
[4/5]
But it shows that keeping global warming well below 1.5 °C is now even harder—and more urgent. 🌏
[4/5]
October 17, 2025 at 11:53 AM
Of course, this doesn’t mean these forests have lost all climate value ➡️ they remain immense carbon stores and irreplaceable biodiversity havens.
But it shows that keeping global warming well below 1.5 °C is now even harder—and more urgent. 🌏
[4/5]
But it shows that keeping global warming well below 1.5 °C is now even harder—and more urgent. 🌏
[4/5]
Context: in 2022, our @nature.com study found a long-term increase in tree mortality in these forests, likely due to rising atmospheric water stress.
🔗 nature.com/articles/s41586-022-04737-7
This new paper follows up: aboveground biomass is now a net carbon emitter — driven by #ClimateChange.
[3/5]
🔗 nature.com/articles/s41586-022-04737-7
This new paper follows up: aboveground biomass is now a net carbon emitter — driven by #ClimateChange.
[3/5]
Tropical tree mortality has increased with rising atmospheric water stress - Nature
Over the past 35 years, annual tree mortality risk has increased in the moist tropical forests of Australia and is associated with increased atmospheric water stress.
nature.com
October 17, 2025 at 11:53 AM
Context: in 2022, our @nature.com study found a long-term increase in tree mortality in these forests, likely due to rising atmospheric water stress.
🔗 nature.com/articles/s41586-022-04737-7
This new paper follows up: aboveground biomass is now a net carbon emitter — driven by #ClimateChange.
[3/5]
🔗 nature.com/articles/s41586-022-04737-7
This new paper follows up: aboveground biomass is now a net carbon emitter — driven by #ClimateChange.
[3/5]
Based on 50 yrs of data from ~11 000 trees, we found that the aboveground woody biomass—once absorbing C—now now releases nearly 1 tonne of C per hectare each year.
The cause? Human-driven climate change: hotter extremes, droughts & cyclones are killing more trees than the forest regrow. 🌡️🌪️
[2/5]
The cause? Human-driven climate change: hotter extremes, droughts & cyclones are killing more trees than the forest regrow. 🌡️🌪️
[2/5]
October 17, 2025 at 11:53 AM
Based on 50 yrs of data from ~11 000 trees, we found that the aboveground woody biomass—once absorbing C—now now releases nearly 1 tonne of C per hectare each year.
The cause? Human-driven climate change: hotter extremes, droughts & cyclones are killing more trees than the forest regrow. 🌡️🌪️
[2/5]
The cause? Human-driven climate change: hotter extremes, droughts & cyclones are killing more trees than the forest regrow. 🌡️🌪️
[2/5]
📄 Link to study: www.nature.com/articles/s41...
With @josbarlow.bsky.social , @fplmelo.bsky.social , @erikaberenguer.bsky.social , @ird-fr.bsky.social , Universidade Federal de Pernambuco, @ecioxford.bsky.social , Lancaster University, Universidade Estadual de Santa Cruz, and several others.
[5/5]
With @josbarlow.bsky.social , @fplmelo.bsky.social , @erikaberenguer.bsky.social , @ird-fr.bsky.social , Universidade Federal de Pernambuco, @ecioxford.bsky.social , Lancaster University, Universidade Estadual de Santa Cruz, and several others.
[5/5]
Winner–loser plant trait replacements in human-modified tropical forests - Nature Ecology & Evolution
Tropical forest landscapes are increasingly being modified by human activities. Here the authors apply a causal inference approach to Neotropical forest data to disentangle the role of landscape-level...
www.nature.com
December 15, 2024 at 1:50 PM
📄 Link to study: www.nature.com/articles/s41...
With @josbarlow.bsky.social , @fplmelo.bsky.social , @erikaberenguer.bsky.social , @ird-fr.bsky.social , Universidade Federal de Pernambuco, @ecioxford.bsky.social , Lancaster University, Universidade Estadual de Santa Cruz, and several others.
[5/5]
With @josbarlow.bsky.social , @fplmelo.bsky.social , @erikaberenguer.bsky.social , @ird-fr.bsky.social , Universidade Federal de Pernambuco, @ecioxford.bsky.social , Lancaster University, Universidade Estadual de Santa Cruz, and several others.
[5/5]
These findings show how #causality can be inferred from observational data in #Ecology. Habitat loss, fragmentation, edge effects, degradation, and the functional make-up of tree communities have interdependencies, and require a #CausalModel to disentangle #causation from spurious association!
[4/5]
[4/5]
December 15, 2024 at 1:50 PM
These findings show how #causality can be inferred from observational data in #Ecology. Habitat loss, fragmentation, edge effects, degradation, and the functional make-up of tree communities have interdependencies, and require a #CausalModel to disentangle #causation from spurious association!
[4/5]
[4/5]