Pieter Zuidema
@pieterzuidema.bsky.social
Tropical forest ecologist | Professor | Wageningen University 🇳🇱 | Climate change impacts on trees & forests | Tropical 🌳 rings | Dendrochronology | Timber tracing | Model-data integration
Reposted by Pieter Zuidema
🚨Calling all #TreeRing lovers!🚨
Join us at #EGU26 for session CL1.2.1 Interdisciplinary Tree-Ring Research
Abstracts exploring tree rings from all perspectives and disciplines are welcome!
Submit here:
tinyurl.com/475xjjfu
K. Treydte, J. Jevšenak, A. Eckes-Shephard, @pieterzuidema.bsky.social
Join us at #EGU26 for session CL1.2.1 Interdisciplinary Tree-Ring Research
Abstracts exploring tree rings from all perspectives and disciplines are welcome!
Submit here:
tinyurl.com/475xjjfu
K. Treydte, J. Jevšenak, A. Eckes-Shephard, @pieterzuidema.bsky.social
November 5, 2025 at 6:36 AM
🚨Calling all #TreeRing lovers!🚨
Join us at #EGU26 for session CL1.2.1 Interdisciplinary Tree-Ring Research
Abstracts exploring tree rings from all perspectives and disciplines are welcome!
Submit here:
tinyurl.com/475xjjfu
K. Treydte, J. Jevšenak, A. Eckes-Shephard, @pieterzuidema.bsky.social
Join us at #EGU26 for session CL1.2.1 Interdisciplinary Tree-Ring Research
Abstracts exploring tree rings from all perspectives and disciplines are welcome!
Submit here:
tinyurl.com/475xjjfu
K. Treydte, J. Jevšenak, A. Eckes-Shephard, @pieterzuidema.bsky.social
Reposted by Pieter Zuidema
Please pass along, I’m recruiting PhD students to join our Macroecology Lab @uofa-eeb.bsky.social We study phys ecology, macroecology, biodiversity - spanning scaling, trait-based ecology, theory, comparative biology & ecoinformatics. Several avenues for funding. Please reach out if interested🧪🌐🌾
October 21, 2025 at 5:13 AM
Please pass along, I’m recruiting PhD students to join our Macroecology Lab @uofa-eeb.bsky.social We study phys ecology, macroecology, biodiversity - spanning scaling, trait-based ecology, theory, comparative biology & ecoinformatics. Several avenues for funding. Please reach out if interested🧪🌐🌾
Reposted by Pieter Zuidema
#Demography, dynamics and data: building confidence for simulating changes in the world's forests
📖 nph.onlinelibrary.wiley.com/doi/10.1111/...
by Eckes-Shephard et al.
@WIleyPlantSci #PlantScience
📖 nph.onlinelibrary.wiley.com/doi/10.1111/...
by Eckes-Shephard et al.
@WIleyPlantSci #PlantScience
October 23, 2025 at 5:09 PM
#Demography, dynamics and data: building confidence for simulating changes in the world's forests
📖 nph.onlinelibrary.wiley.com/doi/10.1111/...
by Eckes-Shephard et al.
@WIleyPlantSci #PlantScience
📖 nph.onlinelibrary.wiley.com/doi/10.1111/...
by Eckes-Shephard et al.
@WIleyPlantSci #PlantScience
🎉Congratulations 🎓 Dr Sophie Zwartsenberg who defended her PhD thesis @w-u-r.bsky.social about climate & CO2 effects on trees in #tropicalforest
Sophie found that 100y of CO2 rise stimulated tree #photosynthesis, that #treerings are narower during hot & dry years, and more so in drier regions. 🌎🍁
Sophie found that 100y of CO2 rise stimulated tree #photosynthesis, that #treerings are narower during hot & dry years, and more so in drier regions. 🌎🍁
October 23, 2025 at 3:51 PM
🎉Congratulations 🎓 Dr Sophie Zwartsenberg who defended her PhD thesis @w-u-r.bsky.social about climate & CO2 effects on trees in #tropicalforest
Sophie found that 100y of CO2 rise stimulated tree #photosynthesis, that #treerings are narower during hot & dry years, and more so in drier regions. 🌎🍁
Sophie found that 100y of CO2 rise stimulated tree #photosynthesis, that #treerings are narower during hot & dry years, and more so in drier regions. 🌎🍁
Reposted by Pieter Zuidema
According to this paper, there could be c. 55.5 million tall trees (> 60 m height) across the Brazilian Amazon, with the highest density in the northeast portion. These trees have a disproportionate contribution to the carbon stored in these forests! nph.onlinelibrary.wiley.com/doi/10.1111/...
October 19, 2025 at 11:14 PM
According to this paper, there could be c. 55.5 million tall trees (> 60 m height) across the Brazilian Amazon, with the highest density in the northeast portion. These trees have a disproportionate contribution to the carbon stored in these forests! nph.onlinelibrary.wiley.com/doi/10.1111/...
Reposted by Pieter Zuidema
🪵 Diameter drives short-term biomass gains, but long-term carbon storage hinges on wood density, especially in humid forests. To improve accuracy, biomass models should account for radial wood density variation and climate ☁️
🔎 Find out more: buff.ly/kZFoh9B
🔎 Find out more: buff.ly/kZFoh9B
October 19, 2025 at 4:03 PM
🪵 Diameter drives short-term biomass gains, but long-term carbon storage hinges on wood density, especially in humid forests. To improve accuracy, biomass models should account for radial wood density variation and climate ☁️
🔎 Find out more: buff.ly/kZFoh9B
🔎 Find out more: buff.ly/kZFoh9B
New #timber #tracing paper on power of combined methods.
Study led by @lauraboeschoten.bsky.social & Barbara RV Meyer-Sand for African timber shows combining methods boosts reliability of tracing. With 3 methods: 95% of samples traced back to <100 km of origin. 🌎🌐🍁
👉 www.nature.com/articles/s43...
Study led by @lauraboeschoten.bsky.social & Barbara RV Meyer-Sand for African timber shows combining methods boosts reliability of tracing. With 3 methods: 95% of samples traced back to <100 km of origin. 🌎🌐🍁
👉 www.nature.com/articles/s43...
Combined genetic and chemical methods boost the precision of tracing illegal timber in Central Africa - Communications Earth & Environment
The origin of timber was correctly identified for 94% of samples in Central Africa, a high-risk region with low tracing accuracy to date, according to an analysis that combined genetic, stable isotope...
www.nature.com
October 17, 2025 at 3:25 PM
New #timber #tracing paper on power of combined methods.
Study led by @lauraboeschoten.bsky.social & Barbara RV Meyer-Sand for African timber shows combining methods boosts reliability of tracing. With 3 methods: 95% of samples traced back to <100 km of origin. 🌎🌐🍁
👉 www.nature.com/articles/s43...
Study led by @lauraboeschoten.bsky.social & Barbara RV Meyer-Sand for African timber shows combining methods boosts reliability of tracing. With 3 methods: 95% of samples traced back to <100 km of origin. 🌎🌐🍁
👉 www.nature.com/articles/s43...
Reposted by Pieter Zuidema
🪵Combined methods boost the precision of tracing illegal timber
The origin of timber was correctly identified for 94% of samples in Central Africa, a high-risk region with low tracing accuracy to date.
@lauraboeschoten.bsky.social @pieterzuidema.bsky.social
👉Read here: www.nature.com/articles/s43...
The origin of timber was correctly identified for 94% of samples in Central Africa, a high-risk region with low tracing accuracy to date.
@lauraboeschoten.bsky.social @pieterzuidema.bsky.social
👉Read here: www.nature.com/articles/s43...
Combined genetic and chemical methods boost the precision of tracing illegal timber in Central Africa - Communications Earth & Environment
The origin of timber was correctly identified for 94% of samples in Central Africa, a high-risk region with low tracing accuracy to date, according to an analysis that combined genetic, stable isotope...
www.nature.com
October 15, 2025 at 7:40 PM
🪵Combined methods boost the precision of tracing illegal timber
The origin of timber was correctly identified for 94% of samples in Central Africa, a high-risk region with low tracing accuracy to date.
@lauraboeschoten.bsky.social @pieterzuidema.bsky.social
👉Read here: www.nature.com/articles/s43...
The origin of timber was correctly identified for 94% of samples in Central Africa, a high-risk region with low tracing accuracy to date.
@lauraboeschoten.bsky.social @pieterzuidema.bsky.social
👉Read here: www.nature.com/articles/s43...
Reposted by Pieter Zuidema
Climate change is reshaping forest growth 🌳🌡️💧
Water and temperature control growth timing.
Warmer winters make some species start growing earlier.
Hot, dry summers may shorten growing seasons.
New paper out @globalchangebio.bsky.social led by a former PhD student @csic.es shorturl.at/5Gn8a
Water and temperature control growth timing.
Warmer winters make some species start growing earlier.
Hot, dry summers may shorten growing seasons.
New paper out @globalchangebio.bsky.social led by a former PhD student @csic.es shorturl.at/5Gn8a
Long‐Term Cambial Phenology Reveals Diverging Growth Responses of Two Tree Species in a Mixed Forest Under Climate Change
We studied how climate change affects tree growth by monitoring wood formation in Scots pine (Pinus sylvestris) and Pyrenean oak (Quercus pyrenaica) over 11 years. We found that warmer winters lead t...
onlinelibrary.wiley.com
September 23, 2025 at 3:59 PM
Climate change is reshaping forest growth 🌳🌡️💧
Water and temperature control growth timing.
Warmer winters make some species start growing earlier.
Hot, dry summers may shorten growing seasons.
New paper out @globalchangebio.bsky.social led by a former PhD student @csic.es shorturl.at/5Gn8a
Water and temperature control growth timing.
Warmer winters make some species start growing earlier.
Hot, dry summers may shorten growing seasons.
New paper out @globalchangebio.bsky.social led by a former PhD student @csic.es shorturl.at/5Gn8a
Reposted by Pieter Zuidema
A must-read special issue: “Bending the curve towards nature recovery: building on Georgina Mace’s legacy”
royalsocietypublishing.org/toc/rstb/202...
I: Determinants of diversity & resilience.
II: Measuring the state of biodiversity
III: Biodiversity & natural capital
IV: Future scenarios for nature
royalsocietypublishing.org/toc/rstb/202...
I: Determinants of diversity & resilience.
II: Measuring the state of biodiversity
III: Biodiversity & natural capital
IV: Future scenarios for nature
Philosophical Transactions of the Royal Society B: Biological Sciences: Vol 380, No 1917
royalsocietypublishing.org
September 24, 2025 at 7:19 PM
A must-read special issue: “Bending the curve towards nature recovery: building on Georgina Mace’s legacy”
royalsocietypublishing.org/toc/rstb/202...
I: Determinants of diversity & resilience.
II: Measuring the state of biodiversity
III: Biodiversity & natural capital
IV: Future scenarios for nature
royalsocietypublishing.org/toc/rstb/202...
I: Determinants of diversity & resilience.
II: Measuring the state of biodiversity
III: Biodiversity & natural capital
IV: Future scenarios for nature
Reposted by Pieter Zuidema
Attribution of vegetation change to climate change: here we compared vegetation time series to simulations from a process model forced with observed and counterfactual (detrended) climate data. Trends in climate necessary for the model to emulate vegetation trends www.nature.com/articles/s41... 1/3
Shifts in vegetation activity of terrestrial ecosystems attributable to climate trends - Nature Geoscience
An analysis fusing satellite data with a process-based model of plant growth attributes changes in vegetation activity across terrestrial ecosystems to climatic changes.
www.nature.com
September 25, 2025 at 9:39 AM
Attribution of vegetation change to climate change: here we compared vegetation time series to simulations from a process model forced with observed and counterfactual (detrended) climate data. Trends in climate necessary for the model to emulate vegetation trends www.nature.com/articles/s41... 1/3
Yesterday, Bo Zhou successfully defended his PhD thesis at @w-u-r.bsky.social on carbon & water dynamics in a montane forest in subtropical China. Bo studied tree growth rythms & transpiration fluxes.
🎉Congrats 🎓 Dr Bo!
▶️ Defense: wur.yuja.com/V/Watch?v=93...
📙Thesis: research.wur.nl/en/publicati...
🎉Congrats 🎓 Dr Bo!
▶️ Defense: wur.yuja.com/V/Watch?v=93...
📙Thesis: research.wur.nl/en/publicati...
September 18, 2025 at 7:43 AM
Yesterday, Bo Zhou successfully defended his PhD thesis at @w-u-r.bsky.social on carbon & water dynamics in a montane forest in subtropical China. Bo studied tree growth rythms & transpiration fluxes.
🎉Congrats 🎓 Dr Bo!
▶️ Defense: wur.yuja.com/V/Watch?v=93...
📙Thesis: research.wur.nl/en/publicati...
🎉Congrats 🎓 Dr Bo!
▶️ Defense: wur.yuja.com/V/Watch?v=93...
📙Thesis: research.wur.nl/en/publicati...
Reposted by Pieter Zuidema
Plant species–habitat networks in a mosaic landscape of restored and fragmented tropical forests 🌲🌏
Highlights the role of species interactions and their correlated traits such as dispersal syndromes in promoting landscape-scale connectivity 📊🧪
🔗 doi.org/10.1111/1365...
Highlights the role of species interactions and their correlated traits such as dispersal syndromes in promoting landscape-scale connectivity 📊🧪
🔗 doi.org/10.1111/1365...
September 5, 2025 at 4:03 PM
Plant species–habitat networks in a mosaic landscape of restored and fragmented tropical forests 🌲🌏
Highlights the role of species interactions and their correlated traits such as dispersal syndromes in promoting landscape-scale connectivity 📊🧪
🔗 doi.org/10.1111/1365...
Highlights the role of species interactions and their correlated traits such as dispersal syndromes in promoting landscape-scale connectivity 📊🧪
🔗 doi.org/10.1111/1365...
Reposted by Pieter Zuidema
Good news for a change: Background mortality in unmanaged forests of Europe has not increased over past decades. Great work from the European Forest Reserve Initiative EuFoRIa, out in @journalofecology.bsky.social doi.org/10.1111/1365...
September 2, 2025 at 1:42 PM
Good news for a change: Background mortality in unmanaged forests of Europe has not increased over past decades. Great work from the European Forest Reserve Initiative EuFoRIa, out in @journalofecology.bsky.social doi.org/10.1111/1365...
Reposted by Pieter Zuidema
🌱 Study in the tropical–subtropical zone shows slope and species diversity shape carbon sequestration!
Leaf nutrients + soil N and P = key drivers of soil organic carbon.
Random Forest and SEM offer restoration insights.
🔗https://link.springer.com/article/10.1007/s11676-025-01895-y
🧪🌏🌐🍁🌺🌱🌿🦤
Leaf nutrients + soil N and P = key drivers of soil organic carbon.
Random Forest and SEM offer restoration insights.
🔗https://link.springer.com/article/10.1007/s11676-025-01895-y
🧪🌏🌐🍁🌺🌱🌿🦤
August 28, 2025 at 9:05 AM
🌱 Study in the tropical–subtropical zone shows slope and species diversity shape carbon sequestration!
Leaf nutrients + soil N and P = key drivers of soil organic carbon.
Random Forest and SEM offer restoration insights.
🔗https://link.springer.com/article/10.1007/s11676-025-01895-y
🧪🌏🌐🍁🌺🌱🌿🦤
Leaf nutrients + soil N and P = key drivers of soil organic carbon.
Random Forest and SEM offer restoration insights.
🔗https://link.springer.com/article/10.1007/s11676-025-01895-y
🧪🌏🌐🍁🌺🌱🌿🦤
Reposted by Pieter Zuidema
FINAL VERSION PUBLISHED @forestecosyst.bsky.social
📰Tree competition in West African tropical forests mediated by the functional attributes of species and variation in soil moisture www.sciencedirect.com/science/arti...
📰Tree competition in West African tropical forests mediated by the functional attributes of species and variation in soil moisture www.sciencedirect.com/science/arti...
August 29, 2025 at 2:14 AM
FINAL VERSION PUBLISHED @forestecosyst.bsky.social
📰Tree competition in West African tropical forests mediated by the functional attributes of species and variation in soil moisture www.sciencedirect.com/science/arti...
📰Tree competition in West African tropical forests mediated by the functional attributes of species and variation in soil moisture www.sciencedirect.com/science/arti...
#Tree stems accumulate biomass by adding volume of certain density. Which factor is more important?
Using tropical #treering data we found: diameter increment explains biomass growth at short term; wood density at long term.🌎🌐🍁
#dendrochronology
besjournals.onlinelibrary.wiley.com/doi/10.1111/...
Using tropical #treering data we found: diameter increment explains biomass growth at short term; wood density at long term.🌎🌐🍁
#dendrochronology
besjournals.onlinelibrary.wiley.com/doi/10.1111/...
Biomass production of tropical trees across space and time: The shifting roles of diameter growth and wood density
Diameter growth is an important and good indicator of forest carbon production. However, size-related changes in wood density, which are usually neglected, are critical for accurate short- and long-t...
besjournals.onlinelibrary.wiley.com
August 29, 2025 at 9:19 PM
#Tree stems accumulate biomass by adding volume of certain density. Which factor is more important?
Using tropical #treering data we found: diameter increment explains biomass growth at short term; wood density at long term.🌎🌐🍁
#dendrochronology
besjournals.onlinelibrary.wiley.com/doi/10.1111/...
Using tropical #treering data we found: diameter increment explains biomass growth at short term; wood density at long term.🌎🌐🍁
#dendrochronology
besjournals.onlinelibrary.wiley.com/doi/10.1111/...
Reposted by Pieter Zuidema
⛰️🌳New study examines wood density variation across an elevational gradient from the Andean tree line to the Amazon basin, finding a decline from low to middle elevations, followed by an increase near the tree line. Species composition and disturbances influenced this pattern. 👉 buff.ly/ujConkt
August 21, 2025 at 8:05 AM
⛰️🌳New study examines wood density variation across an elevational gradient from the Andean tree line to the Amazon basin, finding a decline from low to middle elevations, followed by an increase near the tree line. Species composition and disturbances influenced this pattern. 👉 buff.ly/ujConkt
Reposted by Pieter Zuidema
🌳🔥Out now: Our review on compound droughts and forest responses - from leaf to ecosystem. Featuring a stunning 20-yr map of canopy temperatures variation across European forests. @chriswernerlab.bsky.social @simonhaber.bsky.social @vallicrosah.bsky.social onlinelibrary.wiley.com/doi/10.1111/...
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 ...
onlinelibrary.wiley.com
August 14, 2025 at 4:24 AM
🌳🔥Out now: Our review on compound droughts and forest responses - from leaf to ecosystem. Featuring a stunning 20-yr map of canopy temperatures variation across European forests. @chriswernerlab.bsky.social @simonhaber.bsky.social @vallicrosah.bsky.social onlinelibrary.wiley.com/doi/10.1111/...
Reposted by Pieter Zuidema
A big congratulations to William Farhan-Rios on this paper in @pnas.org, featuring a study of tropical-forest change over four decades along the Amazon-to-Andes elevational gradient in Bolivia and Peru 🌴 ⛰️ 🌐
@mobotgarden.bsky.social @livingearthcollab.bsky.social
1/3
www.pnas.org/doi/10.1073/...
@mobotgarden.bsky.social @livingearthcollab.bsky.social
1/3
www.pnas.org/doi/10.1073/...
Amazonian and Andean tree communities are not tracking current climate warming | PNAS
Climate change is shifting species distributions, leading to changes in community
composition and novel species assemblages worldwide. However, the...
www.pnas.org
August 19, 2025 at 5:38 PM
A big congratulations to William Farhan-Rios on this paper in @pnas.org, featuring a study of tropical-forest change over four decades along the Amazon-to-Andes elevational gradient in Bolivia and Peru 🌴 ⛰️ 🌐
@mobotgarden.bsky.social @livingearthcollab.bsky.social
1/3
www.pnas.org/doi/10.1073/...
@mobotgarden.bsky.social @livingearthcollab.bsky.social
1/3
www.pnas.org/doi/10.1073/...
Reposted by Pieter Zuidema
🌳 Forests of the future are growing fast!
By 2100, Quercus mongolica stands could see +145% volume and +80% productivity under RCP8.5.
3-PG + Bayesian calibration = sharper growth predictions.
👉 Explore the findings: link.springer.com/article/10.1...
#Forestry #ClimateChange #TreeGrowth
🌏🌐🍁🌺🌱🌿🦤
By 2100, Quercus mongolica stands could see +145% volume and +80% productivity under RCP8.5.
3-PG + Bayesian calibration = sharper growth predictions.
👉 Explore the findings: link.springer.com/article/10.1...
#Forestry #ClimateChange #TreeGrowth
🌏🌐🍁🌺🌱🌿🦤
Parameterization of the 3-PG model for Quercus mongolica by using tree-ring data and Bayesian calibration - Journal of Forestry Research
Although Quercus mongolica is a widely distributed, economically and ecologically important deciduous tree in northern China, models to accurately predict stand growth at a regional scale are limited....
link.springer.com
August 20, 2025 at 8:06 AM
🌳 Forests of the future are growing fast!
By 2100, Quercus mongolica stands could see +145% volume and +80% productivity under RCP8.5.
3-PG + Bayesian calibration = sharper growth predictions.
👉 Explore the findings: link.springer.com/article/10.1...
#Forestry #ClimateChange #TreeGrowth
🌏🌐🍁🌺🌱🌿🦤
By 2100, Quercus mongolica stands could see +145% volume and +80% productivity under RCP8.5.
3-PG + Bayesian calibration = sharper growth predictions.
👉 Explore the findings: link.springer.com/article/10.1...
#Forestry #ClimateChange #TreeGrowth
🌏🌐🍁🌺🌱🌿🦤
Reposted by Pieter Zuidema
#NatMicroPicks
Hidden microbial world in trees🌳
Living wood hosts trillions of bacteria making trees a complex ecosystems with major roles in forest health and function.
#PlantMicro #MicroSky
www.nature.com/articles/s41...
Hidden microbial world in trees🌳
Living wood hosts trillions of bacteria making trees a complex ecosystems with major roles in forest health and function.
#PlantMicro #MicroSky
www.nature.com/articles/s41...
A diverse and distinct microbiome inside living trees - Nature
Microbiome analyses of living trees show that a single tree can host approximately one trillion bacteria, with microbial communities distinctly partitioned between heartwood and sapwood and with minim...
www.nature.com
August 8, 2025 at 2:28 PM
#NatMicroPicks
Hidden microbial world in trees🌳
Living wood hosts trillions of bacteria making trees a complex ecosystems with major roles in forest health and function.
#PlantMicro #MicroSky
www.nature.com/articles/s41...
Hidden microbial world in trees🌳
Living wood hosts trillions of bacteria making trees a complex ecosystems with major roles in forest health and function.
#PlantMicro #MicroSky
www.nature.com/articles/s41...
Reposted by Pieter Zuidema
Few weeks left to apply for a fully funded PhD studentship in my lab @rhulbiology.bsky.social as part of new EU project Trees4Adapt
🌲🌳 Fieldwork in forest diversity experiments in Finland www.sataforestdiversity.org
📆 Apply by Sept 8th, start date - Jan 2026
👉 www.findaphd.com/phds/project...
🍁🌍🧪
🌲🌳 Fieldwork in forest diversity experiments in Finland www.sataforestdiversity.org
📆 Apply by Sept 8th, start date - Jan 2026
👉 www.findaphd.com/phds/project...
🍁🌍🧪
August 11, 2025 at 10:43 AM
Few weeks left to apply for a fully funded PhD studentship in my lab @rhulbiology.bsky.social as part of new EU project Trees4Adapt
🌲🌳 Fieldwork in forest diversity experiments in Finland www.sataforestdiversity.org
📆 Apply by Sept 8th, start date - Jan 2026
👉 www.findaphd.com/phds/project...
🍁🌍🧪
🌲🌳 Fieldwork in forest diversity experiments in Finland www.sataforestdiversity.org
📆 Apply by Sept 8th, start date - Jan 2026
👉 www.findaphd.com/phds/project...
🍁🌍🧪
Reposted by Pieter Zuidema
🌲 How does thinning influence the #carbon balance in upland vs peatland forests?
Thanks to @holisoils.bsky.social for shedding light on how #ForestManagement affects different soil types.
#ForestryResearch #ClimateAction #SoilScience #JFR
🧪🌏🌐🍁🌺🌱🌿🦤
Thanks to @holisoils.bsky.social for shedding light on how #ForestManagement affects different soil types.
#ForestryResearch #ClimateAction #SoilScience #JFR
🧪🌏🌐🍁🌺🌱🌿🦤
🌲Thinning is a common #ForestManagement practice, but how does it impact #carbon dynamics across different #forest types?
A recent #HoliSoils study explores this question in an upland forest on mineral #soil and a drained peatland forest 🔎🌱🏞️
📖 Find out more ⬇️
holisoils.eu/how-does-thi...
A recent #HoliSoils study explores this question in an upland forest on mineral #soil and a drained peatland forest 🔎🌱🏞️
📖 Find out more ⬇️
holisoils.eu/how-does-thi...
How does thinning affect forest carbon? A look at an upland and a drained peatland forest - HoliSoils
Thinning, the practice of removing some trees to help others grow better, changes how much carbon a forest stores or releases. We studied this effect in two
holisoils.eu
August 11, 2025 at 2:12 PM
🌲 How does thinning influence the #carbon balance in upland vs peatland forests?
Thanks to @holisoils.bsky.social for shedding light on how #ForestManagement affects different soil types.
#ForestryResearch #ClimateAction #SoilScience #JFR
🧪🌏🌐🍁🌺🌱🌿🦤
Thanks to @holisoils.bsky.social for shedding light on how #ForestManagement affects different soil types.
#ForestryResearch #ClimateAction #SoilScience #JFR
🧪🌏🌐🍁🌺🌱🌿🦤