Yinghuan Xie
@midwayxie.bsky.social
PhD candidate at University of Tasmania, Ocean-BGC modeller focusing on marine CDR
Does ocean model resolution change how fast CO₂ equilibrates with the air?
In our new study with @bachlennart.bsky.social and @mtyka.bsky.social, we found small resolution effects but large inter-model spreads —highlighting the next goal for improving mCDR predictions. link: doi.org/10.1029/2024...
In our new study with @bachlennart.bsky.social and @mtyka.bsky.social, we found small resolution effects but large inter-model spreads —highlighting the next goal for improving mCDR predictions. link: doi.org/10.1029/2024...
October 10, 2025 at 3:49 AM
Does ocean model resolution change how fast CO₂ equilibrates with the air?
In our new study with @bachlennart.bsky.social and @mtyka.bsky.social, we found small resolution effects but large inter-model spreads —highlighting the next goal for improving mCDR predictions. link: doi.org/10.1029/2024...
In our new study with @bachlennart.bsky.social and @mtyka.bsky.social, we found small resolution effects but large inter-model spreads —highlighting the next goal for improving mCDR predictions. link: doi.org/10.1029/2024...
Reposted by Yinghuan Xie
Our new paper with Mengyang Zhou, Elizabeth Yankovsky, and Dustin Carroll is out as a preprint: egusphere.copernicus.org/preprints/20... "Substantial inter-model variation in OAE efficiency between the CESM2/MARBL and ECCO-Darwin ocean biogeochemistry models"
September 4, 2025 at 4:47 PM
Our new paper with Mengyang Zhou, Elizabeth Yankovsky, and Dustin Carroll is out as a preprint: egusphere.copernicus.org/preprints/20... "Substantial inter-model variation in OAE efficiency between the CESM2/MARBL and ECCO-Darwin ocean biogeochemistry models"
Reposted by Yinghuan Xie
🚨 New paper alert 🚨
We developed the new PanAntarctic model and assessed the sensitivity of Antarctic Bottom Water (AABW) formation and export to horizontal model resolutions of 1/10°, 1/20° and 1/40°.
Open access paper in JAMES:
doi.org/10.1029/2024...
We developed the new PanAntarctic model and assessed the sensitivity of Antarctic Bottom Water (AABW) formation and export to horizontal model resolutions of 1/10°, 1/20° and 1/40°.
Open access paper in JAMES:
doi.org/10.1029/2024...
July 14, 2025 at 5:48 AM
🚨 New paper alert 🚨
We developed the new PanAntarctic model and assessed the sensitivity of Antarctic Bottom Water (AABW) formation and export to horizontal model resolutions of 1/10°, 1/20° and 1/40°.
Open access paper in JAMES:
doi.org/10.1029/2024...
We developed the new PanAntarctic model and assessed the sensitivity of Antarctic Bottom Water (AABW) formation and export to horizontal model resolutions of 1/10°, 1/20° and 1/40°.
Open access paper in JAMES:
doi.org/10.1029/2024...
Reposted by Yinghuan Xie
Would marine calcifiers such as coccolithophores benefit from changes in carbonate chemistry under ocean alkalinity enhancement? @bachlennart.bsky.social and I tried to answer this question in a new natural analogue study out now in Nature Geoscience! @naturegeosci.bsky.social 🌊🧪 rdcu.be/d9zdH 1/10
February 12, 2025 at 10:25 PM
Would marine calcifiers such as coccolithophores benefit from changes in carbonate chemistry under ocean alkalinity enhancement? @bachlennart.bsky.social and I tried to answer this question in a new natural analogue study out now in Nature Geoscience! @naturegeosci.bsky.social 🌊🧪 rdcu.be/d9zdH 1/10
🚨 New preprint! 🚨
We explore how model resolution and different models affect air-sea CO2 equilibration timescales.
Turns out, resolution matters more in some regions than others — but differences between models generally matter more 🌍🌊
Check it out here 👉 essopenarchive.org/doi/full/10....
We explore how model resolution and different models affect air-sea CO2 equilibration timescales.
Turns out, resolution matters more in some regions than others — but differences between models generally matter more 🌍🌊
Check it out here 👉 essopenarchive.org/doi/full/10....
The effect of model resolution on air-sea CO2 equilibration timescales
Marine Carbon Dioxide Removal (mCDR) will likely play a role in aspirations to keep global warming below 2°C. mCDR methods create a deficit in dissolved inorganic carbon concentration (DIC), relative...
essopenarchive.org
April 9, 2025 at 7:12 AM
🚨 New preprint! 🚨
We explore how model resolution and different models affect air-sea CO2 equilibration timescales.
Turns out, resolution matters more in some regions than others — but differences between models generally matter more 🌍🌊
Check it out here 👉 essopenarchive.org/doi/full/10....
We explore how model resolution and different models affect air-sea CO2 equilibration timescales.
Turns out, resolution matters more in some regions than others — but differences between models generally matter more 🌍🌊
Check it out here 👉 essopenarchive.org/doi/full/10....
Reposted by Yinghuan Xie
New paper by @midwayxie.bsky.social with CCRC co-authors Hannah Dawson & @christinaocean.bsky.social:
Waters subducting into the deep ocean near Antarctica can sequester CO2 for centuries. By analysing how long these waters stay in the euphotic zone we found that light is limiting CO2 fixation.
Waters subducting into the deep ocean near Antarctica can sequester CO2 for centuries. By analysing how long these waters stay in the euphotic zone we found that light is limiting CO2 fixation.
May 29, 2024 at 11:17 PM
New paper by @midwayxie.bsky.social with CCRC co-authors Hannah Dawson & @christinaocean.bsky.social:
Waters subducting into the deep ocean near Antarctica can sequester CO2 for centuries. By analysing how long these waters stay in the euphotic zone we found that light is limiting CO2 fixation.
Waters subducting into the deep ocean near Antarctica can sequester CO2 for centuries. By analysing how long these waters stay in the euphotic zone we found that light is limiting CO2 fixation.