The next Ocean Sciences campfire will be on 9 July 2026, 13:00-14:30 CEST. Our two speakers will be:
Dr. Cheng-Shiuan Lee (Research Center for Environmental Changes, Academia Sinica)
Dr. Paridhi Rustogi (Princeton University)
📍Register here: www.egu.eu/webinars/815...
After a great kick off in March, the Ocean Sciences Campfire series will be back on 28 May with two very promising talks.
We are looking forward to seeing many of you there!
🗓️ 28 May 2026, 13:00-14:30 CEST
📍 Register here: www.egu.eu/webinars/745...
🌊 A record-long Indian Ocean Dipole event (2021–2022): a 19-month negative phase sustained by persistent westerly wind anomalies, intensified equatorial currents, and subsurface heat storage reveals how the Indian Ocean can retain climate anomalies. 🌬️🌡️
🔗 Blog post: blogs.egu.eu/divisions/os...
🌊 The #EGU #OceanSciences Division Blog is looking for new volunteer editors!
If you enjoy science communication and want to help share exciting ocean research, we would love to hear from you!
blogs.egu.eu/divisions/os...
🌊 New interface for ocean carbonate chemistry data
bit.ly/4tJ27ta
Jiang et al. (2026) compiled 68 cruise, time-series, observational, and model-based products, highlighting differences in coverage, resolution, and methods.
Find the right dataset for your ocean carbon research:
🔗 bit.ly/3PWvud7
🌬️🌊 Find out in our latest blog post how winds above Antarctica can shape the deep ocean. 🔗 bit.ly/4rU6HDB
The Zonal Wave-3 atmospheric pattern influences sea ice and polynyas, helping control how much dense water sinks to form Antarctic Bottom Water.
@egu.eu #OceanScience #Oceanography
The first EGU Ocean Sciences Campfire is coming up! 🔥🌊
📆 Date and time: 26 March 2026, 13:00 - 14:30 GMT+1
🌊 Speakers: Dr. Alejandro Román & Dr. Nicolás Sánchez
👉 Register here: www.egu.eu/webinars/698...
#EGU #OceanSciences #ECRs #MarineScience
🌊 Satellite chlorophyll observations often have large gaps. Explore this new global chlorophyll-a dataset at a monthly 0.25° resolution (with uncertainties), where missing data were filled using Biogeochemical Argo observations.
💡 blogs.egu.eu/divisions/os...
@oc4c.bsky.social @egu.eu #OceanScience
Are you attending the #EGU26 but facing financial barriers or special needs?
No worries! The EGU #EDI Participation Support Scheme is here to help!
📆 Apply by 20 February 2026 to receive financial support!
👉 Learn more about the application requirements here: egu.eu/50E3NI
🌊🚨 New study! Beyond wind speed: what really controls air–sea gas exchange?
A Baltic Sea study shows CO₂ transfer can be ~30% lower than in the open ocean due to
👉 limited fetch → smaller waves
👉 surfactants dampen turbulence
Surface conditions matter!
🔗 bit.ly/4d0xx8V
@egu.eu #Oceanography
The Indian Ocean Dipole (IOD) is generally considered a seasonal mode of variability, developing and decaying within a single year. During 2021–2022, however, negative IOD conditions persisted for app...
Here is a great resource for anyone working on ocean carbon: Jiang et al. (2026) compiled a comprehensive synthesis of data products for ocean carbonate chemistry — all in one place for you! The paper...
bit.ly
The EGU Ocean Sciences division blog is looking for new volunteer editors. So far, the team consists of two early career scientists, Jacqueline and Maurie — both working in ocean biogeochemistry — and...
The ocean surrounding Antarctica plays a crucial role in the climate system. Along parts of the Antarctic coast, very cold and salty water becomes dense enough to sink all the way to the ocean floor. ...
bit.ly
Chlorophyll-a (chl-a), as the dominant photosynthetic pigment within phytoplankton, provides an indication of the phytoplankton biomass and are essential for understanding global and regional changes ...
blogs.egu.eu
When we think about what drives air-sea gas exchange (such as CO2), wind usually gets all the credit. Strong winds stir the surface, enhance turbulence, and speed up gas transfer. But a new study in A...
