We’re excited to welcome new members to OYSTER in 2026! 🌊
Ingrid Cardenas works on estimating blue carbon stocks in marshes & mangroves using remote sensing, field data, and modelling.
Great to have you on the team, Ingrid 👏
New paper!
We show that in situ responses of the common goby to #seasonal change vary even across small-scale #latitudinal gradients. Southern #populations exhibit higher vulnerability than their northern counterparts, a pattern driven by reduced metabolic plasticity and increased #cellular damage.
www.sciencedirect.com/journal/scie...
This is what they have in their website. Maybe it helps to clarify the situation!
Just a question: what actually this means for the papers already published there? Did they do not count anymore? And the citations? Thanks for sharing the news!!
The effects of temperature on organismal performance are depicted using thermal performance curves, where performance is greatest at the optimal temperature and starts to decrease toward cooler or warmer temperatures, reflecting the thermal window (tolerable range of temperatures) of the species. Briefly, the Oxygen and Capacity Limited Thermal Tolerance hypothesis proposes that oxygen limitation explains the performance decline at high temperatures and sets the first boundary for thermal limits across ectotherms. This is due to a mismatch between the oxygen demand of the organism and the capacity of the cardiorespiratory system to supply oxygen to tissues when the organism is under warming. This concept is central to predict species responses to warming. As oxygen supersaturation in water has been shown to alleviate oxygen supply limitations by increasing maximum rates of oxygen transport in blood, Raby and colleagues (2025) tested the effects of oxygen supersaturation on thermal tolerance across 14 aquatic species. The authors found that it had negligible effects on upper thermal limits, challenging the oxygen limitation hypothesis as a universal mechanism underpinning thermal tolerance of aquatic ectotherms. The authors highlight that oxygen supersaturation in water, a naturally occurring phenomenon in shallow waters, may not protect aquatic species from the effects of extreme heat.
Oxygen limitation is considered a key mechanism of #ThermalTolerance. @dianasmadeira.bsky.social explores how a @plosbiology.org study challenges this idea, showing minimal protective effects of O2 supersaturation in heat-stressed #aquatic #ectotherms 🧪 Paper: plos.io/43hzMQa Primer: plos.io/3XeUtbS
The effects of temperature on organismal performance are depicted using thermal performance curves, where performance is greatest at the optimal temperature and starts to decrease toward cooler or warmer temperatures, reflecting the thermal window (tolerable range of temperatures) of the species. Briefly, the Oxygen and Capacity Limited Thermal Tolerance hypothesis proposes that oxygen limitation explains the performance decline at high temperatures and sets the first boundary for thermal limits across ectotherms. This is due to a mismatch between the oxygen demand of the organism and the capacity of the cardiorespiratory system to supply oxygen to tissues when the organism is under warming. This concept is central to predict species responses to warming. As oxygen supersaturation in water has been shown to alleviate oxygen supply limitations by increasing maximum rates of oxygen transport in blood, Raby and colleagues (2025) tested the effects of oxygen supersaturation on thermal tolerance across 14 aquatic species. The authors found that it had negligible effects on upper thermal limits, challenging the oxygen limitation hypothesis as a universal mechanism underpinning thermal tolerance of aquatic ectotherms. The authors highlight that oxygen supersaturation in water, a naturally occurring phenomenon in shallow waters, may not protect aquatic species from the effects of extreme heat.
Oxygen limitation is considered a key mechanism of #ThermalTolerance. @dianasmadeira.bsky.social explores how a @plosbiology.org study challenges this idea, showing minimal protective effects of O2 supersaturation in heat-stressed #aquatic #ectotherms 🧪 Paper: plos.io/43hzMQa Primer: plos.io/3XeUtbS
📣 OYSTER EuroMarine – Call for New Members 📣
⌛ Call is open! Deadline: 19 December 2025 ⌛
More information here: euromarinenetwork.eu/news/oyster-...
@euromarine.bsky.social
#EuroMarine
#OYSTER
#EarlyCareerResearchers
#MarineScience
#ECRNetwork
#OceanCommunity
Guidelines for ensuring meaningful engagement of early career researchers in scientific collaborations: recommendations from and for marine and polar scientists 🌊
Many thanks to @laurakaikkonen.bsky.social and team for your efforts! 👥
academic.oup.com/icesjms/arti... @uaveiro.bsky.social #marine
Guidelines for ensuring meaningful engagement of early career researchers in scientific collaborations: recommendations from and for marine and polar scientists url: academic.oup.com/icesjms/arti...
📢 Are you a #marine #ECR?
Join us in the Pre-Event of EMBS in Bodø! Details👇
📅 Date: 5th July 2025
🕘 Time: 11AM to 7PM CET
📍Location: Room: Oscar sund 2, building: Noatun
Universitetsalléen 11, 8026 Bodø, Norway
🎟️ Registration: lnkd.in/eERnK686
Please register before the 2nd of July!
New #paper, in collaboration with UQAR, shows that the Northern #shrimp displays striking location-specific #phospholipidome responses to warming & acidification across the Northwest #Atlantic
@pierocalosi.bsky.social
@joanaff.bsky.social
doi.org/10.1016/j.en...
📢 Are you an Early Career in Marine Science? Share your experience! 🌊
Take our ECS network contribution survey 👇
www.surveymonkey.com/r/ECNetworks
#MarineScience #ECR #OYSTER #EuroMarine
🚨 THREAD ALERT 🚨
📢 Are you ready for our weekly #job thread 🌊⁉️
We come with several #PhD #PostDoc and other #JobOpportunities for #EarlyCareer marine scientist 🤿👩🔬👨💻
If you know of any other opportunities, comment below 👇 or DM us 💬
We're excited to welcome you to our BlueSky community! #OYSTER (Orienting Young Scientists of EuroMarine) is a network by and for Early Career Researchers (ECRs) in marine science aimed to support each other, share opportunities, and work for a more inclusive and empowering future ocean research 🌊
