Mark Felix Christopher

From Bioblast
Revision as of 15:36, 5 August 2020 by Schmitt Sabine (talk | contribs) (Schmitt Sabine moved page Mark FC to Mark Felix Christopher)
(diff) ← Older revision | Latest revision (diff) | Newer revision β†’ (diff)


MiPsociety
News and Events        
BEC 2020.1 Mitochondrial physiology
       
MitoEAGLE
        Working Groups         Short-Term Scientific Missions         Management Committee         Members        
MitoGlobal
   


EU-logo.jpg

COST Action CA15203 (2016-2021): MitoEAGLE
Evolution-Age-Gender-Lifestyle-Environment: mitochondrial fitness mapping


Mark Felix Christopher


MitoPedia topics: EAGLE 

COST: Member COST WG1: WG1 COST WG2: WG2


Name Mark Felix C., Dr.
Institution
Felix Mark

Integrative Ecophysiology

Alfred Wegener Institute for Polar and Marine Research

Address Am Handelshafen 12, 27570
City Bremerhaven
State/Province
Country Germany
Email fmark@awi.de
Weblink
O2k-Network Lab DE Bremerhaven Mark FC


Labels:



Publications

 PublishedReference
Leo 2021 Conserv Physiol2021Leo E, Dahlke FT, Storch D, Poertner HO, Mark FC (2021) Impact of ocean acidification and warming on the bioenergetics of developing eggs of atlantic herring Clupea harengus. Conserv Physiol 6:50.
Leo 2018 Conserv Physiol2018Leo E, Dahlke FT, Storch D, Poertner HO, Mark FC (2018) Impact of Ocean Acidification and Warming on the bioenergetics of developing eggs of Atlantic herring Clupea harengus. Conserv Physiol 6:coy050.
Leo 2017 Front Zool2017Leo E, Kunz KL, Schmidt M, Storch D, Portner HO, Mark FC (2017) Mitochondrial acclimation potential to ocean acidification and warming of Polar cod (Boreogadus saida) and Atlantic cod (Gadus morhua). Front Zool 14:21.
Dahlke 2017 Glob Chang Biol2017Dahlke FT, Leo E, Mark FC, PΓΆrtner HO, Bickmeyer U, Frickenhaus S, Storch D (2017) Effects of ocean acidification increase embryonic sensitivity to thermal extremes in Atlantic cod, Gadus morhua. Glob Chang Biol 23(4):1499-1510.
Shama 2016 Evol Appl2016Shama LNS, Mark FC, Strobel A, Lokmer A, John U, Wegner KM (2016) Transgenerational effects persist down the maternal line in marine sticklebacks: gene expression matches physiology in a warming ocean. Evol Appl 10013/epic.47323.
Oellermann 2015 Front Zool2015Oellermann M, Lieb B, PΓΆrtner HO, Semmens JM, Mark FC (2015) Blue blood on ice: modulated blood oxygen transport facilitates cold compensation and eurythermy in an Antarctic octopod. Front Zool 12:6.
Shama 2014 Funct Ecol2014Shama LNS, Strobel A, Mark FC, Wegner KM (2014) Transgenerational plasticity in marine sticklebacks: maternal effects mediate impacts of a warming ocean. Funct Ecol 28:1482–93.
Strobel 2013 PLoS One2013Strobel A, Graeve M, Poertner HO, Mark FC (2013) Mitochondrial acclimation capacities to ocean warming and acidification are limited in the antarctic nototheniid fish, Notothenia rossii and Lepidonotothen squamifrons. PLoS One 8:e68865.
Strobel 2013 Comp Biochem Physiol B Biochem Mol Biol2013Strobel A, Leo E, PΓΆrtner HO, Mark FC (2013) Elevated temperature and PCO2 shift metabolic pathways in differentially oxidative tissues of Notothenia rossii. Comp Biochem Physiol B Biochem Mol Biol 166:48-57.
Mark 2012 PLoS One2012Mark FC, Lucassen M, Strobel A, Barrera-Oro E, Koschnick N, Zane L, Patarnello T, PΓΆrtner HO, Papetti C (2012) Mitochondrial function in Antarctic Nototheniids with ND6 translocation. PLoS One 7:e31860
Oellermann 2012 J Exp Biol2012Oellermann M, Poertner HO, Mark FC (2012) Mitochondrial dynamics underlying thermal plasticity of cuttlefish (Sepia officinalis) hearts. J Exp Biol 215:2992-3000.
Strobel 2012 Front Zool2012Strobel A, Bennecke S, Leo E, Mintenbeck K, PΓΆrtner HO, Mark FC (2012) Metabolic shifts in the Antarctic fish Notothenia rossii in response to rising temperature and PCO2. Front Zool 9:28.

Abstracts

 PublishedReference
Mark 2012 Abstract Bioblast2012Mark FC, Strobel A, Poertner HO (2012) Ocean warming and acidification – when fish mitochondria turn sour. Mitochondr Physiol Network 17.12.
Mark 2010 Abstract IOC602010Mark FC (2010) Mitochondrial plasticity and environmental change in Antarctic, Austral and temperate fish and cephalopods. MiPNet15.10.


Participated at

Cookies help us deliver our services. By using our services, you agree to our use of cookies.