0000000001303567

AUTHOR

Felix Christopher Mark

showing 8 related works from this author

A new haemocyanin in cuttlefish (Sepia officinalis) eggs: sequence analysis and relevance during ontogeny

2014

Abstract Background Haemocyanin is the respiratory protein of most of the Mollusca. In cephalopods and gastropods at least two distinct isoforms are differentially expressed. However, their physiological purpose is unknown. For the common cuttlefish Sepia officinalis, three isoforms are known so far, whereas for only two of them the complete mRNA sequences are available. In this study, we sequenced the complete mRNA of the third haemocyanin isoform and measured the relative expression of all three isoforms during embryogenesis to reveal a potential ontogenetic relevance. Results The cDNA of isoform 3 clearly correlates to the known Sepia officinalis haemocyanin subunits consisting of eight …

0106 biological sciencesGene isoformCuttlefishCephalopodsOntogenyZoologyDevelopmentBiology010603 evolutionary biology01 natural sciences03 medical and health sciencesPhylogeneticsGeneticsSepiaRespiratory proteinMolluscaEcology Evolution Behavior and Systematics030304 developmental biology0303 health sciencesMollusksResearchbiology.organism_classificationRespiratory proteinHaematopoiesisBiochemistryEmbryogenesisDevelopmental biologyDevelopmental Biology
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Influence of Temperature, Hypercapnia, and Development on the Relative Expression of Different Hemocyanin Isoforms in the Common CuttlefishSepia offi…

2012

The cuttlefish Sepia officinalis expresses several hemocyanin isoforms with potentially different pH optima, indicating their reliance on efficient pH regulation in the blood. Ongoing ocean warming and acidification could influence the oxygen-binding properties of respiratory pigments in ectothermic marine invertebrates. This study examined whether S. officinalis differentially expresses individual hemocyanin isoforms to maintain optimal oxygen transport during development and acclimation to elevated seawater pCO2 and temperature. Using quantitative PCR, we measured relative mRNA expression levels of three different hemocyanin isoforms in several ontogenetic stages (embryos, hatchlings, juv…

Cuttlefish0303 health sciencesPhysiologyEcology030310 physiologyOntogenymedicine.medical_treatmentOxygen transportHemocyaninMarine invertebratesBiologybiology.organism_classificationCephalopod03 medical and health sciencesBiochemistryHemolymphGeneticsmedicineAnimal Science and Zoology14. Life underwaterSepiaMolecular BiologyEcology Evolution Behavior and Systematics030304 developmental biologyJournal of Experimental Zoology Part A: Ecological Genetics and Physiology
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Transgenerational effects decrease larval resilience to ocean acidification & warming but juvenile European sea bass could benefit from higher te…

2021

1.AbstractThe aim of this study was to investigate the effect of ocean acidification (OA) and warming (OW) as well as the transgenerational effect of OA on larval and juvenile growth and metabolism of a large economically important fish species with a long generation time. Therefore we incubated European sea bass from Brittany (France) for two generations (>5 years in total) under current and predicted OA conditions (PCO2: 650 and 1700 µatm). In the F1 generation both OA condition were crossed with OW (temperature: 15-18°C and 20-23°C). We found that OA alone did not affect larval or juvenile growth and OW increased developmental time and growth rates, but OAW decreased larval size at me…

0106 biological sciencesLarva010604 marine biology & hydrobiologymedia_common.quotation_subjectF1 generationZoologyOcean acidificationBiology010603 evolutionary biology01 natural sciencesTransgenerational epigeneticsJuvenile14. Life underwaterMetamorphosisSea bassBeneficial effectsmedia_common
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Effects of temperature and CO2 on relative haemocyanin expression of the common cuttlefish Sepia officinalis

2009

0106 biological sciencesCuttlefish0303 health sciencesPhysiology030310 physiologyZoologyBiology010603 evolutionary biology01 natural sciencesBiochemistryFishery03 medical and health sciencesOfficinalisSepiaMolecular BiologyComparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology
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Oxygen consumption of F0 and F1 larval and juvenile European seabass Dicentrarchus labrax in resonse to ocean acidification and warming

2022

Ongoing climate change is leading to warmer and more acidic oceans. The future distribution of fish within the oceans depends on their capacity to adapt to these new environments. Only few studies have examined the effects of ocean acidification (OA) and warming (OW) on the metabolism of long-lived fish over successive generations. We therefore aimed to investigate the effect of OA on larval and juvenile growth and metabolism on two successive generations of European sea bass (Dicentrarchus labrax L.) as well as the effect of OAW on larval and juvenile growth and metabolism of the second generation. European sea bass is a large economically important fish species with a long generation time…

IdentificationDicentrarchus labrax routine metabolic rate per dry massLife stagedry massType of studyDicentrarchus labrax fork lengthGermanyWeightedCalculatedTreatment temperaturebody lengthlarval growthteleostOcean acidificationdissolvedTreatment partial pressure of carbon dioxideOptical oxygen meter with sensor OXR50 FireStingLaboratory experimentstandard metabolic rate per fresh massTreatment: temperatureDicentrarchus labrax standard metabolic rate per fresh massEarth System Researchmetabolic ratesUniform resource locator link to referenceDicentrarchus labrax dry massStereomicroscopy Leicafork lengthStereomicroscopy (Leica)GenerationOxygen dissolvedTank numberocean warmingjuvenile growthPyroScience GmbHAgeUniform resource locator/link to referenceDATE TIMEDicentrarchus labraxroutine metabolic rate per dry masswet weightedFulton's condition factorSpeciesFish wet weightedCaliperOptical oxygen meter with sensor OXROB10 (FireSting PyroScience GmbH Germany)Optical oxygen meter with sensor OXROB10 FireStingOptical oxygen meter with sensor OXR50 (FireSting PyroScience GmbH Germany)Fulton s condition factorOxygenDATE/TIMEFishSample IDTreatment: partial pressure of carbon dioxideDicentrarchus labrax body lengthmassDicentrarchus labrax mass
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Growth rates of F0 and F1 larval and juvenile European seabass Dicentrarchus labrax in resonse to ocean acidification and warming

2022

Ongoing climate change is leading to warmer and more acidic oceans. The future distribution of fish within the oceans depends on their capacity to adapt to these new environments. Only few studies have examined the effects of ocean acidification (OA) and warming (OW) on the metabolism of long-lived fish over successive generations. We therefore aimed to investigate the effect of OA on larval and juvenile growth and metabolism on two successive generations of European sea bass (Dicentrarchus labrax L.) as well as the effect of OAW on larval and juvenile growth and metabolism of the second generation. European sea bass is a large economically important fish species with a long generation time…

GenerationTank numberLife stagedry massType of studyocean warmingjuvenile growthAgeUniform resource locator/link to referenceWeightedDATE TIMEDicentrarchus labraxTreatment temperatureSpeciesbody lengthlarval growthteleostCaliperOcean acidificationTreatment partial pressure of carbon dioxideLaboratory experimentTreatment: temperatureDATE/TIMESample IDTreatment: partial pressure of carbon dioxideDicentrarchus labrax body lengthEarth System Researchmassmetabolic ratesUniform resource locator link to referenceDicentrarchus labrax dry massDicentrarchus labrax mass
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Experimental conditions for respiration and growth studies of F0 and F1 larval and juvenile European seabass Dicentrarchus labrax

2022

Water parameters in the 2 years before spawning of F0 (08.02.2016-06.03.2018) and during larval and juvenile phase of F1: Larval period until 17.05.2018 (48 dph, 900 dd) and 01.06.2018 (63 dph, ~900 dd) for warm and cold life condition respectively, for the juveniles until 28.09.2018 (180 dph, ~4000 dd) and 12.02.2019 (319 dph, ~5100 dd) for warm and cold conditioned fish respectively. Means ± s.e. over all replicate tanks per condition. Temperature (Temp.), pH (free scale), salinity, oxygen and total alkalinity (TA) were measured weekly in F1 and monthly in F0; sea water (SW) measurements were conducted in 2017 and 2018. Water parameters during larval and early juvenile phase of F0: Larval…

Calculated by CO2sys_xls_program Lewis and WallaceSalinityAlkalinityLife stageType of studyTemperature waterGermanyCalculatedAlkalinity totalSalinity standard errortotallarval growthteleostexperiment2006pH2007 with purified m cresol purpleOcean acidificationMeasured spectrophotometrically Dickson et alTemperatureWeilheimPartial pressure of carbon dioxide (water) at sea surface temperature (wet air) standard errorSilicatedissolvedLaboratory experimentSEAL AA3 segmented flow autoanalyzerSilicate standard errorstandard errorMultiprobeEarth System ResearchWTW 340imetabolic rateswaterGenerationOxygen dissolvedMultiprobe WTW 340iPhosphateocean warmingAlkalinity total standard errorjuvenile growthCarbon dioxide (water) partial pressurepH meter (WTW 3110) with electrode (WTW Sentix 41)DATE TIMEWTW Oxi 340i probeTemperature water standard errorCarbon dioxide water partial pressurepH standard errorXylem Analytics GermanySalinometer (WTW LF325 Xylem Analytics Germany Weilheim Germany)Calculated by CO2sys_xls_program (Lewis and Wallace 2006)OxygenTreatmentDATE/TIMEPartial pressure of carbon dioxide water at sea surface temperature wet airSalinometer WTW LF325Oxygen dissolved standard errorMeasured spectrophotometrically (Dickson et al. 2007) with purified m-cresol purplepH meter WTW 3110 with electrode WTW Sentix 41Phosphate standard error
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Respiration and growth rates of F0 and F1 larval and juvenile European seabass Dicentrarchus labrax in response to ocean acidification and warming

2022

Ongoing climate change is leading to warmer and more acidic oceans. The future distribution of fish within the oceans depends on their capacity to adapt to these new environments. Only few studies have examined the effects of ocean acidification (OA) and warming (OW) on the metabolism of long-lived fish over successive generations. We therefore aimed to investigate the effect of OA on larval and juvenile growth and metabolism on two successive generations of European sea bass (Dicentrarchus labrax L.) as well as the effect of OAW on larval and juvenile growth and metabolism of the second generation. European sea bass is a large economically important fish species with a long generation time…

ocean warmingjuvenile growthlarval growthteleostOcean acidificationmetabolic ratesLaboratory experiment
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