about
Simultaneous observations of haemolymph flow and ventilation in marine spider crabs at different temperatures: a flow weighted MRI study.In vivo MR spectroscopy and MR imaging on non-anaesthetized marine fish: techniques and first results.Time course of circulatory and metabolic recovery of cat brain after cardiac arrest assessed by perfusion- and diffusion-weighted imaging and MR-spectroscopy.The strengths of in vivo magnetic resonance imaging (MRI) to study environmental adaptational physiology in fish.Investigating GluCEST and its specificity for pH mapping at low temperatures.Cadmium-dependent oxygen limitation affects temperature tolerance in eastern oysters (Crassostrea virginica Gmelin).Impact of ocean acidification on energy metabolism of oyster, Crassostrea gigas--changes in metabolic pathways and thermal responseOxygen limited thermal tolerance in fish?--Answers obtained by nuclear magnetic resonance techniques.MRI and MRS on preserved samples as a tool in fish ecology.Does the membrane pacemaker theory of metabolism explain the size dependence of metabolic rate in marine mussels?Acid-base regulatory ability of the cephalopod (Sepia officinalis) in response to environmental hypercapnia.Hypercapnia induced shifts in gill energy budgets of Antarctic notothenioids.Interactive effects of salinity and elevated CO2 levels on juvenile eastern oysters, Crassostrea virginica.High-energy phosphate metabolism during exercise and recovery in temperate and Antarctic scallops: an in vivo 31P-NMR study.Correlation of cardiac performance with cellular energetic components in the oxygen-deprived turtle heart.Differences in neurochemical profiles of two gadid species under ocean warming and acidification.Oxygen- and capacity-limited thermal tolerance: bridging ecology and physiology.Intra-population variability of ocean acidification impacts on the physiology of Baltic blue mussels (Mytilus edulis): integrating tissue and organism response.Metabolic differences between primary and recurrent human brain tumors: a 1H NMR spectroscopic investigation.Effects of hypoxia on the energy status and nitrogen metabolism of African lungfish during aestivation in a mucus cocoon.Critical temperatures in the cephalopod Sepia officinalis investigated using in vivo 31P NMR spectroscopy.Temperature dependence of 1H NMR chemical shifts and its influence on estimated metabolite concentrations.Simultaneous recording of evoked potentials and T2*-weighted MR images during somatosensory stimulation of rat.Connecting to ecology: a challenge for comparative physiologists? Response to 'Oxygen- and capacity-limited thermal tolerance: blurring ecology and physiology'.Brainmapping of alpha-chloralose anesthetized rats with T2*-weighted imaging: distinction between the representation of the forepaw and hindpaw in the somatosensory cortex.Functional MRI of somatosensory activation in rat: effect of hypercapnic up-regulation on perfusion- and BOLD-imaging.Oxygen-limited thermal tolerance in Antarctic fish investigated by MRI and (31)P-MRS.Untargeted metabolic profiling reveals distinct patterns of thermal sensitivity in two related notothenioids.Sensitivity to ocean acidification differs between populations of the Sydney rock oyster: Role of filtration and ion-regulatory capacities.Variation of functional MRI signal in response to frequency of somatosensory stimulation in alpha-chloralose anesthetized rats.Impact of long-term moderate hypercapnia and elevated temperature on the energy budget of isolated gills of Atlantic cod (Gadus morhua).Resistance to freshwater exposure in White Sea Littorina spp. I: Anaerobic metabolism and energetics.Using the critical salinity (S crit) concept to predict invasion potential of the anemone Diadumene lineata in the Baltic SeaApplication of magnetic resonance imaging in zoologyImpact of ocean acidification on thermal tolerance and acid–base regulation of Mytilus edulis from the White SeaWater bicarbonate modulates the response of the shore crab Carcinus maenas to ocean acidificationImpact of ocean warming and acidification on the behaviour of two co-occurring gadid species, Boreogadus saida and Gadus morhua, from SvalbardMetabolic response and thermal tolerance of green abalone juveniles ( Haliotis fulgens: Gastropoda) under acute hypoxia and hypercapniaImpact of ocean acidification on thermal tolerance and acid–base regulation of Mytilus edulis (L.) from the North SeaEscape performance of temperate king scallop, Pecten maximus under ocean warming and acidification
P50
Q30665684-A9310513-210A-4EB9-A053-744E72AB1D80Q30695005-4AD1BBA7-6E91-47F3-B113-4ED82591B8B8Q30824927-9C07012B-D7CD-4DBE-BAC9-9F1C5E259700Q30979087-DA982385-F15E-4DF0-944F-BBBDEF49C7B3Q30998260-34AA9058-733C-40A8-AF94-41053502E214Q31146582-15569B15-2771-4E5A-8859-CF398C3D8CBEQ33719129-44E68EEC-7E4E-42FB-BB77-6B6A372CED4AQ35853256-B9ACC2A7-932B-4C2A-878B-CAF25B032967Q36229829-43E1D6D5-F195-420A-9B44-CC0A4B5D88ABQ42505113-B378E821-783E-4490-A125-EED2242D59BBQ43259354-552AD556-4E93-4513-8AA2-723127F9B096Q43260334-1B9E2C8E-3E52-44C2-BB7E-296D9AC40180Q44267610-52D14D4E-E4D5-4B13-9FBD-5C5902AAF547Q44690725-488CF886-8109-4657-9C56-4B36ADBCF6EEQ45935181-8ED2DC77-836D-4035-96EB-D102FDB3FC77Q46270475-C8D5E062-3D3D-458B-853F-CF71DA8C94C4Q46327104-98575C7E-3E29-4450-AA6F-EF49E2225261Q46449974-E3A25E01-532D-43CF-94E6-6CE22E2CE9C1Q46549871-878E2CA2-16FE-4BF0-AFFF-0A0B6AF14A34Q46574390-7C800321-5A9E-4EEB-B7D0-64B655146D08Q46947229-59F773E5-5DC9-452B-9945-8C82EAFF3161Q48163179-E8175AB5-DAFB-48C4-90A4-DE7627EDCA3DQ48235920-2C687AC0-49F5-474D-BEE0-FD065DCB4DDCQ48267965-7C19141D-AE76-46AE-94E2-5C6B0F3DB94BQ48413612-4BFD2D42-C6B3-43EF-B0BE-5CA0D1E47A40Q48513369-A11F4072-9621-4BFA-B7B1-7173AB753F15Q48618185-11819BF3-1609-4948-92BD-BB48E9F3DAC6Q49391785-A3E8D0A9-5B22-4A8D-99E8-6BB6309F2080Q50082531-C6B8E23A-0814-420D-8F9F-D0672390728DQ51567861-2810210C-D89C-4441-BD56-B457FEDFB0D3Q51672925-1243F6A0-1201-4CB6-B483-E3EC65816229Q54053227-19F77B1F-F740-42A2-BBAB-0E5A1F5F4154Q56379612-01CBD41D-41DA-4B3D-874F-D2393B040FECQ56703053-74CCE1C6-CE46-4427-A1A1-725543DA34B7Q57525126-95C29D95-E638-4223-B7E8-F5106211AB1EQ57525128-CBFD81E4-2715-494F-93BD-1C200ECB90E1Q57525141-E3049828-A8A8-42C2-930D-ED6D77F74C99Q57525144-D791933E-899A-4BD3-BDDF-587B88EB464AQ57525172-4751DC3F-A79A-47F7-88CC-74FD106B629DQ57525185-23F8E2DA-B736-4BC7-BBCB-A415B8935EB2
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Christian Bock
@ast
Christian Bock
@en
Christian Bock
@es
Christian Bock
@nl
Christian Bock
@sl
type
label
Christian Bock
@ast
Christian Bock
@en
Christian Bock
@es
Christian Bock
@nl
Christian Bock
@sl
prefLabel
Christian Bock
@ast
Christian Bock
@en
Christian Bock
@es
Christian Bock
@nl
Christian Bock
@sl
P1053
B-4421-2017
P106
P1153
7102421108
P21
P2798
P31
P3829
P496
0000-0003-0052-3090