sameAs
Gene expression and physiological changes of different populations of the long-lived bivalve Arctica islandica under low oxygen conditionsClimate change and glacier retreat drive shifts in an Antarctic benthic ecosystem.Toxic oxygen: the radical life-giverA Distinct Mitochondrial Genome with DUI-Like Inheritance in the Ocean Quahog Arctica islandicaAge-dependent expression of stress and antimicrobial genes in the hemocytes and siphon tissue of the Antarctic bivalve, Laternula elliptica, exposed to injury and starvationEcological comparison of cellular stress responses among populations - normalizing RT-qPCR values to investigate differential environmental adaptationsWhen shape matters: strategies of different Antarctic ascidians morphotypes to deal with sedimentation.Is the umbo matrix of bivalve shells (Laternula elliptica) a climate archive?Exploring uncoupling proteins and antioxidant mechanisms under acute cold exposure in brains of fish.Masters of longevity: lessons from long-lived bivalves--a mini-review.Hypoxia impacts large adults first: consequences in a warming world.Size- and age-dependent changes in adductor muscle swimming physiology of the scallop Aequipecten opercularis.The mitochondrial genome of Arctica islandica; Phylogeny and variationFormation of reactive species and induction of antioxidant defence systems in polar and temperate marine invertebrates and fish.Pelagic and benthic communities of the Antarctic ecosystem of Potter Cove: Genomics and ecological implications.Simulated leakage of high pCO2 water negatively impacts bivalve dominated infaunal communities from the Western Baltic Sea.Bivalve models of aging and the determination of molluscan lifespans.Environmental control and control of the environment: the basis of longevity in bivalves.Bacterial communities and chemical parameters in soils and coastal sediments in response to diesel spills at Carlini Station, Antarctica.Heat-shock response and antioxidant defense during air exposure in Patagonian shallow-water limpets from different climatic habitats.Iron assimilation by the clam Laternula elliptica: Do stable isotopes (δ⁵⁶Fe) help to decipher the sources?Spatial compartmentalization of free radical formation and mitochondrial heterogeneity in bivalve gills revealed by live-imaging techniquesTissue specificity in nickel uptake and induction of oxidative stress in kidney and spleen of goldfish Carassius auratus, exposed to waterborne nickel.Reporter dyes demonstrate functional expression of multidrug resistance proteins in the marine flatworm Macrostomum lignano: the sponge-derived dye Ageladine A is not a substrate of these transporters.Exposure to excess dissolved iron in vivo affects oxidative status in the bivalve Mya arenaria.Differences in heavy metal concentrations and in the response of the antioxidant system to hypoxia and air exposure in the Antarctic limpet Nacella concinna.The effect of hydrogen peroxide on isolated body wall of the lugworm Arenicola marina (L.) at different extracellular pH levels.Oxyconformity in the intertidal worm Sipunculus nudus: the mitochondrial background and energetic consequences.Lipid radical generation in polar (Laternula elliptica) and temperate (Mya arenaria) bivalves.Mitochondrial ageing of a polar and a temperate mud clam.The physiological response of the marine platyhelminth Macrostomum lignano to different environmental oxygen concentrations.Production of reactive oxygen species by isolated mitochondria of the Antarctic bivalve Laternula elliptica (King and Broderip) under heat stress.Seasonality of energetic functioning and production of reactive oxygen species by lugworm (Arenicola marina) mitochondria exposed to acute temperature changes.Iron and radical content in Mya arenaria. Possible sources of NO generation.Antioxidant system efficiently protects goldfish gills from Ni(2+)-induced oxidative stress.What modulates animal longevity? Fast and slow aging in bivalves as a model for the study of lifespan.Chronological and physiological ageing in a polar and a temperate mud clam.Oxidative stress in aquatic ecosystems: Selected papers from the Second International Conference.Imperceptible senescence: ageing in the ocean quahog Arctica islandica.Oxidative stress during stressful heat exposure and recovery in the North Sea eelpout Zoarces viviparus L.
P50
Q21134059-B2E57B52-CB60-42B6-8A3D-F4C8FE8D0E16Q27342354-2162C4B9-80C1-4FF6-95E1-3BA67F070A90Q28214318-F0C8506B-0784-43DC-96E9-809AA0C7B626Q28602810-463F5180-6703-421F-8E5C-4E2AB216D0C6Q28661203-FE04A2AD-41F6-4796-AB8B-CF0B953C401CQ30627377-503B033F-D35A-46A3-87BD-BDDD39B8C9D8Q30834534-97528ADA-0166-40D7-A105-2B39D39EC1B6Q33295471-0674DE8B-6B62-47AD-9490-D9B622398206Q33862628-DE44E5C1-2726-49E4-9D82-626ADC83C2EDQ34608154-0311D2F8-D550-4E28-9D59-E0EABC6F1E91Q34625120-B7A9E9A4-E548-4BAB-B2E8-261647B368F1Q34795921-838FB031-8DB5-46B1-B43F-7476FC517650Q35061578-61D0037D-82E2-4A8B-915E-9E970FFDB518Q35888518-1D7E13A1-2EEB-44AA-B381-8AAEB22A84FDQ36365146-652CE11C-FF8E-4369-9C04-9461C6920393Q37188905-A7944F2F-B0F2-4484-8AFA-B122A2C0D86CQ37408542-1AD943EC-7A0D-4385-8BED-D5E4D32C66D8Q38069036-302E0213-12F1-48C1-9245-9E7C46064B32Q39142945-2A2B45AF-98D7-416C-9195-635EA9B6966DQ39238266-DF17D176-BC48-4AAA-A2C9-3841EDF74E82Q40947832-8814EA16-907D-49C2-98AD-EDCFBA697140Q42488611-2A0625E8-CC32-4AF6-B869-9BF90FA76CB0Q42718648-C449041D-CD1C-43F5-AFC9-B96FE4EEFD38Q42909731-316094B4-47DC-4554-A2A8-F95642AA2C61Q43096007-58336B9D-4258-47D3-9BC7-4E2509CBC8C3Q43260640-FB8D428A-757B-409B-ACD2-C8052DC560CBQ43545647-2C7B54F8-EB30-4D6E-8976-77BB53F1FE53Q43597806-E4C9A2EF-C0BF-440D-9BF4-C25290E99A7BQ44071694-CDE21697-B4CF-4157-B95D-C545BA63FBC6Q44131674-87673A28-7E37-4B10-8528-D6A8F87B5363Q44188469-A4EE0635-4E2F-4F7F-A254-456FE8324389Q44275678-2FF6BE47-7C16-4CC9-8E2A-645A486ED12DQ44927253-2300A911-5156-4383-B69C-C1197B1C952DQ45003996-58EA8910-95CE-4A5E-8152-A4D7A194ABE2Q46126833-CC83FB9F-5D0F-4844-BDF7-D0A21CACA3FCQ46325649-4CA87EAC-BA4A-44D7-B11F-4CE9A84ECF8AQ46423047-CA0987A8-A887-47E5-93B2-A51602354363Q46488412-C486A89F-C7AC-4776-B8C9-703405E462A0Q46592444-558D017D-7677-42DA-8228-99842A0561A4Q46878086-E632332A-EAC5-4027-B9E1-4F622334DC2C
P50
subject
description
Duits marinebiologe
@nl
German marine biologist
@en
bióloga marina alemana
@ast
deutsche Meeresbiologin
@de
عالمة أحياء بحرية ألمانية
@ar
name
Doris Abele
@ast
Doris Abele
@ca
Doris Abele
@de
Doris Abele
@en
Doris Abele
@es
Doris Abele
@fr
Doris Abele
@nl
Doris Abele
@sl
Doris Abele
@sq
Doris Abele
@zh
type
label
Doris Abele
@ast
Doris Abele
@ca
Doris Abele
@de
Doris Abele
@en
Doris Abele
@es
Doris Abele
@fr
Doris Abele
@nl
Doris Abele
@sl
Doris Abele
@sq
Doris Abele
@zh
prefLabel
Doris Abele
@ast
Doris Abele
@ca
Doris Abele
@de
Doris Abele
@en
Doris Abele
@es
Doris Abele
@fr
Doris Abele
@nl
Doris Abele
@sl
Doris Abele
@sq
Doris Abele
@zh
P1006
P214
P244
P269
P1006
P101
P1153
56238723000
P1960
4JvZDVYAAAAJ
P21
P213
0000 0003 8448 9503
P214
P244
n2011033507
P269
P31
P373
Doris Abele
P496
0000-0002-5766-5017
P569
1901-01-01T00:00:00Z