Acute oil exposure reduces physiological process rates in Arctic phyto- and zooplankton - https://t.co/PVaNM3BEkq #NERCpapers
RT @Thyrring_J: Sunlight enhance the toxic effects of heavy fuel oil on marine primary production! Critical for #Arctic ecosystems characte…
@salvabara
RT @Thyrring_J: Sunlight enhance the toxic effects of heavy fuel oil on marine primary production! Critical for #Arctic ecosystems characte…
RT @Thyrring_J: Sunlight enhance the toxic effects of heavy fuel oil on marine primary production! Critical for #Arctic ecosystems characte…
RT @Thyrring_J: Sunlight enhance the toxic effects of heavy fuel oil on marine primary production! Critical for #Arctic ecosystems characte…
RT @Thyrring_J: Sunlight enhance the toxic effects of heavy fuel oil on marine primary production! Critical for #Arctic ecosystems characte…
RT @Thyrring_J: Sunlight enhance the toxic effects of heavy fuel oil on marine primary production! Critical for #Arctic ecosystems characte…
RT @Thyrring_J: Sunlight enhance the toxic effects of heavy fuel oil on marine primary production! Critical for #Arctic ecosystems characte…
Sunlight enhance the toxic effects of heavy fuel oil on marine primary production! Critical for #Arctic ecosystems characterised by 24h light in summer. @BAS_News @ARC_AU @UBC @GCRC_GINR @aspscience @DFF_raad Read more in @SpringerNature Ecotoxicology : h
https://t.co/DTqGyPGrml Acute oil exposure reduces physiological process rates in Arctic phyto- and zooplankton Abstract Arctic shipping and oil exploration are expected to increase, as sea ice extent is reduced. This enhances the risk for accidental oil