https://highco2-iv.org/responses-of-marine-organisms-to-climate-change-and-ocean-acidification-across-ocean-regions/2016-04-27T23:27:56+00:00https://highco2-iv.org/offshore-carbon-capture-and-storage-environmental-impact-assessment-monitoring-and-research-synergies-with-oa/2016-04-28T01:09:15+00:00https://highco2-iv.org/optimising-island-scale-biological-buffering-of-ocean-acidification/2016-04-28T01:01:41+00:00https://highco2-iv.org/the-pacific-partnership-on-ocean-acidification/2016-04-28T00:19:10+00:00https://highco2-iv.org/options-for-adapting-to-ocean-acidification-u-s-perspective/2016-04-26T05:44:53+00:00https://highco2-iv.org/transgenerational-plasticity-to-elevated-co2-is-maladaptive-in-the-presence-of-multiple-stressors-in-the-oyster-saccostrea-glomerata/2016-04-27T23:29:50+00:00https://highco2-iv.org/quantifying-the-influence-of-co2-seasonality-on-future-aragonite-under-saturation-onset/2016-04-27T02:59:08+00:00https://highco2-iv.org/ocean-acidification-reverses-the-positive-effects-of-seawater-ph-fluctuations-on-growth-and-photosynthesis-of-the-habitat-forming-kelp-ecklonia-radiata/2016-04-27T01:55:12+00:00https://highco2-iv.org/ocean-acidification-alters-marine-food-chains/2016-04-27T01:37:47+00:00https://highco2-iv.org/sensitivity-of-corals-to-ocean-acidification-the-influence-of-ph-at-the-site-of-calcification-in-modulating-rates-of-calcification/2016-04-28T00:22:13+00:00https://highco2-iv.org/seasonal-change-in-ocean-acidification-state-in-kongsfjorden-implications-for-calcifying-organisms/2016-04-27T23:30:44+00:00https://highco2-iv.org/reversal-of-ocean-acidification-enhances-net-coral-reef-calcification/2016-04-28T01:35:12+00:00https://highco2-iv.org/reproductive-behaviours-and-transgenerational-effets-of-elevated-carbon-dioxide-in-the-three-spined-stickleback/2016-04-27T01:40:57+00:00https://highco2-iv.org/relative-potential-impacts-of-local-and-global-co2-release-comparison-of-natural-variability-and-trends-to-carbon-capture-and-storage-ccs-risk-for-bass-strait-australia/2016-04-28T01:12:03+00:00https://highco2-iv.org/pteropod-eggs-released-at-high-pco2-lack-resilience-to-ocean-acidification/2016-04-27T01:06:03+00:00https://highco2-iv.org/variability-of-oceanic-carbon-cycling-and-its-relation-to-the-ocean-acidification-in-the-north-pacific-ocean/2016-04-27T01:15:36+00:00https://highco2-iv.org/potential-for-adaptation-to-ocean-acidification-along-an-upwelling-system-lessons-of-the-southernmost-south-american-sea-urchin-loxechinus-albus/2016-04-28T01:30:30+00:00https://highco2-iv.org/using-bacterial-extracellular-enzymes-to-assess-whether-natural-co2-vents-are-robust-analogues-of-the-future-ocean/2016-04-27T01:18:35+00:00https://highco2-iv.org/the-white-island-blitz-investigating-a-southern-hemisphere-temperate-vent-system/2016-04-27T01:16:27+00:00https://highco2-iv.org/the-pelagic-nitrogen-cycle-in-a-high-co2-world-what-do-we-know-so-far/2016-04-27T01:45:44+00:00https://highco2-iv.org/physiological-and-behavioural-responses-of-fishes-to-elevated-co2-striving-for-accuracy-and-repeatability-across-studies/2016-04-28T00:17:26+00:00https://highco2-iv.org/the-neglected-role-of-environmental-fluctuations-and-its-implications-for-ocean-acidification-research/2016-04-26T05:44:58+00:00https://highco2-iv.org/phase-shift-from-kelp-bed-to-turfing-algae-increases-with-multiple-stressors-and-represents-alternative-stable-states/2016-04-28T01:33:48+00:00https://highco2-iv.org/the-exposure-of-the-great-barrier-reef-to-ocean-acidification/2016-04-27T01:43:10+00:00https://highco2-iv.org/oysters-reach-their-intertidal-limit-in-a-future-high-co2-world/2016-04-27T01:49:17+00:00https://highco2-iv.org/the-efficacy-and-impacts-of-large-scale-ocean-alkalinity-injection/2016-04-28T01:04:15+00:00https://highco2-iv.org/the-effects-of-climate-change-induced-ocean-acidification-on-the-physiology-of-adult-sea-urchin-evechinus-chloroticus/2016-04-27T03:38:56+00:00https://highco2-iv.org/southern-ocean-emiliania-huxleyi-coccolithophorid-populations-exhibit-different-ecophysiology-and-vulnerability-to-ocean-acidification-compared-to-northern-hemisphere-counterparts/2016-04-26T05:44:59+00:00https://highco2-iv.org/osteoporic-sea-urchin-skeletons-in-a-high-co2-world/2016-04-28T00:20:53+00:00https://highco2-iv.org/soft-echinoderms-to-be-expected-in-the-future-impact-of-ocean-acidification-on-the-mechanical-properties-of-the-skeleton-and-underlying-mechanisms/2016-04-28T01:08:01+00:00https://highco2-iv.org/zooplankton-behaviour-influences-vulnerability-to-ocean-acidification-results-from-an-individually-based-simulation-model/2016-04-28T00:15:11+00:00https://highco2-iv.org/ocean-acidification-time-series-and-projections-for-the-gulf-of-maine/2016-04-26T05:45:00+00:00https://highco2-iv.org/ocean-acidification-threats-through-the-lens-of-biogeography-in-global-hot-spots-of-biodiversity-and-upwelling-ecosystems-seafoam-wg-approach-to-mitigate-oa-and-cobalt-mining-in-sea/2016-04-26T05:45:00+00:00https://highco2-iv.org/ocean-acidification-responses-lead-to-altered-toxicities-of-chronic-coastal-pollutants-in-marine-invertebrates/2016-04-27T23:34:39+00:00https://highco2-iv.org/ocean-acidification-modifies-the-effect-of-antibiotics-on-natural-marine-bacteria-communities/2016-04-27T03:24:45+00:00https://highco2-iv.org/trans-generational-plasticity-in-the-new-zealand-sea-star-patiriella-regularis-in-response-to-combined-ocean-acidification-and-warming-the-effects-of-adult-exposure-on-offspring-performance/2016-04-28T01:18:56+00:00https://highco2-iv.org/ocean-acidification-increases-the-accumulation-of-toxic-phenolic-compounds-across-trophic-levels/2016-04-27T01:45:15+00:00https://highco2-iv.org/the-survival-of-pteropod-larvae-limacina-helicina-antarctica-in-a-changing-world/2016-04-26T05:45:00+00:00https://highco2-iv.org/the-shifting-paradigm-of-epiphytic-symbiosis-in-a-changing-ocean/2016-04-28T00:18:29+00:00https://highco2-iv.org/ocean-acidification-alters-benthic-community-composition-and-metabolism-in-situ-on-coral-reefs/2016-04-27T01:07:51+00:00https://highco2-iv.org/ocean-acidification-in-the-pacific-arctic-boundary-region-implications-for-ecosystems-and-economies/2016-04-27T01:17:43+00:00https://highco2-iv.org/how-does-ocean-acidification-influence-disease-susceptibility-of-oyster-crassostrea-gigas/2016-04-28T03:13:18+00:00https://highco2-iv.org/ocean-acidification-in-the-mediterranean-sea-pelagic-mesocosm-experiments/2016-04-27T03:02:19+00:00https://highco2-iv.org/the-friends-of-goa-on-build-oa-reporting-capacity-in-underserved-areas/2016-04-27T03:16:21+00:00https://highco2-iv.org/ocean-acidification-and-increased-temperature-have-both-positive-and-negative-effects-on-early-ontogeny-traits-of-a-rocky-shore-keystone-predator-species/2016-04-26T05:45:05+00:00https://highco2-iv.org/ocean-acidification-alters-the-predator-prey-relationship-between-the-oyster-crassostrea-gigas-and-the-whelk-tenguella-marginalba/2016-04-27T01:23:56+00:00https://highco2-iv.org/multiple-stressors-in-an-estuarine-environment-drivers-of-changes-in-the-chesapeake-bay-co2-system/2016-04-28T01:36:53+00:00https://highco2-iv.org/multiple-stressors-acting-across-populations-will-the-effect-of-ocean-acidification-and-freshening-on-sperm-motility-of-oysters-be-population-specific/2016-04-27T23:32:17+00:00https://highco2-iv.org/many-environments-many-ph-regimes-the-first-year-of-the-new-zealand-ocean-acidification-observing-network/2016-04-27T01:54:08+00:00https://highco2-iv.org/maintained-growth-in-mussel-mytilus-edulis-larvae-exposed-to-acidified-under-saturated-seawater-and-physiological-tipping-point/2016-04-27T01:10:05+00:00https://highco2-iv.org/losing-ecosystem-resistance-to-change-when-grazers-fail-to-compensate-for-primary-productivity/2016-04-28T00:12:06+00:00https://highco2-iv.org/living-coccolithophores-in-china-sea-waters-the-diversity-and-distribution/2016-04-26T05:45:05+00:00https://highco2-iv.org/intraspecific-variability-in-the-response-of-coral-to-increasing-temperature-and-ocean-acidification/2016-04-26T05:45:05+00:00https://highco2-iv.org/interactive-effects-of-co2-and-temperature-on-the-dynamics-of-phytoplankton-communities-in-the-subarctic-pacific/2016-04-27T03:32:56+00:00https://highco2-iv.org/increased-mortality-organ-damage-and-variable-expression-of-alleles-in-yellowfin-tuna-larvae-under-ocean-acidification/2016-04-28T00:54:30+00:00https://highco2-iv.org/imminent-onset-and-abrupt-increase-in-duration-of-aragonite-undersaturation-events-in-the-southern-ocean/2016-04-27T01:08:44+00:00https://highco2-iv.org/how-eutrophic-and-pristine-estuaries-export-acidic-waters-to-the-coastal-ocean-a-case-study-in-se-brazil/2016-04-28T00:49:29+00:00https://highco2-iv.org/heteroscedasticity-is-your-friend-diurnally-fluctuating-acidification-increases-variance-in-but-not-mean-of-growth-rate-in-barnacles/2016-04-28T01:09:58+00:00https://highco2-iv.org/heritability-of-co2-tolerance-in-a-coral-reef-fish/2016-04-28T01:17:09+00:00https://highco2-iv.org/governing-ocean-acidification-evaluating-the-international-policy-response/2016-04-28T01:18:29+00:00https://highco2-iv.org/global-patterns-of-cleaning-interactions-in-the-ocean-of-tomorrow/2016-04-27T01:59:15+00:00https://highco2-iv.org/global-monitoring-of-marine-biology-and-ecosystems-to-support-detection-of-ocean-acidification/2016-04-28T00:06:08+00:00https://highco2-iv.org/gene-expression-responses-to-increased-pco2-in-the-arctic-copepod-calanus-glacialis/2016-04-27T03:14:56+00:00https://highco2-iv.org/future-of-the-southern-ocean-carbon-sink-in-an-eddy-resolving-experiment/2016-04-27T01:48:40+00:00https://highco2-iv.org/future-ocean-hypercapnia-driven-by-anthropogenic-amplification-of-the-natural-co2-cycle/2016-04-27T01:10:51+00:00https://highco2-iv.org/future-ecosystem-resistance-to-a-high-co2-world-stabilising-effect-of-ecological-compensation/2016-04-27T23:33:39+00:00https://highco2-iv.org/from-larval-performance-to-socio-economy-an-integrative-ecophysiological-study-on-ocean-acidification-and-warming-effects-in-gadoid-fish/2016-04-28T00:58:04+00:00https://highco2-iv.org/exploratory-analysis-of-neurophysiological-changes-under-ocean-warming-and-acidification-owa-in-two-gadid-species-using-1h-nmr-spectroscopy/2016-04-28T00:14:09+00:00https://highco2-iv.org/exaptation-and-the-case-for-ecology-in-understanding-ocean-acidification-impacts/2016-04-28T01:27:11+00:00https://highco2-iv.org/evidences-of-climate-change-impacts-on-the-global-carbon-cycle-in-upwelling-areas/2016-04-27T23:35:17+00:00https://highco2-iv.org/evidence-of-fast-adaption-to-ocean-acidification-in-a-pelagic-copepod/2016-04-28T01:12:40+00:00https://highco2-iv.org/elevated-co2-evokes-ph-homeostasis-gene-expression-response-in-marine-bacteria/2016-04-27T03:20:39+00:00https://highco2-iv.org/effects-of-temperature-and-ocean-acidification-on-shell-characteristics-of-argopecten-purpuratus-implications-for-scallop-aquaculture-in-an-upwelling-influenced-area-off-northern-chile/2016-04-28T00:50:32+00:00https://highco2-iv.org/effects-of-ocean-acidification-on-the-thermal-sensitivity-of-fitness-and-biogeochemical-function-in-a-marine-diatom/2016-04-26T05:45:10+00:00https://highco2-iv.org/effects-of-ocean-acidification-on-the-life-history-and-behaviour-of-tropical-marine-fishes/2016-04-27T01:24:32+00:00https://highco2-iv.org/effects-of-ocean-acidification-on-fish-eggs-and-larvae-in-naturally-high-pco2-upwelling-systems/2016-04-27T01:53:19+00:00https://highco2-iv.org/effects-of-multiple-stressors-on-red-abalone-haliotis-rufescens-fertilization-success/2016-04-28T00:51:33+00:00https://highco2-iv.org/effects-of-in-situ-co2-enrichment-on-structural-characteristics-photosynthesis-and-growth-of-the-mediterranean-seagrass-posidonia-oceanica/2016-04-28T01:24:49+00:00https://highco2-iv.org/effects-and-projections-of-corrosive-acidified-pacific-water-on-a-large-scale-of-aragonite-undersaturation-in-the-arctic-ocean/2016-04-26T05:45:11+00:00https://highco2-iv.org/effect-of-ocean-acidification-on-the-nutritional-quality-of-phytoplankton-for-copepod-reproduction/2016-04-26T05:45:14+00:00https://highco2-iv.org/downstream-impacts-of-elevated-co2-on-neurosensory-and-behavioural-endpoints-in-marine-fish/2016-04-28T00:08:03+00:00https://highco2-iv.org/doubled-seasonal-amplitude-of-mediterranean-surface-acidity-by-2100/2016-04-27T02:01:15+00:00https://highco2-iv.org/double-trouble-at-high-latitudes-ocean-acidification-and-warming-challenge-embryogenesis-in-atlantic-cod-gadus-morhua-and-polar-cod-boreogadus-saida/2016-04-28T01:05:17+00:00https://highco2-iv.org/disentangling-ocean-acidification-organismal-effects-through-an-experimental-system-that-allows-automated-and-dynamic-carbonate-chemistry-manipulations/2016-04-27T02:57:51+00:00https://highco2-iv.org/defensive-behaviours-and-activity-levels-of-the-tropical-squid-idiosepius-pygmaeus-are-altered-by-projected-near-future-co2-levels/2016-04-27T01:35:10+00:00https://highco2-iv.org/deep-sea-corals-in-a-high-co2-ocean-behaviour-physiology-and-growth-in-desmophyllum-dianthus/2016-04-28T01:01:04+00:00https://highco2-iv.org/decreased-ph-increases-predation-rates-of-a-gelatinous-predator/2016-04-27T23:31:29+00:00https://highco2-iv.org/david-vs-goliath-the-importance-of-local-processes-in-mediating-the-ocean-acidification-signal-in-shelf-seas/2016-04-27T03:00:57+00:00https://highco2-iv.org/coral-reef-within-a-hydrothermal-vent-as-an-indicator-to-the-future-of-shallow-water-tropical-reefs-threatened-by-ocean-acidification/2016-04-27T01:25:36+00:00https://highco2-iv.org/coral-calcification-under-thermal-stress-and-ocean-acidification/2016-04-28T00:16:24+00:00https://highco2-iv.org/continuous-pco2-time-series-from-ocean-networks-canada-cabled-observatories-on-the-northeast-pacific-shelf-edgeupper-slope-and-in-the-sub-tidal-arctic/2016-04-27T03:09:54+00:00https://highco2-iv.org/continuous-monitoring-of-seawater-ph-and-pco2-in-a-temperate-estuary/2016-04-26T05:45:15+00:00https://highco2-iv.org/comparing-the-sensitivity-and-distribution-of-the-southern-ocean-surface-water-ph-to-mixing-in-a-high-resolution-coupled-climate-model-and-the-cmip5-earth-system-models/2016-04-26T05:45:15+00:00https://highco2-iv.org/combined-effects-of-nutrient-limitation-and-seawater-carbonate-chemistry-on-southern-ocean-coccolithophores/2016-04-27T03:31:55+00:00https://highco2-iv.org/coastal-upwelling-off-peru-low-oxygen-low-ph-high-variability/2016-04-28T00:05:22+00:00https://highco2-iv.org/co2-impacts-to-copepod-populations-mediated-by-changes-in-prey-quality/2016-04-27T01:29:58+00:00https://highco2-iv.org/climate-change-alters-community-level-interactions-between-molluscs-and-biodiversity/2016-04-27T01:57:37+00:00https://highco2-iv.org/cleaning-interactions-under-ocean-acidification-and-warming/2016-04-26T05:45:16+00:00https://highco2-iv.org/cleaning-determine-physiological-acclimation-capacity-to-the-ocean-of-tomorrow/2016-04-28T00:20:03+00:00https://highco2-iv.org/chemical-and-biological-impacts-of-ocean-acidification-along-the-west-coast-of-north-america/2016-04-27T01:20:38+00:00https://highco2-iv.org/changing-performance-characteristics-of-sea-urchin-sperm-in-future-oceans/2016-04-27T03:30:26+00:00https://highco2-iv.org/changes-in-ocean-acidification-evaluated-in-the-southern-indian-ocean-from-observations-over-the-last-30-years/2016-04-27T01:51:21+00:00https://highco2-iv.org/biofilms-under-the-influence-of-acid-and-ice/2016-04-28T01:13:58+00:00https://highco2-iv.org/bioengineering-slow-flow-habitats-as-refugia-for-coastal-calcifiers-from-ocean-acidification/2016-04-28T00:22:55+00:00https://highco2-iv.org/beyond-the-laboratory-in-situ-developmental-responses-of-sea-urchin-embryos-at-naturally-elevated-pco2-vent-sites/2016-04-26T05:45:19+00:00https://highco2-iv.org/beyond-calcification-ocean-acidification-alters-invertebrate-behaviour-via-neural-impairment/2016-04-27T01:31:07+00:00https://highco2-iv.org/beyond-anova-design-and-analysis-of-multi-stressor-experiments/2016-04-27T03:15:40+00:00https://highco2-iv.org/assessment-of-ocean-acidification-and-biological-response-in-washington-state-coastal-and-estuarine-waters/2016-04-27T03:04:38+00:00https://highco2-iv.org/anthropogenic-ocean-acidification-rate-unprecedented-during-past-66-million-years/2016-04-27T01:03:43+00:00https://highco2-iv.org/ice-acidification-effect-of-elevated-pco2-on-antarctic-sea-ice-communities/2016-04-28T01:31:35+00:00https://highco2-iv.org/antarctic-sea-ice-algae-in-situ-response-to-simulated-ocean-acidification/2016-04-27T03:10:57+00:00https://highco2-iv.org/antarctic-pteropods-limacina-helicina-antarctica-as-a-sentinel-organism-for-the-impact-of-ocean-acidification/2016-04-27T03:17:03+00:00https://highco2-iv.org/an-ocean-acidification-monitoring-network-for-the-caribbean-a-collaboration-of-nations/2016-04-26T05:45:20+00:00https://highco2-iv.org/an-experimental-comparison-of-the-effects-of-zostera-marina-and-zostera-japonica-on-the-diurnal-variability-of-the-carbonate-system-in-the-context-of-a-pacific-northwest-estuary/2016-04-27T01:52:32+00:00https://highco2-iv.org/adult-sea-urchins-at-natural-carbon-vents-thrive-under-acidification-conditions/2016-04-27T01:46:46+00:00https://highco2-iv.org/addressing-the-drivers-of-societal-vulnerability-to-ocean-acidification-and-warming/2016-04-28T00:15:50+00:00https://highco2-iv.org/addressing-the-carbon-question-new-insights-from-a-synthesis-of-uk-and-european-observations-of-marine-co2-and-ocean-acidification/2016-04-27T03:07:00+00:00https://highco2-iv.org/acid-base-balance-compensation-is-the-unifying-course-of-co2-impact-in-fish/2016-04-28T00:55:57+00:00https://highco2-iv.org/a-simple-model-for-describing-coccolithophorid-cellular-rate-responses-to-ocean-change/2016-04-28T01:36:03+00:00https://highco2-iv.org/a-multi-sensor-system-for-the-direct-measurement-of-%cf%89-ph-and-carbonate/2016-04-27T03:38:20+00:00https://highco2-iv.org/closing-plenary-where-is-ocean-acidification-research-going-ken-caldeira/2016-08-03T06:21:19+00:00https://highco2-iv.org/biofilms-the-missing-link-in-understanding-the-effects-of-ocean-acidification-on-settlement-selection/2016-04-28T04:52:26+00:00https://highco2-iv.org/larval-responses-of-a-prey-and-a-predator-to-ocean-acidification/2016-04-28T05:05:25+00:00https://highco2-iv.org/growth-of-deepsea-coral-assessing-potential-impacts-of-ocean-acidification/2016-04-26T05:45:23+00:00https://highco2-iv.org/different-sensitivities-to-ocean-acidification-between-populations-of-the-sydney-rock-oyster-role-of-filtration-and-ion-regulatory-capacities/2016-04-28T01:33:07+00:00https://highco2-iv.org/predicting-macroalgal-responses-to-multiple-environmental-changes-using-functional-relationships-from-uptake-mechanisms-to-growth-rates/2016-04-28T01:32:15+00:00https://highco2-iv.org/integrated-modelling-of-ocean-acidification-and-warming-impacts-on-fish-species-and-the-marine-food-web-in-the-barents-sea/2016-04-28T01:29:57+00:00https://highco2-iv.org/phytoplankton-community-composition-and-succession-at-increasing-levels-of-atmospheric-carbon-dioxide-insights-from-mesocosm-studies/2016-04-28T01:29:12+00:00https://highco2-iv.org/development-of-macrocystis-pyrifera-and-undaria-pinnatifida-meiospores-under-ocean-warming-ocean-acidification-and-copper-pollution/2016-04-28T01:25:55+00:00https://highco2-iv.org/hypercarbia-enhances-metabolic-thermotolerance-of-the-cold-temperate-nototheniod-notothenia-angustata/2016-04-28T01:23:51+00:00https://highco2-iv.org/ocean-acidification-and-the-political-agenda/2016-04-28T01:22:51+00:00https://highco2-iv.org/in-situ-community-respiration-and-photosynthetic-responses-of-antarctic-microphytobenthos-to-ocean-acidification/2016-04-28T01:22:20+00:00https://highco2-iv.org/the-genetics-and-epigenetics-governing-the-transition-from-plasticity-to-adaptation-during-long-term-growth-at-high-co2-in-the-globally-distributed-marine-diazotroph-trichodesmium/2016-04-28T01:21:38+00:00https://highco2-iv.org/ocean-acidification-impacts-primary-and-bacterial-production-in-antarctic-coastal-waters-during-austral-summer/2016-04-28T01:18:00+00:00https://highco2-iv.org/variability-in-response-of-antarctic-marine-microbes-to-enhanced-pco2/2016-04-28T01:20:05+00:00https://highco2-iv.org/development-and-delivery-of-scientific-knowledge-and-policy-guidance-on-high-latitude-ocean-acidification-through-different-international-organizational-platforms/2016-04-28T01:16:27+00:00https://highco2-iv.org/can-corals-acclimate-to-the-high-co2-world/2016-04-28T01:11:18+00:00https://highco2-iv.org/plenary-session-projections-of-the-responses-of-living-marine-resources-to-carbon-emissions-associate-professor-william-cheung/2016-08-03T06:21:25+00:00https://highco2-iv.org/plenary-session-challenge-of-policy-and-adaptation-for-people-and-businesses-professor-stefan-gelcich/2016-08-03T06:21:57+00:00https://highco2-iv.org/resilience-approaches-to-management-of-near-term-ocean-acidification/2016-04-26T05:45:27+00:00https://highco2-iv.org/temperature-stress-in-combination-with-increased-pco2-lead-to-increased-deformities-in-european-lobster-juveniles-homarus-gammarus-but-what-happens-in-the-exoskeleton-and-gastroliths/2016-04-26T05:45:28+00:00https://highco2-iv.org/mitigation-of-ocean-acidification-through-enhanced-olvine-weathering/2016-04-26T05:45:28+00:00https://highco2-iv.org/response-of-coralline-algae-to-ocean-acidification-the-influence-of-ph-and-inorganic-carbon-speciation-at-the-site-of-calcification/2016-04-28T01:06:46+00:00https://highco2-iv.org/outer-organic-layer-and-internal-repair-mechanism-protects-pteropod-limacina-helicina-from-ocean-acidification/2016-04-28T01:03:17+00:00https://highco2-iv.org/how-corals-control-calcification-the-role-of-ph-up-regulation-in-a-high-co2-world/2016-04-26T05:45:28+00:00https://highco2-iv.org/impact-of-hypoxia-warming-and-acidification-on-the-early-ontogeny-of-tropical-sharks/2016-04-28T00:26:13+00:00https://highco2-iv.org/the-interacting-effects-of-ocean-acidification-and-eutrophication-on-the-macroalgae-ulva/2016-04-26T05:45:28+00:00https://highco2-iv.org/metamorphic-and-proteomic-responses-of-fast-growing-and-slow-growing-larval-cohorts-of-a-pacific-oyster-to-ocean-acidification-and-warming/2016-04-28T00:21:30+00:00https://highco2-iv.org/environmental-control-on-emiliania-huxleyi-coccolithophore-calcification-in-the-mediterranean-sea/2016-04-28T05:02:51+00:00https://highco2-iv.org/using-physiology-to-optimise-water-quality-and-the-sustainability-of-intensive-recirculating-aquaculture-systems-ras/2016-04-28T00:12:51+00:00https://highco2-iv.org/sensitivity-of-cultured-larval-mussels-perna-canaliculus-to-seawater-aragonite-saturation-state/2016-04-28T00:10:28+00:00https://highco2-iv.org/can-food-limitation-increase-resilience-to-elevated-pco2-and-temperature/2016-04-28T23:34:02+00:00https://highco2-iv.org/interactive-effects-of-temperature-food-and-skeletal-mineralogy-mediate-responses-to-ocean-acidification-in-a-globally-distributed-bryozoan/2016-05-02T13:27:22+00:00https://highco2-iv.org/impact-of-ocean-warming-and-acidification-on-the-octocoral-veretillum-cynomorium/2016-04-28T05:14:37+00:00https://highco2-iv.org/carbon-dioxide-induced-changes-in-natural-antarctic-microbial-community-at-an-antarctic-coastal-site/2016-04-28T04:57:10+00:00https://highco2-iv.org/high-frequency-monitoring-of-marine-carbonates-system-in-a-northern-upwelling-ecosystem-of-the-humboldt-current-system/2016-04-28T00:47:30+00:00https://highco2-iv.org/the-effects-of-combined-ocean-acidification-and-warming-on-the-calcifying-fluid-chemistry-of-corals-a-geochemical-approach/2016-04-27T23:36:38+00:00https://highco2-iv.org/future-ocean-acidification-and-temperature-rise-alters-community-structure-and-diversity-in-marine-benthic-communities/2016-04-27T23:35:54+00:00https://highco2-iv.org/understanding-the-natural-variability-of-the-carbonate-system-in-a-mytiliculture-zone-influenced-by-two-environmental-stressors-upwelling-and-rivers/2016-04-27T23:32:49+00:00https://highco2-iv.org/plenary-session-predicting-evolution-in-marine-microbes-dr-sinead-collins/2016-08-03T06:22:00+00:00https://highco2-iv.org/plenary-session-effects-of-multiple-global-and-local-drivers-on-marine-species-and-ecosystems-sam-dupont/2016-08-03T06:22:05+00:00https://highco2-iv.org/public-lecture-the-oceans-in-a-high-co2-world-how-will-the-oceans-change-with-rising-carbon-dioxide/2016-04-26T05:45:32+00:00https://highco2-iv.org/sensors-for-co2-partial-pressure-pco2-total-alkalinity-ta-and-ph-recent-developments-and-field-data/2016-04-27T03:32:25+00:00https://highco2-iv.org/monitoring-ocean-acidification-in-the-arctic-ocean-and-the-norwegian-seas/2016-04-27T03:26:06+00:00https://highco2-iv.org/response-of-larval-evechinus-chloroticus-to-near-future-ocean-acidification-an-integrated-omics-analysis/2016-04-27T03:27:47+00:00https://highco2-iv.org/tracking-the-drivers-of-carbonate-accretion-rate-across-the-central-pacific/2016-04-27T03:18:38+00:00https://highco2-iv.org/two-way-and-multiple-factorial-effects-of-oa-and-other-environmental-drivers-on-the-physiology-and-gene-expression-of-marine-coccolithophore-emiliania-huxleyi/2016-04-27T03:17:55+00:00https://highco2-iv.org/international-interdisciplinary-long-term-monitoring-of-the-ecological-impacts-of-ocean-acidification-on-coral-reefs-across-the-central-and-western-pacific/2016-04-27T03:13:32+00:00https://highco2-iv.org/physiological-diagnosis-of-a-southern-ocean-diatoms-responses-to-future-complex-ocean-conditions/2016-04-27T03:11:52+00:00https://highco2-iv.org/evolutionary-interactions-between-ocean-acidification-and-ironphosphorus-co-limitation-in-the-marine-nitrogen-fixing-cyanobacterium-trichodesmium/2016-04-27T03:08:39+00:00https://highco2-iv.org/surface-ocean-ph-estimation-a-satellite-perspective/2016-04-27T03:05:55+00:00https://highco2-iv.org/scaling-up-experimental-ocean-acidification-and-warming-research-from-individuals-to-the-ecosystem/2016-04-26T05:45:36+00:00https://highco2-iv.org/remotely-sensed-estimation-of-alkalinity-in-coastal-waters-around-australia/2016-04-27T03:03:02+00:00https://highco2-iv.org/water-column-controls-on-the-carbonate-cycle-and-potential-ocean-acidification-impacts-in-the-gulf-of-maine/2016-04-27T03:03:42+00:00https://highco2-iv.org/measurements-in-the-real-world-development-of-the-global-ocean-acidification-observing-network-goa-on/2016-04-27T03:00:05+00:00https://highco2-iv.org/rapid-ocean-acidification-in-the-sub-arctic-deep-sea-and-the-diversity-of-benthic-molluscs/2016-04-27T02:02:10+00:00https://highco2-iv.org/antfoce-antarctic-free-ocean-co2-enrichment-ocean-acidification-under-sea-ice/2016-04-27T02:00:16+00:00https://highco2-iv.org/ocean-acidification-reduces-demersal-zooplankton-abundances-in-coral-reefs/2016-04-26T05:45:37+00:00https://highco2-iv.org/ocean-acidification-induce-changes-in-larval-urchins-behaviours-implications-for-transport/2016-04-27T01:58:07+00:00https://highco2-iv.org/export-of-calcium-carbonate-corrosive-waters-from-the-east-siberian-sea/2016-04-27T01:56:19+00:00https://highco2-iv.org/scaling-laboratory-derived-ocean-acidification-responses-to-naturally-assembled-systems/2016-04-28T05:12:29+00:00https://highco2-iv.org/natural-phpco2-variability-along-chilean-coast-and-the-response-of-local-populations-of-marine-organisms-upon-future-ocean-acidification-scenarios/2016-04-27T01:50:44+00:00https://highco2-iv.org/temporal-fluctuations-in-seawater-pco2-may-be-as-important-as-mean-differences-when-determining-physiological-sensitivity-in-natural-systems/2016-04-27T01:47:46+00:00https://highco2-iv.org/plenary-session-predicting-the-future-of-coral-reefs-in-a-high-co2-world-katharina-fabricius/2016-08-03T06:22:09+00:00https://highco2-iv.org/plenary-session-observational-challenges-from-global-to-local-minhan-dai/2016-08-03T06:22:13+00:00https://highco2-iv.org/exposure-to-elevated-temperature-reduces-effects-of-acidification-on-inducible-defenses-in-the-blue-mussel-mytilus-edulis-and-on-predation-rate-and-predator-efficiency-of-the-green-crab-carcinas-ma/2016-04-27T01:40:14+00:00https://highco2-iv.org/biogeochemical-and-physical-controls-on-the-inorganic-carbon-chemistry-of-coral-reefs-oahu-hawaii-a-decade-of-continuous-measurements/2016-04-27T01:39:42+00:00https://highco2-iv.org/ocean-acidification-impacts-on-top-predators-and-processes-of-importance/2016-04-28T05:11:17+00:00https://highco2-iv.org/forecasting-ocean-acidification-in-the-coastal-waters-of-the-pacific-northwest/2016-04-27T01:36:58+00:00https://highco2-iv.org/a-trophic-cascade-triggered-by-ocean-acidification-implications-for-pelagic-ecosystem-structure-trophic-transfer-and-biogeochemical-cycling/2016-04-27T01:38:24+00:00https://highco2-iv.org/ocean-acidification-in-the-surface-water-of-subarctic-western-north-pacific-ocean/2016-04-27T01:31:38+00:00https://highco2-iv.org/natural-variability-and-anthropogenic-change-revealed-by-moored-time-series-observations-of-pco2-and-ph/2016-04-27T01:29:00+00:00https://highco2-iv.org/impaired-riverward-migration-behaviour-of-glass-eels-under-climate-change/2016-04-28T05:03:56+00:00https://highco2-iv.org/ocean-acidification-leaves-dispersing-fish-larvae-lost-at-sea/2016-04-26T05:45:42+00:00https://highco2-iv.org/ocean-acidification-and-decadal-alkalinity-variability-in-the-north-pacific/2016-04-26T05:45:42+00:00https://highco2-iv.org/time-of-emergence-for-acidification-and-de-oxygenation-in-a-water-mass-framework-in-the-north-pacific/2016-04-27T01:22:49+00:00https://highco2-iv.org/ocean-acidification-impacts-otolith-morphology-and-mineralogy-in-larval-haemulon-chrysargyreum/2016-04-27T01:19:28+00:00https://highco2-iv.org/effect-of-ocean-acidification-on-diatom-frustule-stability/2016-04-27T01:17:11+00:00https://highco2-iv.org/investigating-the-change-of-ph-in-the-internal-vesicle-of-coccolith-formation-as-a-potential-mechanism-of-adaptation-of-coccolithophores-in-the-face-of-acidification/2016-04-27T01:14:57+00:00https://highco2-iv.org/description-of-the-first-natural-ocean-acidification-analogue-in-the-caribbean/2016-04-28T05:01:22+00:00https://highco2-iv.org/climatological-distribution-of-aragonite-and-calcite-saturation-states-in-the-global-oceans/2016-04-27T01:13:15+00:00https://highco2-iv.org/attachment-capacity-of-the-sea-urchin-paracentrotus-lividus-in-a-changing-ocean/2016-04-28T02:39:49+00:00https://highco2-iv.org/volcanic-acidification-at-maug-island-correlated-with-spatial-shift-from-coral-to-algae-dominated-ecosystem/2016-04-27T01:12:07+00:00https://highco2-iv.org/carbonate-chemistry-and-coral-reefs-in-a-seasonal-upwelling-system-insights-into-ocean-acidification-scenarios/2016-04-28T04:58:28+00:00https://highco2-iv.org/brachiopod-tolerance-shell-structure-and-composition-are-not-affected-by-ocean-acidification/2016-04-26T05:45:45+00:00https://highco2-iv.org/ocean-acidification-in-the-weddell-sea-upwelling-and-ice-cover/2016-04-27T01:07:10+00:00https://highco2-iv.org/galapagos-coral-reef-persistence-after-enso-warming-across-an-acidification-gradient/2016-04-27T01:05:17+00:00https://highco2-iv.org/sensitivity-of-future-ocean-acidification-to-land-carbon-uptake/2016-04-27T01:00:29+00:00https://highco2-iv.org/acidification-mediated-bacterial-infection-determine-mortality-and-growth-patterns-of-early-ostrea-edulis-life-stages/2016-04-27T01:02:54+00:00https://highco2-iv.org/plenary-session-challenge-of-assessing-and-projecting-ecological-impacts-kristy-kroeker/2016-08-03T06:22:16+00:00https://highco2-iv.org/plenary-session-challenge-of-deciphering-information-for-the-paleo-record-barbel-honisch/2016-08-03T06:21:06+00:00https://highco2-iv.org/opening-session/2016-04-26T05:45:46+00:00https://highco2-iv.org/108-quantitative-analysis-of-oyster-larval-proteome-provides-new-insights-into-the-effects-of-multiple-climate-change-stressors/2016-04-28T02:26:40+00:00https://highco2-iv.org/107-giant-clams-in-a-changing-ocean-effects-of-ocean-warming-and-acidification-on-a-solar-powered-bivalve/2016-04-28T05:21:58+00:00https://highco2-iv.org/63-spatial-variability-of-co2-fluxes-in-the-gerlache-strait-antarctica-during-austral-summer-2015/2016-04-28T05:19:41+00:00https://highco2-iv.org/61-co2-net-fluxes-along-south-and-southeast-brazilian-continental-shelf-and-slope/2016-04-28T05:18:26+00:00https://highco2-iv.org/42-impact-of-ocean-acidification-on-biochemical-components-in-tropical-oyster-crassostrea-belcheri/2016-04-28T05:16:55+00:00https://highco2-iv.org/41-sea-urchins-in-a-high-co2-world-partitioned-effects-of-body-size-ocean-warming-and-acidification-on-metabolic-rate/2016-04-28T05:15:29+00:00https://highco2-iv.org/106-the-physiology-of-polar-cod-boreogadus-saida-in-a-changing-world-impacts-of-ocean-acidification-and-warming/2016-04-28T02:27:01+00:00https://highco2-iv.org/105-behaviour-of-atlantic-cod-gadus-morhua-is-more-resilient-to-ocean-warming-and-acidification-than-that-of-polar-cod-boreogadus-saida/2016-04-28T02:26:40+00:00https://highco2-iv.org/104-ecological-effect-of-multiple-stressors-on-a-tropical-coral-reef/2016-04-28T02:26:40+00:00https://highco2-iv.org/103-biofouling-in-high-co2-coastal-oceans-importance-of-multiple-stressors-interactions/2016-04-28T02:26:40+00:00https://highco2-iv.org/102-the-survival-of-pteropod-larvae-limacina-helicina-antarctica-in-a-changing-world/2016-04-28T02:26:40+00:00https://highco2-iv.org/101-methylmercury-and-climate-change-effects-on-behaviour-of-solea-senegalensis/2016-04-28T02:26:41+00:00https://highco2-iv.org/100-bacterial-response-to-ocean-acidification-and-warming-varies-with-plankton-community-composition/2016-04-28T02:26:41+00:00https://highco2-iv.org/99-multiple-climate-stressors-produce-complex-trade-offs-between-metabolic-costs-and-growth-in-subtidal-tropical-and-temperate-gastropods/2016-04-28T02:26:41+00:00https://highco2-iv.org/98-long-term-adaption-by-new-zealand-phytoplankton-to-climate-change/2016-04-28T02:26:41+00:00https://highco2-iv.org/97-intraspecific-variability-in-the-response-of-coral-to-increasing-temperature-and-ocean-acidification/2016-04-28T02:26:41+00:00https://highco2-iv.org/96-higher-sensitivity-to-ocean-warming-and-acidification-in-boreal-than-temperate-great-scallop-pecten-maximus/2016-04-28T02:27:01+00:00https://highco2-iv.org/95-growth-response-of-calcifying-and-non-calcifying-phytoplankton-to-changes-in-seawater-carbonate-speciation-and-divalent-cation-concentration/2016-04-28T02:27:01+00:00https://highco2-iv.org/94-effects-of-ocean-warming-and-acidification-on-the-growth-of-juveniles-of-two-antarctic-heart-urchins-abatus-ingens-and-a-shackletoni/2016-04-28T02:26:40+00:00https://highco2-iv.org/75-a-low-cost-spectrophotometric-system-for-automated-and-high-frequency-measurements-of-seawater-ph/2016-04-28T02:26:40+00:00https://highco2-iv.org/67-quantifying-the-carbonate-chemistry-and-ph-fluctuations-of-otago-harbour-new-zealand/2016-04-28T02:26:13+00:00https://highco2-iv.org/65-spatial-variation-of-total-alkalinity-and-total-dissolved-inorganic-carbon-along-the-brazilian-continental-shelf-break-and-slope-preliminary-results/2016-04-28T02:26:13+00:00https://highco2-iv.org/55-decadal-scale-carbon-dioxide-increase-and-acidification-in-the-weddell-sea-southern-ocean/2016-04-28T02:26:13+00:00https://highco2-iv.org/54-who-is-the-master-trade-off-between-competitive-ability-and-resistance-to-elevated-pco2/2016-04-28T02:26:13+00:00https://highco2-iv.org/29-effects-of-ocean-acidification-on-fish-eggs-and-larvae-in-laboratory-experiments-and-naturally-high-pco2-upwelling-systems/2016-04-28T02:26:14+00:00https://highco2-iv.org/28-effects-of-ocean-acidification-and-warming-on-early-benthic-juveniles-of-crown-of-thorns-starfish-acanthaster-planci-indicate-enhanced-development-at-near-future-acidification/2016-04-28T02:26:14+00:00https://highco2-iv.org/27-subcellular-basis-of-climate-change-resilience-in-oysters/2016-04-28T02:26:40+00:00https://highco2-iv.org/26-contrasting-effects-of-ocean-acidification-on-reproduction-in-reef-fishes/2016-04-28T02:26:40+00:00https://highco2-iv.org/25-elevated-co2-induces-different-molecular-responses-from-selectively-bred-and-wild-sydney-rock-oysters-saccostrea-glomerata/2016-04-28T02:26:13+00:00https://highco2-iv.org/24-emiliania-huxleyi-calcite-mass-variability-during-periods-of-atmospheric-co2-rising-in-the-mediterranean-sea/2016-04-28T02:26:13+00:00https://highco2-iv.org/23-sea-cucumbers-buffer-seawater-chemistry-prospects-for-a-changing-ocean/2016-04-28T02:26:13+00:00https://highco2-iv.org/22-the-effects-of-ocean-acidification-on-growth-photosynthesis-and-domoic-acid-production-by-the-toxigenic-diatom-pseudo-nitzschia-australis/2016-04-28T02:26:13+00:00https://highco2-iv.org/21-potential-for-adaptation-of-new-zealand-greenshell-mussels-to-a-higher-co2-world-milestone-5-1-of-carim-coastal-acidification-rate-impacts-management-an-integrated-new-zealand-project/2016-04-28T02:26:13+00:00https://highco2-iv.org/20-interactive-effects-of-acidification-and-hypoxia-and-adaptive-potential-in-red-abalone-haliotis-rufescens/2016-04-28T02:26:13+00:00https://highco2-iv.org/31-ocean-acidification-changes-the-male-fitness-landscape/2016-04-28T02:26:13+00:00https://highco2-iv.org/91-combined-effects-of-ocean-acidification-and-metals-on-sea-urchin-and-oyster-larval-development/2016-04-28T02:26:14+00:00https://highco2-iv.org/77-the-friends-of-goa-on-build-oa-reporting-capacity-in-under-served-areas/2016-04-28T02:26:14+00:00https://highco2-iv.org/90-combined-effect-of-elevated-pco2-and-temperature-on-an-estuarine-planktonic-community-and-dimethylsulfide-production-a-mesocosm-study/2016-04-28T02:26:40+00:00https://highco2-iv.org/49-effect-of-ocean-acidification-on-the-nutritional-quality-of-phytoplankton-for-copepod-reproduction/2016-04-28T02:26:40+00:00https://highco2-iv.org/35-evolutionary-rescue-from-ocean-acidification/2016-04-28T02:26:13+00:00https://highco2-iv.org/57-strong-short-term-effects-of-a-volcanic-eruption-on-the-carbonate-system-of-a-highly-stratified-fjord-in-the-northern-chilean-patagonia/2016-04-28T02:25:48+00:00https://highco2-iv.org/36-the-relationship-between-behavioural-and-physiological-tolerance-to-elevated-co2-in-coral-reef-fish/2016-04-28T02:25:48+00:00https://highco2-iv.org/92-ocean-acidification-and-increased-temperature-have-both-positive-and-negative-effects-on-early-ontogeny-traits-of-a-rocky-shore-keystone-predator-species/2016-04-28T02:25:48+00:00https://highco2-iv.org/93-seagrass-fitness-under-ocean-warming-and-acidification/2016-04-28T02:25:48+00:00https://highco2-iv.org/15-the-effects-of-natural-co2-variability-on-behavioural-sensitivity-of-coral-reef-fish-to-ocean-acidification/2016-04-28T02:25:48+00:00https://highco2-iv.org/9-impact-of-ocean-acidification-benthic-foraminifera-ammonia-beccarii-a-tepida-and-a-dentata-in-captive-condition/2016-04-28T02:25:48+00:00https://highco2-iv.org/71-the-role-of-planktonic-foraminifers-as-driver-of-carbonate-export-in-the-scotia-sea-southern-ocean/2016-04-28T02:25:48+00:00https://highco2-iv.org/52-effect-of-elevated-co2-and-nutrients-on-phytoplankton-community-structure-during-spring-in-the-western-english-channel/2016-04-28T02:25:48+00:00https://highco2-iv.org/89-climate-change-driven-multistressor-impacts-on-a-shelf-ecosystem-the-gulf-of-maine/2016-04-28T02:26:13+00:00https://highco2-iv.org/86-building-capacities-and-bridging-gaps-on-ocean-acidification-research-for-equatorial-developing-countries-ecuadorian-experience/2016-04-28T02:26:13+00:00https://highco2-iv.org/85-the-future-of-an-ecosystem-engineer-effects-of-ocean-acidification-and-rising-temperatures-in-crassostrea-gigas-juveniles/2016-04-28T02:25:48+00:00https://highco2-iv.org/84-carim-coastal-acidification-rate-impacts-management-an-integrated-new-zealand-project/2016-04-28T02:25:48+00:00https://highco2-iv.org/83-perception-of-small-scale-fishers-on-ocean-acidification-impacts-a-case-study-of-small-scale-fisheries-communities-at-ko-chang-thailand/2016-04-28T02:25:48+00:00https://highco2-iv.org/82-perspective-sanitary-control-for-seafood-safety-under-predicted-changes-in-climate-with-special-focus-on-korea/2016-04-28T02:25:48+00:00https://highco2-iv.org/81-with-these-actions-you-can-improve-the-world-empowering-students-with-innovative-learning-resources-for-climate-change-and-oa-education/2016-04-28T02:25:48+00:00https://highco2-iv.org/78-data-management-for-an-in-situ-ocean-acidification-experiment/2016-04-28T02:25:48+00:00https://highco2-iv.org/74-decadal-trends-of-underway-pco2-observed-from-vos-ships-in-the-tropical-pacific/2016-04-28T02:25:48+00:00https://highco2-iv.org/73-constraining-net-calcificationdissolution-in-the-open-ocean-using-high-precision-id-measurement-of-dissolved-camg-ratios-in-seawater/2016-04-28T02:25:48+00:00https://highco2-iv.org/72-surface-total-alkalinity-salinity-and-temperature-a-study-case-in-the-south-western-atlantic-ocean/2016-04-28T02:26:13+00:00https://highco2-iv.org/70-monitoring-carbonate-chemistry-of-algal-ridges-at-one-tree-island-reef-using-spectrophotometric-system/2016-04-28T02:26:13+00:00https://highco2-iv.org/69-winter-to-spring-evolution-of-arctic-ocean-acidification-state-in-under-ice-water-and-effect-of-sea-ice-dynamics-during-n-ice-2015-ice-drift-project/2016-04-28T02:25:27+00:00https://highco2-iv.org/68-the-state-of-ocean-acidification-in-a-newfoundland-fjord/2016-04-28T02:25:27+00:00https://highco2-iv.org/66-modeling-effects-of-bicarbonate-release-on-carbonate-chemistry-of-the-north-sea/2016-04-28T02:25:27+00:00https://highco2-iv.org/64-carbonate-system-parameters-monitoring-in-coastal-waters-of-chile/2016-04-28T02:25:27+00:00https://highco2-iv.org/62-calcium-carbonate-saturation-states-and-ph-in-orphan-knoll-region-a-seamount-where-the-north-atlantic-subpolar-and-subtropical-gyres-meet/2016-04-28T02:25:28+00:00https://highco2-iv.org/60-biogeochemical-changes-in-the-southern-ocean-south-of-tasmania/2016-04-28T02:25:28+00:00https://highco2-iv.org/59-anthropogenic-carbon-distribution-and-ocean-acidification-state-in-the-patagonian-shelf-break-region/2016-04-28T02:25:28+00:00https://highco2-iv.org/58-limg-and-boron-isotopes-in-antarctic-corals-as-temperature-and-ph-proxies-of-southern-ocean-water-masses/2016-04-28T02:25:28+00:00https://highco2-iv.org/56-modelling-the-role-of-sea-ice-biogeochemistry-on-polar-oceans-acidification/2016-04-28T02:25:48+00:00https://highco2-iv.org/48-new-volcanic-co2-vents-along-the-coast-off-the-ischia-island-italy-provide-a-glimpse-of-the-potential-impacts-of-ocean-acidification/2016-04-28T02:25:48+00:00https://highco2-iv.org/47-life-long-in-situ-exposure-to-ocean-acidification-reduces-heterotrophy-in-the-stony-coral-galaxea-fascicularis/2016-04-28T02:25:48+00:00https://highco2-iv.org/46-diurnal-and-seasonal-variations-of-ph-in-oshoro-bay-hokkaido-japan/2016-04-28T02:25:27+00:00https://highco2-iv.org/44-epifaunal-invertebrate-community-variation-along-a-salinity-acidity-gradient-in-a-tropical-estuary/2016-04-28T02:25:27+00:00https://highco2-iv.org/43-effects-of-river-streamflow-on-summer-winter-dynamics-of-phpco2-in-a-patagonia-highly-stratified-fjord/2016-04-28T02:25:27+00:00https://highco2-iv.org/37-toward-improved-modelling-of-caco3-dissolution-in-seawater/2016-04-28T02:25:27+00:00https://highco2-iv.org/34-parent-identity-influences-adaptation-potential-of-larval-acanthaster-planci-to-ocean-acidification-and-warming/2016-04-28T02:25:28+00:00https://highco2-iv.org/33-lethal-effects-of-increasing-co2-on-dominant-zooplankton-in-the-southern-ocean/2016-04-28T02:25:28+00:00https://highco2-iv.org/30-lipid-use-in-the-lecithotrophic-larvae-of-laternula-elliptica-under-ph-and-temperature-stress/2016-04-28T02:25:28+00:00https://highco2-iv.org/38-effects-of-elevated-sea-water-pco2-on-two-species-of-euphausiids-meganyctiphanes-norvegica-and-nyctiphanes-couchii-effect-on-survival-moulting-growth-and-food-uptake/2016-04-28T02:25:28+00:00https://highco2-iv.org/19-acclimation-to-environmental-change-a-long-term-record-of-a-new-zealand-brachiopod/2016-04-28T02:25:48+00:00https://highco2-iv.org/18-vulnerability-of-pteropod-shell-in-the-arctic-ocean-a-result-of-culture-experiment-under-natural-seawater/2016-04-28T02:25:27+00:00https://highco2-iv.org/17-two-current-choice-flumes-for-fish-chemosensory-behaviour-method-validation-and-limited-effects-of-high-pco2/2016-04-28T02:25:27+00:00https://highco2-iv.org/16-the-impact-of-angels-wing-on-pteropod-population-in-the-gulf-of-naples-western-mediterranean/2016-04-28T02:23:25+00:00https://highco2-iv.org/14-studies-of-ocean-acidification-impacts-on-antarctic-krill-at-the-australian-antarctic-division/2016-04-28T02:23:25+00:00https://highco2-iv.org/13-response-of-the-photosynthetic-rate-of-macrophytes-to-increased-co2-concentrations-in-a-brackish-water-ecosystem/2016-04-28T02:23:25+00:00https://highco2-iv.org/12-living-in-the-boundary-layer-of-kelp-blades-refuge-from-ocean-acidification-or-training-for-harsh-conditions/2016-04-28T02:23:25+00:00https://highco2-iv.org/11-krill-euphausia-pacifica-development-in-the-laboratory-is-impaired-at-currently-observed-pco2-levels/2016-04-28T02:23:25+00:00https://highco2-iv.org/10-investigating-the-multiplicative-effects-of-climate-change-on-southern-ocean-phytoplankton/2016-04-28T02:23:25+00:00https://highco2-iv.org/8-elevated-co2-demonstrates-insignificant-impacts-on-bacterial-community-structure-in-a-subtropical-coastal-mesocosm-experiment/2016-04-28T02:23:25+00:00https://highco2-iv.org/7-effect-of-lower-ph-on-settlement-and-development-of-coral-pocillopora-damicornis-linnaeus-1758/2016-04-28T02:23:25+00:00https://highco2-iv.org/6-will-ocean-acidification-alter-thermal-windows-of-echinoderm-fertilisation-and-early-development/2016-04-28T02:25:27+00:00https://highco2-iv.org/5-the-effects-of-ocean-acidification-in-gastropod-shell-development/2016-04-28T02:25:27+00:00https://highco2-iv.org/4-physiological-response-of-a-protected-deep-sea-coral-to-ocean-acidification/2016-04-28T02:23:25+00:00https://highco2-iv.org/3-integrated-impacts-of-temperature-increase-and-ocean-acidification-on-larval-shell-development-in-the-american-lobster-homerus-americanus/2016-04-28T02:23:25+00:00https://highco2-iv.org/2-effects-of-ocean-acidification-on-the-photosynthetic-performance-carbonic-anhydrase-activity-and-growth-of-the-giant-kelp-macrocystis-pyrifera/2016-04-28T02:23:25+00:00https://highco2-iv.org/1-effects-of-ocean-acidification-on-the-growth-of-juvenile-mytilus-edulis/2016-04-28T02:23:25+00:00https://highco2-iv.org/87-an-early-stage-of-biological-impact-investigation-in-marine-organisms-of-thailand-due-to-reducing-ph-in-seawater-using-radiotracer-techniques/2016-04-28T02:23:25+00:00https://highco2-iv.org/79-between-control-and-complexity-the-potential-for-experimental-ocean-science-in-the-biosphere2-mesocosm/2016-04-28T02:23:25+00:00https://highco2-iv.org/39-adaptive-capacity-of-the-sea-urchin-heliocidaris-erythrogramma-to-ocean-change-responses-from-fertilisation-to-the-juvenile/2016-04-28T02:23:25+00:00https://highco2-iv.org/45-geographic-variability-in-eco-physiological-traits-of-benthic-calcifiers-along-natural-temperature-and-ph-gradients-the-chilean-coast-as-a-natural-laboratory/2016-04-28T02:23:25+00:00https://highco2-iv.org/50-ocean-acidification-effects-on-productivity-in-a-coastal-antarctic-marine-microbial-community/2016-04-28T02:23:25+00:00https://highco2-iv.org/40-the-impact-of-high-pco2-both-static-and-fluctuating-on-whole-organism-thermal-tolerance/2016-04-28T02:23:25+00:00https://highco2-iv.org/51-distribution-of-pelagic-biogenic-carbonates-in-the-southern-ocean-south-of-australia-a-baseline-for-ocean-acidification-impact-assessment/2016-04-28T02:23:25+00:00https://highco2-iv.org/antagonistic-and-synergistic-effects-of-ocean-acidification-and-global-warming-on-sharks/2016-04-28T00:53:10+00:00https://highco2-iv.org/109-marine-bioaccumulation-experiment-activities-in-indonesia/2016-04-28T02:23:25+00:00https://highco2-iv.org/mitigation-of-ocean-acidification-through-enhanced-olvine-weathering-2/2016-08-03T06:20:02+00:00https://highco2-iv.org/bridging-the-oa-data-management-workflow-gap/2016-05-02T13:33:40+00:00https://highco2-iv.org/landscape-changes-on-deception-islands-coast-after-subglacial-volcanic-eruptions/2016-05-03T23:11:08+00:00https://highco2-iv.org/110-experimental-evidence-of-low-ph-negative-effect-on-growth-and-calcification-of-argopecten-purpuratus-lamarck-1819/2016-05-10T23:12:43+00:00