about
Stability of strong species interactions resist the synergistic effects of local and global pollution in kelp forestsA short-term in situ CO₂ enrichment experiment on Heron Island (GBR)Restoring coastal plants to improve global carbon storage: reaping what we sowFuture climate stimulates population out-breaks by relaxing constraints on reproductionPredicting the distribution of commercially important invertebrate stocks under future climate.Population dynamics can be more important than physiological limits for determining range shifts under climate change.Ocean acidification and rising temperatures may increase biofilm primary productivity but decrease grazer consumption.Trophic compensation reinforces resistance: herbivory absorbs the increasing effects of multiple disturbances.Escaping herbivory: ocean warming as a refuge for primary producers where consumer metabolism and consumption cannot pursue.FORECASTED CO2 MODIFIES THE INFLUENCE OF LIGHT IN SHAPING SUBTIDAL HABITAT(1).Climate-driven disparities among ecological interactions threaten kelp forest persistence.Ocean acidification: Linking science to management solutions using the Great Barrier Reef as a case study.Seaweed communities in retreat from ocean warming.Context-dependency in the effects of nutrient loading and consumers on the availability of space in marine rocky environments.The footprint of continental-scale ocean currents on the biogeography of seaweeds.The other ocean acidification problem: CO2 as a resource among competitors for ecosystem dominanceShared patterns of species turnover between seaweeds and seed plants break down at increasing distances from the seaSpecies Interactions Drive Fish Biodiversity Loss in a High-CO2 World.Mineralogical Plasticity Acts as a Compensatory Mechanism to the Impacts of Ocean Acidification.Temperate and tropical brown macroalgae thrive, despite decalcification, along natural CO2 gradients.Seagrass response to CO₂ contingent on epiphytic algae: indirect effects can overwhelm direct effects.Contemporary reliance on bicarbonate acquisition predicts increased growth of seagrass Amphibolis antarctica in a high-CO2 world.Future seagrass beds: can increased productivity lead to increased carbon storage?Contrasting resource limitations of marine primary producers: implications for competitive interactions under enriched CO2 and nutrient regimes.Land-to-sea connectivity: linking human-derived terrestrial subsidies to subtidal habitat change on open rocky coasts.Conceptualizing ecosystem tipping points within a physiological framework.Predicting ecosystem shifts requires new approaches that integrate the effects of climate change across entire systems.How ocean acidification can benefit calcifiers.Discovery of the mineral brucite (magnesium hydroxide) in the tropical calcifying alga Polystrata dura (Peyssonneliales, Rhodophyta).Impacts of Near-Future Ocean Acidification and Warming on the Shell Mechanical and Geochemical Properties of Gastropods from Intertidal to Subtidal Zones.Testing for thresholds of ecosystem collapse in seagrass meadows.Heatwaves diminish the survival of a subtidal gastropod through reduction in energy budget and depletion of energy reserves.Ecological performance of construction materials subject to ocean climate change.The direct effects of increasing CO2 and temperature on non-calcifying organisms: increasing the potential for phase shifts in kelp forests.Eutrophication science: moving into the futureBoosted nutritional quality of food by CO enrichment fails to offset energy demand of herbivores under ocean warming, causing energy depletion and mortalityManaging Local Coastal Stressors to Reduce the Ecological Effects of Ocean Acidification and WarmingOcean acidification increases the sensitivity and variability of physiological responses of an intertidal limpet to thermal stressFaculty of 1000 evaluation for Physiological plasticity increases resilience of ectothermic animals to climate changeFaculty of 1000 evaluation for Parental environment mediates impacts of increased carbon dioxide on a coral reef fish
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P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Bayden D Russell
@ast
Bayden D Russell
@en
Bayden D Russell
@es
Bayden D Russell
@nl
type
label
Bayden D Russell
@ast
Bayden D Russell
@en
Bayden D Russell
@es
Bayden D Russell
@nl
prefLabel
Bayden D Russell
@ast
Bayden D Russell
@en
Bayden D Russell
@es
Bayden D Russell
@nl
P106
P1153
8712374200
P31
P496
0000-0003-1282-9978