Future seagrass beds: can increased productivity lead to increased carbon storage?
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Impacts of ocean acidification on early life-history stages and settlement of the coral-eating sea star Acanthaster planci.Coral reefs on the edge? Carbon chemistry on inshore reefs of the great barrier reefChanges in microbial communities in coastal sediments along natural CO2 gradients at a volcanic vent in Papua New Guinea.Light Levels Affect Carbon Utilisation in Tropical Seagrass under Ocean Acidification.Seagrass (Posidonia oceanica) seedlings in a high-CO2 world: from physiology to herbivory.Seagrass metabolism and carbon dynamics in a tropical coastal embayment.Genomewide transcriptional reprogramming in the seagrass Cymodocea nodosa under experimental ocean acidification.Echinometra sea urchins acclimatized to elevated pCO2 at volcanic vents outperform those under present-day pCO2 conditions.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.Response of Posidonia oceanica seagrass and its epibiont communities to ocean acidificationLinking gene expression to productivity to unravel long- and short-term responses of seagrasses exposed to CO2 in volcanic vents.Nutrient Loading Fosters Seagrass Productivity Under Ocean Acidification.Structural and physiological responses of Halodule wrightii to ocean acidification.Heatwaves diminish the survival of a subtidal gastropod through reduction in energy budget and depletion of energy reserves.CO2 leakage alters biogeochemical and ecological functions of submarine sands.SeagrassDB: An open-source transcriptomics landscape for phylogenetically profiled seagrasses and aquatic plants.Does Nutrient Availability Regulate Seagrass Response to Elevated CO2?Carbon storage in seagrass soils: long-term nutrient history exceeds the effects of near-term nutrient enrichmentOcean acidification drives community shifts towards simplified non-calcified habitats in a subtropical-temperate transition zoneAddressing calcium carbonate cycling in blue carbon accountingCalcareous green algaHalimedatolerates ocean acidification conditions at tropical carbon dioxide seepsResponses of three tropical seagrass species to CO2 enrichmentThe Influence of CO2 Enrichment on Net Photosynthesis of Seagrass Zostera marina in a Brackish Water Environment
P2860
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P2860
Future seagrass beds: can increased productivity lead to increased carbon storage?
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2013 nî lūn-bûn
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2013年の論文
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2013年論文
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2013年論文
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2013年論文
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2013年論文
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2013年論文
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2013年论文
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Future seagrass beds: can increased productivity lead to increased carbon storage?
@en
Future seagrass beds: can increased productivity lead to increased carbon storage?
@nl
type
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Future seagrass beds: can increased productivity lead to increased carbon storage?
@en
Future seagrass beds: can increased productivity lead to increased carbon storage?
@nl
prefLabel
Future seagrass beds: can increased productivity lead to increased carbon storage?
@en
Future seagrass beds: can increased productivity lead to increased carbon storage?
@nl
P50
P1476
Future seagrass beds: can increased productivity lead to increased carbon storage?
@en
P2093
Katharina E Fabricius
Nancy Muehllehner
P304
P356
10.1016/J.MARPOLBUL.2013.01.031
P577
2013-02-28T00:00:00Z