A Three-Stage Symbiosis Forms the Foundation of Seagrass Ecosystems
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Ecosystem engineering by seagrasses interacts with grazing to shape an intertidal landscapeSulfide Intrusion and Detoxification in the Seagrass Zostera marinaForbidden phenotypes and the limits of evolution.Sulfide as a soil phytotoxin-a reviewA sixth-level habitat cascade increases biodiversity in an intertidal estuaryMicrobial communities in sediment from Zostera marina patches, but not the Z. marina leaf or root microbiomes, vary in relation to distance from patch edge.The Effect of Digestive Capacity on the Intake Rate of Toxic and Non-Toxic Prey in an Ecological ContextRhizosphere Microbiomes of European + Seagrasses Are Selected by the Plant, But Are Not Species Specific.Nitrogen fixation in a chemoautotrophic lucinid symbiosis.Chemosynthetic symbionts of marine invertebrate animals are capable of nitrogen fixation.Copper treatment during storage reduces Phytophthora and Halophytophthora infection of Zostera marina seeds used for restoration.A road map for molecular ecology.Global-Scale Structure of the Eelgrass Microbiome.The fundamental role of ecological feedback mechanisms for the adaptive management of seagrass ecosystems - a review.The life sulfuric: microbial ecology of sulfur cycling in marine sediments.Moving on with foraging theory: incorporating movement decisions into the functional response of a gregarious shorebird.The Seagrass Holobiont and Its Microbiome.Seagrasses are negatively affected by organic matter loading and Arenicola marina activity in a laboratory experiment.Toxin constraint explains diet choice, survival and population dynamics in a molluscivore shorebird.How habitat-modifying organisms structure the food web of two coastal ecosystems.Metatranscriptomics and Amplicon Sequencing Reveal Mutualisms in Seagrass Microbiomes.Uses and misuses of meta-analysis in plant ecologyLong-distance electron transport occurs globally in marine sedimentsPrioritizing localized management actions for seagrass conservation and restoration using a species distribution modelHighlights in Seagrasses’ Phylogeny, Physiology, and Metabolism: What Makes Them Special?A facultative mutualistic feedback enhances the stability of tropical intertidal seagrass beds
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P2860
A Three-Stage Symbiosis Forms the Foundation of Seagrass Ecosystems
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2012 nî lūn-bûn
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2012 թուականի Յունիսին հրատարակուած գիտական յօդուած
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2012 թվականի հունիսին հրատարակված գիտական հոդված
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2012年の論文
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2012年論文
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2012年論文
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2012年論文
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2012年論文
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2012年論文
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2012年论文
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name
A Three-Stage Symbiosis Forms the Foundation of Seagrass Ecosystems
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A Three-Stage Symbiosis Forms the Foundation of Seagrass Ecosystems
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A Three-Stage Symbiosis Forms the Foundation of Seagrass Ecosystems
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label
A Three-Stage Symbiosis Forms the Foundation of Seagrass Ecosystems
@ast
A Three-Stage Symbiosis Forms the Foundation of Seagrass Ecosystems
@en
A Three-Stage Symbiosis Forms the Foundation of Seagrass Ecosystems
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A Three-Stage Symbiosis Forms the Foundation of Seagrass Ecosystems
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A Three-Stage Symbiosis Forms the Foundation of Seagrass Ecosystems
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A Three-Stage Symbiosis Forms the Foundation of Seagrass Ecosystems
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P2093
P2860
P3181
P356
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A Three-Stage Symbiosis Forms the Foundation of Seagrass Ecosystems
@en
P2093
A. J. P. Smolders
B. R. Silliman
J. A. van Gils
J. de Fouw
J. van de Koppel
L. L. Govers
M. M. van Katwijk
M. van der Geest
T. van der Heide
P2860
P304
P3181
P356
10.1126/SCIENCE.1219973
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P577
2012-06-14T00:00:00Z