about
Sulfide Intrusion and Detoxification in the Seagrass Zostera marinaSediment Resuspension and Deposition on Seagrass Leaves Impedes Internal Plant Aeration and Promotes Phytotoxic H2S IntrusionEcological restoration of rich fens in Europe and North America: from trial and error to an evidence-based approach.Nanoparticle-based measurements of pH and O2 dynamics in the rhizosphere of Zostera marina L.: effects of temperature elevation and light-dark transitions.Microbial communities in sediment from Zostera marina patches, but not the Z. marina leaf or root microbiomes, vary in relation to distance from patch edge.Gypsum amendment to rice paddy soil stimulated bacteria involved in sulfur cycling but largely preserved the phylogenetic composition of the total bacterial community.Fertirrigation with sugarcane vinasse: Foreseeing potential impacts on soil and water resources through vinasse characterization.Plant responses to flooding.Biochemical adaptations of four submerged macrophytes under combined exposure to hypoxia and hydrogen sulphide.Facing the challenge of sustainable bioenergy production: Could halophytes be part of the solution?Molecular and dissociative adsorption of water and hydrogen sulfide at perfect and defective Cu(110) surfaces.Toxicity of sulfide to early life stages of wild rice (Zizania palustris).Effects of sulfate and sulfide on the life cycle of Zizania palustris in hydroponic and mesocosm experiments.Seagrasses are negatively affected by organic matter loading and Arenicola marina activity in a laboratory experiment.Invasive Macrophytes Control the Spatial and Temporal Patterns of Temperature and Dissolved Oxygen in a Shallow Lake: A Proposed Feedback Mechanism of Macrophyte Loss.Seagrass-Mediated Phosphorus and Iron Solubilization in Tropical Sediments.Marine Phytophthora species can hamper conservation and restoration of vegetated coastal ecosystems.Epiphyte-cover on seagrass (Zostera marina L.) leaves impedes plant performance and radial O2 loss from the below-ground tissueIron clad wetlands: Soil iron-sulfur buffering determines coastal wetland response to salt water incursionA facultative mutualistic feedback enhances the stability of tropical intertidal seagrass beds
P2860
Q28547684-36EAA318-F37C-499A-9F24-122B88F526FDQ30355906-ABD53FC4-ACB8-40B7-8EF1-1A0B855908A4Q30792929-C6E3CAD5-6F9F-4B22-8D1E-363618A5A6D9Q31061625-2E0CC439-5192-4123-844A-AF67E8301DF9Q33618091-552808BC-0326-45F4-9418-8461DA71158FQ35991656-C39B62A1-7269-4957-B719-E6ECB6A70259Q38665204-172D4E27-E355-4100-A0EC-0B9E58AE35F1Q39928964-7C027C55-AC29-4DB6-A1AF-3DC3966A0408Q41255504-763BE23D-13F3-4474-B78E-04C3A4B6CCB6Q41588332-CC89AB0A-54D1-4E9A-8F14-984DA7D74FB6Q46407917-45EF8539-7C36-4FCD-B932-B69772BEED1EQ46421926-C5B376B7-0C4D-487E-86FF-C7921ED4C552Q46437157-2875AC3A-17E7-4F9B-9612-A9309105C5ACQ46918519-7DBE5E84-6DE4-495F-855E-70629D92F8C5Q47129346-F4BAFC7C-748B-49D8-B0E8-3F56AF8ACEFDQ47155025-65A44F02-0373-4FAF-8D6E-5F638752754DQ51272264-95B5355A-4BAF-4680-85FB-3088E521AFE2Q57899981-EAA67AC3-0E21-4FD1-806E-BA85AA8F4BC1Q58069161-4ED9437E-8DCE-45CF-B09E-5D79C5C2549CQ58699567-ED15EC61-DB7C-4CA4-8F48-4709540E8CA1
P2860
description
2013 nî lūn-bûn
@nan
2013 թուականին հրատարակուած գիտական յօդուած
@hyw
2013 թվականին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Sulfide as a soil phytotoxin-a review
@ast
Sulfide as a soil phytotoxin-a review
@en
Sulfide as a soil phytotoxin-a review
@nl
type
label
Sulfide as a soil phytotoxin-a review
@ast
Sulfide as a soil phytotoxin-a review
@en
Sulfide as a soil phytotoxin-a review
@nl
prefLabel
Sulfide as a soil phytotoxin-a review
@ast
Sulfide as a soil phytotoxin-a review
@en
Sulfide as a soil phytotoxin-a review
@nl
P2093
P2860
P356
P1476
Sulfide as a soil phytotoxin-a review
@en
P2093
Alfons J P Smolders
Inge C J M Janssen
Jan G M Roelofs
Jeroen J M Geurts
Laura L Govers
Leon P M Lamers
Marlies E W Van der Welle
Tjisse Van der Heide
P2860
P356
10.3389/FPLS.2013.00268
P407
P577
2013-07-22T00:00:00Z