about
Disturbances, organisms and ecosystems: a global change perspectiveIngestion of charcoal by the Amazonian earthworm Pontoscolex corethrurus: A potential for tropical soil fertilityNew pigments from the terrestrial cyanobacterium Scytonema sp. collected on the Mitaraka inselberg, French Guyana.Emergent properties from organisms to ecosystems: towards a realistic approach.Avoidance of low doses of naphthalene by Collembola.The use of directional traps for the assessment of short-term phenanthrene effects upon soil springtail communities.Metal immobilization and soil amendment efficiency at a contaminated sediment landfill site: a field study focusing on plants, springtails, and bacteria.A thesaurus for soil invertebrate trait-based approachesEnvironmental hazard assessment by the Ecoscore system to discriminate PAH-polluted soils.Ancestrality and evolution of trait syndromes in finches (Fringillidae).Microscopy in addition to chemical analyses and ecotoxicological assays for the environmental hazard assessment of coal tar-polluted soils.Avoidance bio-assays may help to test the ecological significance of soil pollution.Comparison of solid and liquid-phase bioassays using ecoscores to assess contaminated soils.The soil as an ecosystemClassification of forest humus forms: a French proposalHumus IndexDoes the invasive species Reynoutria japonica have an impact on soil and flora in urban wastelands?Humus forms in terrestrial ecosystems: a framework to biodiversitySpecies living in harsh environments have low clade rank and are localized on former Laurasian continents: a case study ofWillemia(Collembola)Effect of habitat spatiotemporal structure on collembolan diversityUse of an avoidance test for the assessment of microbial degradation of PAHsColonization of heavy metal-polluted soils by collembola: preliminary experiments in compartmented boxesInteraction between humus form and herbicide toxicity to Collembola (Hexapoda)Changes in Collembola richness and diversity along a gradient of land-use intensity: A pan European studyHumusica 1, article 1: Essential bases – VocabularyHumusica 1, article 2: Essential bases—Functional considerationsHumusica 1, article 3: Essential bases – Quick look at the classificationHumusica 1, article 4: Terrestrial humus systems and forms — Specific terms and diagnostic horizonsHumusica 1, article 5: Terrestrial humus systems and forms — Keys of classification of humus systems and formsHumusica 1, Article 6: Terrestrial humus systems and forms – Hydro intergradesHumusica 1, article 7: Terrestrial humus systems and forms – Field practice and sampling problemsHumusica 1, article 8: Terrestrial humus systems and forms – Biological activity and soil aggregates, space-time dynamicsHumusica 2, article 10: Histic humus systems and forms – Key of classificationHumusica 2, article 11: Histic humus systems and forms–Epihisto intergrades and dynamicsHumusica 2, article 12: Aqueous humipedons – Tidal and subtidal humus systems and formsHumusica 2, article 13: Para humus systems and formsHumusica 2, Article 14: Anthropogenic soils and humus systems, comparing classification systemsHumusica 2, Article 15: Agro humus systems and formsHumusica 2, article 16: Techno humus systems and recycling of wasteHumusica 2, article 17: techno humus systems and global change − three crucial questions
P50
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P50
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