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1. Full Text Eco-evolutionary feedbacks – theoretical models and perspectives
by Govaert, L and Fronhofer, E.A and Lion, S and Eizaguirre, C and Bonte, D and Egas, M and Heny, A.P and De Brito Martins, A and Melián, C.J and Raeymaekers, J.A.M and Ratikainen, I.I and Saether, B.-E and Schweitzer, J.A and Matthews, B
Functional Ecology, ISSN 0269-8463, 01/2019, Volume 33, Issue 1, pp. 13 - 30
1.Theoretical models pertaining to feedbacks between ecological and evolutionary processes are prevalent in multiple biological fields. An integrative overview... 
feedback | eco‐evolutionary dynamics | ecology | demography | rapid evolution | modelling | theory | eco-evolutionary dynamics | PHENOTYPIC PLASTICITY | CHARACTER DISPLACEMENT | ECOSYSTEM ECOLOGY | PREDATOR-PREY INTERACTIONS | NICHE CONSTRUCTION | PLANT-SOIL FEEDBACKS | ADAPTIVE DYNAMICS | POPULATION-DYNAMICS | ECOLOGICAL DYNAMICS | Demographics | Ecosystems | Dispersal | Biological evolution | Crosstalk | Spatial discrimination | Evolution | Ecology | Models
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2. Full Text Negative plant-soil feedback predicts tree-species relative abundance in a tropical forest
by Mangan, Scott A and Bever, James D and Schnitzer, Stefan A and Mack, Keenan M. L and Valencia, Mariana C and Sanchez, Evelyn I and Herre, Edward A
Nature, ISSN 0028-0836, 08/2010, Volume 466, Issue 7307, pp. 752 - 755
The accumulation of species-specific enemies around adults is hypothesized to maintain plant diversity by limiting the recruitment of conspecific seedlings... 
RECRUITMENT | COEXISTENCE | COMMUNITY | DENSITY-DEPENDENCE | MULTIDISCIPLINARY SCIENCES | GROWTH | LOCAL NEIGHBORHOOD | SEEDLING MORTALITY | MAINTAIN DIVERSITY | SPATIAL-PATTERNS | PATHOGENS | Species Specificity | Soil Microbiology | Vertebrates - physiology | Soil - analysis | Biomass | Trees - growth & development | Biodiversity | Seedlings - growth & development | Food Chain | Feedback, Physiological | Trees - parasitology | Animals | Trees - classification | Tropical Climate | Models, Biological | Computer Simulation | Panama | Population Density | Trees - microbiology | Insecta - physiology | Plant-soil relationships | Research | Observations | Tropics | Biological diversity | Trees | Demography | Flowers & plants | Experiments
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3. Full Text Plant—soil feedback in East-African savanna trees
by Gemma Rutten and Daniel Prati and Andreas Hemp and Markus Fischer
Ecology, ISSN 0012-9658, 2/2016, Volume 97, Issue 2, pp. 294 - 301
Research in savannas has focused on tree–grass interactions, whereas tree species coexistence received little attention. A leading hypothesis to explain tree... 
Reports | diversity | tree abundance | plant–soil (belowground) interactions | soil biota | Janzen‐Connell effects | coexistence | Tanzania | East Africa | Janzen-connell effects | Plant-soil (belowground) interactions | Positive feedbacks | Diversity | Negative feedbacks | Coexistence | Tree abundance | Soil biota | SURVIVORSHIP | SEEDLING GROWTH | ISLANDS | positive feedbacks | GRASS INTERACTIONS | plant-soil (belowground) interactions | COMMUNITIES | MYCORRHIZAL FUNGI | negative feedbacks | Janzen-Connell effects | NUTRIENTS | ECOLOGY | VEGETATION | Plant Shoots - growth & development | Seeds | Trees - physiology | Ecosystem | Soil - chemistry | Botanical research | Plant-soil relationships | Research | Savannas
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4. Full Text Plant-soil feedback and the maintenance of diversity in Mediterranean-climate shrublands
by Teste, François P and Kardol, Paul and Turner, Benjamin L and Wardle, David A and Zemunik, Graham and Renton, Michael and Laliberté, Etienne
Science, ISSN 0036-8075, 01/2017, Volume 355, Issue 6321, pp. 173 - 176
Soil biota influence plant performance through plant-soil feedback, but it is unclear whether the strength of such feedback depends on plant traits and whether... 
BIODIVERSITY | PHOSPHORUS | WESTERN-AUSTRALIA | MULTIDISCIPLINARY SCIENCES | RAIN-FOREST | MECHANISMS | SUCCESSION | SPECIES DIVERSITY | COMMUNITIES | PATHOGENS | Climate | Feedback, Physiological | Plant Development | Biota - physiology | Soil | Mediterranean Region | Australia | Shrubs | Environmental aspects | Plant-soil relationships | Observations | Biological diversity | Plants (botany) | Populations | Seeds | Biota | Plants | Soil-water-plant relationships | Positive feedback | Biodiversity | Survival | Fungi | Negative feedback | Plant diversity | Plant growth | Feedback | Nutrients | Strategy | Bacteria | Herbivores | Flowers & plants | Plants (organisms) | Maintenance
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5. Full Text Where, when and how plant–soil feedback matters in a changing world
by Putten, van der, Wim H and Bradford, Mark A and Brinkman, E.P and Voorde, van de, Tess F.J and Veen, G.F
Functional Ecology, ISSN 0269-8463, 2016, Volume 30, Issue 7, pp. 1109 - 1121
It is increasingly acknowledged that plant–soil feedbacks may play an important role in driving the composition of plant communities and functioning of... 
invasive plants | carbon and nutrient cycling | range expansion | land use | plant–soil feedback triangle | community composition | biodiversity loss | climate change | LITTER DECOMPOSITION | POSITIVE FEEDBACKS | CLIMATE-CHANGE | CONSERVATION TILLAGE | plant-soil feedback triangle | RESOURCE AVAILABILITY | HOME-FIELD ADVANTAGE | MICROBIAL COMMUNITIES | FUNGAL COMMUNITIES | PRECIPITATION CHANGE | ECOLOGY | DRYING-REWETTING FREQUENCY | Ecosystem components | Global temperature changes | Chemical properties | Precipitation (Meteorology) | Droughts | Ecosystems | Feedback | Herbivores
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6. Full Text Nitrogen regulation of the climate-carbon feedback: evidence from a long-term global change experiment
by Niu, Shuli and Sherry, Rebecca A and Zhou, Xuhui and Wan, Shiqiang and Luo, Yiqi
Ecology, ISSN 0012-9658, 11/2010, Volume 91, Issue 11, pp. 3261 - 3273
Modeling studies have shown that nitrogen (N) strongly regulates ecosystem responses and feedback to climate warming. However, it remains unclear what... 
carbon storage | C:N ratio | nitrogen use efficiency | soil carbon | warming | biofuel harvest | land use change | climate change | Climate change | Terrestrial ecosystems | Soil heating | Ecosystems | Global warming | Climate models | Prairie soils | Plants | Biofuels | Soil ecology | Warming | Nitrogen use efficiency | Carbon storage | Land use change | Biofuel harvest | Soil carbon | TALLGRASS PRAIRIE | LITTER DECOMPOSITION | TERRESTRIAL ECOSYSTEMS | USE EFFICIENCY | RESPONSES | CYCLE FEEDBACKS | BIOMASS | DYNAMICS | ECOLOGY | PLANT-GROWTH | VEGETATION | Carbon - metabolism | Global Warming | Nitrogen - metabolism | Plants - metabolism | Plant Roots | Time Factors | Ecosystem | Soil - chemistry | Soils | Nitrogen content | Plant-soil relationships | Fixation | Research | Nitrogen
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7. Full Text Microbe-Mediated Plant-Soil Feedback Causes Historical Contingency Effects in Plant Community Assembly
by Paul Kardol and Nelleke J. Cornips and Monique M. L. van Kempen and J. M. Tanja Bakx-Schotman and Wim H. van der Putten
Ecological Monographs, ISSN 0012-9615, 5/2007, Volume 77, Issue 2, pp. 147 - 162
Plant—soil feedback affects performance and competitive ability of individual plants. However, the importance of plant—soil feedback in historical contigency... 
Synecology | Soil microorganisms | Biomass production | Soil fungi | Plant communities | Soil composition | Plants | Species | Soil ecology | Inoculum | historical contingency | ex-arable land | secondary succession | microorganisms | denaturing gradient gel electrophoresis | plant–soil feedback | competition | biotic legacy | community assembly | DGGE | Competition | Microorganisms | Historical contingency | Plant-soil feedback | Denaturing gradient gel electrophoresis | Community assembly | Secondary succession | Biotic legacy | Ex-arable land | FOOD-WEB | FUNGAL PATHOGENS | SPECIES COEXISTENCE | SUCCESSION | GRADIENT GEL-ELECTROPHORESIS | BORNE PATHOGENS | ECOLOGY | DIVERSITY | plant-soil feedback | NEGATIVE FEEDBACK | POPULATION-DYNAMICS | 16S RIBOSOMAL-RNA | Soil microbiology | Plant-soil relationships | Research | borne pathogens | succession | diversity | population-dynamics | food-web | 16s ribosomal-rna | gradient gel-electrophoresis | fungal pathogens | negative feedback | species coexistence
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8. Full Text Plant-soil feedbacks: the past, the present and future challenges
by Wim H. van der Putten and Richard D. Bardgett and James D. Bever and T. Martijn Bezemer and Brenda B. Casper and Tadashi Fukami and Paul Kardol and John N. Klironomos and Andrew Kulmatiski and Jennifer A. Schweitzer and Katherine N. Suding and Tess F. J. Van de Voorde and David A. Wardle and Sveriges lantbruksuniversitet
Journal of Ecology, ISSN 0022-0477, 3/2013, Volume 101, Issue 2, pp. 265 - 276
1. Plant-soil feedbacks is becoming an important concept for explaining vegetation dynamics, the invasiveness of introduced exotic species in new habitats and... 
Trucks | Negative feedback | Synecology | Ecosystems | Plant ecology | Ecology | Plants | Special Feature — Essay Review | Species | Soil ecology | Forest soils | succession | biodiversity‐ecosystem functioning | historical contingency | invasiveness | priority effect | plant–soil (below‐ground) interactions | abundance | mycorrhizal fungi | density dependence | rarity | Rarity | Succession | Priority effect | Mycorrhizal fungi | Invasiveness | Plant-soil (below-ground) interactions | Historical contingency | Abundance | Biodiversity-ecosystem functioning | Density dependence | RESTORATION ECOLOGY | LITTER DECOMPOSITION | SPECIES COEXISTENCE | ECOSYSTEM PROCESSES | PLANT SCIENCES | plant-soil (below-ground) interactions | biodiversity-ecosystem functioning | HOME-FIELD ADVANTAGE | MICROBIAL COMMUNITIES | INVASIVE PLANT | DENSITY-DEPENDENCE | ECOLOGY | NATURAL VEGETATION | SERPENTINE GRASSLAND | Analysis | Vegetation dynamics | Climatic changes | Skogsvetenskap | Forest Science
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