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1. Full Text Strigolactone inhibition of shoot branching
by Gomez-Roldan, M.V and Fermas, S and Brewer, P.B and Puech-Pages, V and Dun, E.A and Pillot, J.P and Letisse, F and Matusova, R and Danoun, S and Portais, J.C and Bouwmeester, H.J and Becard, G and Beveridge, C.A and Rameau, C and Rochange, S.F
Nature, ISSN 0028-0836, 2008, Volume 455, Issue 7210, pp. 189 - 195
A carotenoid-derived hormonal signal that inhibits shoot branching in plants has long escaped identification. Strigolactones are compounds thought to be... 
rms1 mutant | seed-germination | phosphorus deficiency | root parasitic plants | germination stimulants | apical dominance | arbuscular-mycorrhizal fungi | pea | signal | arabidopsis | GERMINATION STIMULANTS | PHOSPHORUS DEFICIENCY | SIGNAL | RMS1 MUTANT | ROOT PARASITIC PLANTS | SEED-GERMINATION | MULTIDISCIPLINARY SCIENCES | ARBUSCULAR-MYCORRHIZAL FUNGI | ARABIDOPSIS | APICAL DOMINANCE | PEA | Plant Shoots - growth & development | Arabidopsis - growth & development | Mycorrhizae - physiology | Lactones - analysis | Lactones - pharmacology | Plant Roots - drug effects | Arabidopsis Proteins - metabolism | Plant Growth Regulators - chemistry | Terpenes - pharmacology | Terpenes - chemistry | Terpenes - metabolism | Oxygenases - metabolism | Plant Shoots - drug effects | Plant Proteins - metabolism | Peas - metabolism | Plant Growth Regulators - analysis | Lactones - chemistry | Symbiosis | Arabidopsis Proteins - genetics | Arabidopsis - drug effects | Plant Roots - metabolism | Peas - growth & development | Peas - parasitology | Peas - drug effects | Dioxygenases | Lactones - metabolism | Terpenes - analysis | Arabidopsis - genetics | Plant Proteins - genetics | Phenotype | Genes, Plant - genetics | Plant Shoots - metabolism | Plant Shoots - parasitology | Mutation | Oxygenases - genetics | Plant Growth Regulators - metabolism | Plant Growth Regulators - pharmacology | Physiological aspects | Plant growth inhibiting substances | Research | Growth (Plants) | Fungi | Immunization | E coli | Mass spectrometry | Botany | Life Sciences
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2. Full Text The role of mycorrhizae and plant growth promoting rhizobacteria (PGPR) in improving crop productivity under stressful environments
by Nadeem, Sajid Mahmood and Ahmad, Maqshoof and Zahir, Zahir Ahmad and Javaid, Arshad and Ashraf, Muhammad
Biotechnology Advances, ISSN 0734-9750, 03/2014, Volume 32, Issue 2, pp. 429 - 448
Both biotic and abiotic stresses are major constrains to agricultural production. Under stress conditions, plant growth is affected by a number of factors such... 
Plant | Interactions | PGPR | Growth | Mycorrhizae | Stress | ANTIOXIDANT ENZYME-ACTIVITY | OXIDATIVE STRESS | SOIL-BORNE DISEASES | SALT-STRESS | VESICULAR-ARBUSCULAR MYCORRHIZAL | PSEUDOMONAS-PUTIDA UW4 | NITROGEN-FIXATION | VITIS-VINIFERA L | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | BIOLOGICAL-CONTROL | ACC-DEAMINASE | Bacteria | Crops, Agricultural - microbiology | Crops, Agricultural - growth & development | Stress, Physiological | Fungi | Physiological aspects | Plant hormones | Soil microbiology | Soil ecology | Stresses | Microorganisms | Inoculation | Nutrition | Plants (organisms) | Biological | Soil (material)
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3. Full Text Fresh perspectives on the roles of arbuscular mycorrhizal fungi in plant nutrition and growth
by Smith, Sally E and Smith, F. Andrew
Mycologia, ISSN 0027-5514, 01/2012, Volume 104, Issue 1, pp. 1 - 13
Recent research on arbuscular mycorrhizas has demonstrated that AM fungi play a significant role in plant phosphorus (P) uptake, regardless of whether the... 
plant growth | arbuscular mycorrhiza | phosphate uptake | Fungi | Symbiosis | Microbial colonization | Plant growth | Mycorrhizal fungi | Arbuscular mycorrhizas | Plant roots | Soil fungi | Phosphorus | Plants | Arbuscular mycorrhiza | Phosphate uptake | TRIFOLIUM-SUBTERRANEUM L | CARBON | FUNCTIONAL DIVERSITY | ROOT | EXTERNAL HYPHAE | COLONIZATION PATTERNS | PHOSPHATE TRANSPORTER | MEDICAGO-TRUNCATULA | PHOSPHORUS UPTAKE | DEFECTIVE MUTANT | MYCOLOGY | Plants - metabolism | Plant Development | Fungi - physiology | Fungi - cytology | Mycorrhizae - metabolism | Plants - microbiology | Mycorrhizae - physiology | Fungi - metabolism | Plant Roots - microbiology | Plant Roots - growth & development | Mycorrhizae - cytology
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4. Full Text Use of plant growth promoting Rhizobacteria (PGPR) and mycorrhizae to improve the growth and nutrient utilization of common bean in a soil infected with white rot fungi
by Mohamed, Ibrahim and Eid, Khaled E and Abbas, Mohamed H.H and Salem, Ahmed A and Ahmed, Nevin and Ali, Maha and Shah, Ghulam Mustafa and Fang, Chen
Ecotoxicology and Environmental Safety, ISSN 0147-6513, 04/2019, Volume 171, pp. 539 - 548
Extensive use of fertilizers and pesticides led to dangerous ecological effects and therefore the biological approaches have been widely recommended to prevent... 
Common beans | Inoculation | PGPR | Soil-borne Pathogen | Nutrient management | DEFENSE | INDUCTION | PESTICIDES | ENVIRONMENTAL SCIENCES | PEROXIDASE | IMPACT | SIDEROPHORES | COMPOST | BIOMASS | DIVERSITY | TOXICOLOGY | ACCUMULATION | Biological Control Agents | Phaseolus - growth & development | Soil Microbiology | Pseudomonas fluorescens - physiology | Mycorrhizae - physiology | Plant Roots - microbiology | Soil Pollutants - analysis | Fertilizers | Bacillus subtilis - physiology | Soil - chemistry | Basidiomycota - pathogenicity | Phaseolus - microbiology | Plant Roots - growth & development | Phosphates | Fungi | Enzymes | Legumes | Crop yields | Usage | Beans | Fluorescence | Plants | Soil pollution | Mimosaceae | Index Medicus
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5. Full Text Resolving the ‘nitrogen paradox’ of arbuscular mycorrhizas: fertilization with organic matter brings considerable benefits for plant nutrition and growth
by Thirkell, Tom J and Cameron, Duncan D and Hodge, Angela
Plant, Cell & Environment, ISSN 0140-7791, 08/2016, Volume 39, Issue 8, pp. 1683 - 1690
Arbuscular mycorrhizal fungi (AMF) can transfer nitrogen (N) to host plants, but the ecological relevance is debated, as total plant N and biomass do not... 
organic matter | growth | arbuscular mycorrhiza | nitrogen | symbiosis | nitrogen paradox | PHOSPHORUS | LITTER DECOMPOSITION | NITRATE | RICH PATCHES | COLONIZATION | PLANT SCIENCES | FUNGUS GLOMUS-MOSSEAE | COMPETITION | SOIL | ECOSYSTEM | CAPTURE | Chlorella | Plantago - metabolism | Nitrogen Isotopes - metabolism | Plantago - growth & development | Mycorrhizae - metabolism | Fertilizers | Erythromycin | Original
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6. Full Text Roles of arbuscular mycorrhizas in plant nutrition and growth: New paradigms from cellular to ecosystem scales
by Smith, Sally E and Smith, F. Andrew
Annual Review of Plant Biology, ISSN 1543-5008, 06/2011, Volume 62, Issue 1, pp. 227 - 250
Root systems of most land plants form arbuscular mycorrhizal (AM) symbioses in the field, and these contribute to nutrient uptake. AM roots have two pathways... 
mycorrhizal growth responses | phosphorus uptake | plant nutrient uptake pathways | nitrogen uptake | TRIFOLIUM-SUBTERRANEUM L | ALLIUM-CEPA L | HIGHLY CALCAREOUS SOIL | EXTERNAL HYPHAE | H+-ATPASE GENE | PLANT SCIENCES | FUNGUS GLOMUS-INTRARADICES | AFFINITY PHOSPHATE TRANSPORTER | EXTRARADICAL MYCELIUM | MEDICAGO-TRUNCATULA | Symbiosis | Nitrogen - metabolism | Plant Development | Plant Roots - metabolism | Signal Transduction | Plants - microbiology | Mycorrhizae - physiology | Plant Roots - microbiology | Plants - metabolism | Hyphae - metabolism | Models, Biological | Phosphorus - metabolism | Ecosystem | Mycorrhizae - metabolism | Plant Roots - growth & development | Mycorrhizas | Physiological aspects | Environmental aspects | Research | Plants | Growth (Plants) | Food and nutrition
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7. Full Text Combined effects of fungal inoculants and the cytokinin-like growth regulator thidiazuron on growth, phytohormone contents and endophytic root fungi in Miscanthus × giganteus
by Schmidt, Christoph Stephan and Mrnka, Libor and Frantík, Tomaš and Motyka, Václav and Dobrev, Petre I and Vosátka, Miroslav
Plant Physiology and Biochemistry, ISSN 0981-9428, 11/2017, Volume 120, pp. 120 - 131
Aim of this study was to investigate main effects and interactions between symbiotic fungi and the cytokinin-like growth regulator thidiazuron (TDZ) in  × The... 
Growth regulator | Thidiazuron | Piriformospora indica | Miscanthus | Phytohormones | Endophytic fungi | Arbuscular mycorrhiza | Poaceae - microbiology | Poaceae - metabolism | Mycorrhizae - metabolism | Phenylurea Compounds - pharmacology | Basidiomycota - growth & development | Plant Growth Regulators - metabolism | Thiadiazoles - pharmacology
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8. Full Text Multi-trophic consequences of plant genetic variation in sex and growth
by Luis Abdala-Roberts and Jessica D. Pratt and Riley Pratt and Tadj K. Schreck and Victoria Hanna and Kailen A. Mooney
Ecology, ISSN 0012-9658, 3/2016, Volume 97, Issue 3, pp. 743 - 753
There is growing evidence for the influence of plant intraspecific variation on associated multi-trophic communities, but the traits driving such effects are... 
trophic interactions | arbuscular mycorrhizal fungi | plant sexual dimorphism | herbivory | genetic variation | plant quality | growth rate | Plant sexual dimorphism | Growth rate | Arbuscular mycorrhizal fungi | Genetic variation | Plant quality | Herbivory | Trophic interactions | Food Chain | Reproduction | Animals | Plant Development | Plants - genetics | Insecta | Mycorrhizae - physiology | Asters | Plant communities | Genetic aspects | Growth | Trophic levels | Ecological research
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9. Full Text A worldview of root traits: the influence of ancestry, growth form, climate and mycorrhizal association on the functional trait variation of fine‐root tissues in seed plants
by Valverde‐Barrantes, Oscar J and Freschet, Grégoire T and Roumet, Catherine and Blackwood, Christopher B
New Phytologist, ISSN 0028-646X, 09/2017, Volume 215, Issue 4, pp. 1562 - 1573
Summary Fine‐root traits play key roles in ecosystem processes, but the drivers of fine‐root trait diversity remain poorly understood. The plant economic... 
plant economics spectrum | specific root length (SRL) | mycorrhizas | fine roots | plant functional traits | root diameter | plant evolution | LIFE-SPAN | LITTER DECOMPOSITION | LEAF TRAITS | LEAVES | PATTERNS | PLANT SCIENCES | DENSITY | EVOLUTION | FRAMEWORK | NITROGEN | ECONOMICS SPECTRUM | Nitrogen - metabolism | Plant Development | Quantitative Trait, Heritable | Plants - microbiology | Mycorrhizae - physiology | Phylogeny | Plant Leaves - physiology | Climate | Growth | Ecosystems | Analysis | Evolution | Plants | Leaves | Integration | Plant growth | Plant tissues | Roots | Phylogenetics | Tissues | Framework
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