Predicting community and ecosystem outcomes of mycorrhizal responses to global change.
about
Land use imperils plant and animal community stability through changes in asynchrony rather than diversity.Partner selection in the mycorrhizal mutualism.Host Plant Physiology and Mycorrhizal Functioning Shift across a Glacial through Future [CO2] GradientRust fungi and global change.Responses of high-altitude graminoids and soil fungi to 20 years of experimental warming.Strong effect of climate on ectomycorrhizal fungal composition: evidence from range overlap between two mountainsMicrobial ecology of hot desert edaphic systems.Intraspecific competition between ectomycorrhizal Pisolithus microcarpus isolates impacts plant and fungal performance under elevated CO2 and temperature.Forests trapped in nitrogen limitation--an ecological market perspective on ectomycorrhizal symbiosis.Intense competition between arbuscular mycorrhizal mutualists in an in vitro root microbiome negatively affects total fungal abundance.Fungi in the future: interannual variation and effects of atmospheric change on arbuscular mycorrhizal fungal communities.Soil fungal communities of grasslands are environmentally structured at a regional scale in the Alps.The role of community and population ecology in applying mycorrhizal fungi for improved food securityDecrease in diversity and changes in community composition of arbuscular mycorrhizal fungi in roots of apple trees with increasing orchard management intensity across a regional scale.Root-associated fungi of Vaccinium carlesii in subtropical forests of China: intra- and inter-annual variability and impacts of human disturbances.Impact of alien pines on local arbuscular mycorrhizal fungal communities-evidence from two continents.Benefits from living together? Clades whose species use similar habitats may persist as a result of eco-evolutionary feedbacks.Plant-mycorrhizal interactions mediate plant community coexistence by altering resource demand.Rapid genotypic change and plasticity in arbuscular mycorrhizal fungi is caused by a host shift and enhanced by segregation.Temperature drives the assembly of endophytic communities' seasonal succession.Biofertilizers and sustainable agriculture: exploring arbuscular mycorrhizal fungi.Arbuscular mycorrhizal fungal community composition is altered by long-term litter removal but not litter addition in a lowland tropical forest.The mycorrhizal type governs root exudation and nitrogen uptake of temperate tree species.Temperature-mediated local adaptation alters the symbiotic function in arbuscular mycorrhiza.Mycorrhizal fungi and roots are complementary in foraging within nutrient patches.Ecology: Good dirt with good friends.Tracking plant preference for higher-quality mycorrhizal symbionts under varying CO2 conditions over multiple generations.Ecological effects of environmental change.A phosphorus threshold for mycoheterotrophic plants in tropical forests.Chronic fertilization of 37 years alters the phylogenetic structure of soil arbuscular mycorrhizal fungi in Chinese Mollisols.The Effects of Arbuscular Mycorrhizal Fungal Colonisation on Nutrient Status, Growth, Productivity, and Canker Resistance of Apple (Malus pumila).Above- and below-ground responses of native and invasive prairie grasses to future climate scenariosMycorrhizal associations of an invasive tree are enhanced by both genetic and environmental mechanismsModel behavior of arbuscular mycorrhizal fungi: predicting soil carbon dynamics under climate changeDo arbuscular mycorrhizal fungi stabilize litter-derived carbon in soil?Mediation of soil C decomposition by arbuscular mycorrizhal fungi in grass rhizospheres under elevated CO2Responses of arbuscular mycorrhizal fungi to long-term inorganic and organic nutrient addition in a lowland tropical forestAbiotic conditions drive significant variability in nutrient processing by a common Caribbean sponge, Ircinia felixModeling the carbon cost of plant nitrogen acquisition: Mycorrhizal trade-offs and multipath resistance uptake improve predictions of retranslocationInterdependence of chronic hydraulic dysfunction and canopy processes can improve integrated models of tree response to drought
P2860
Q27332179-03D9F0C9-8707-4F6C-B8DA-926A075C2F51Q27691433-4C080677-E3C4-453B-9049-1CEF4EBA444FQ28598054-A7FE228E-F519-42FA-9DBB-EBFDD481168DQ30761892-4432D955-65E3-45B2-82C6-46404269B6E7Q30845359-F72817CB-D096-4433-B825-EF41BF5FA0D5Q30887307-C671D359-C40C-417F-A7A0-C62C379CA32DQ30901784-9099E7D9-D5D5-4165-8F08-6728A9FD5344Q31101548-FD80EFD8-6610-4214-AFFA-BBF1874AF86AQ34419861-C556C053-E93C-40BF-B526-BC1154A832AEQ34992436-A70A4CFC-6EB4-497E-8451-D8249009C2B5Q35115195-2C808BA6-53C0-4290-9D60-3A2BEB63BC55Q35209536-9EA48B0E-080C-4B70-8517-B7BBFCA13DD3Q35536010-E3969FA4-0C81-4367-8212-95871F49BD6AQ35542351-E0525E34-BAF2-4F07-B8B6-A1B34C13D4DFQ35940317-2203106F-A63B-493B-8ECE-8670C63165F8Q35983276-8AF54234-32A1-416F-81E5-CE596B1D10EDQ36202345-7EF159DF-8A10-4349-B806-F8D4A46764D4Q36239634-41D4FD54-6C4F-44DF-BCDB-07965625488CQ37532021-DB7B6860-1D1D-4306-A564-2A6D7C650F03Q38707119-55A9E50E-6CD5-4EA2-A9D1-E394D56B548FQ39332000-00C086F2-CAC5-4030-87B9-FF0554A8A066Q39454893-2D8AAF65-E95A-4D9F-BFBF-C3B0D0F7BFACQ46263815-3EC72646-D3BF-4D8A-93A5-E137680C07AEQ46396289-8CA6358E-C23A-4F98-BEB9-734160F568F9Q46458541-0E7E097B-6B4A-4AF1-A776-17DB771F9301Q46949210-5CF56986-F39F-4ABB-94DE-88536B2C9EDFQ48266564-AD4DFB0F-7B2B-4F8E-9F05-EDE980924F57Q51165963-8DA583DA-2F01-415B-9C31-8C913E0C02A8Q51232707-D553AEEF-C9BD-45D1-B1C4-12D0336092D8Q55246972-01B23596-3AC9-4144-87DF-CE20362A214DQ55709399-ED3EBCE5-703E-4045-A9C3-EB6F2E6DD9DEQ56394997-13029848-8DFF-4595-AA91-951E86A12F23Q56425051-2735E7CC-6CDF-471C-8F3C-76619895AB30Q56458292-AA035B34-E323-4D7C-AD81-F35A42FA4B1CQ57012783-5E891117-37AC-4E8B-B028-BCCC6920DCA2Q57065976-661A0DA6-30FA-4362-AC82-F24D55B6648FQ57140436-3B73E8E8-6225-49A3-A7C4-6D20702B8358Q57425680-7C48CC18-975C-4AB8-85AE-EB3D18D403B2Q58053503-4A6CFA7D-2822-40C5-A5E3-FD3FB3D3C2A8Q58318678-E549C11D-90BE-4548-AC3C-686695AA6700
P2860
Predicting community and ecosystem outcomes of mycorrhizal responses to global change.
description
2013 nî lūn-bûn
@nan
2013 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի մայիսին 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
Predicting community and ecosystem outcomes of mycorrhizal responses to global change.
@ast
Predicting community and ecosystem outcomes of mycorrhizal responses to global change.
@en
Predicting community and ecosystem outcomes of mycorrhizal responses to global change.
@nl
type
label
Predicting community and ecosystem outcomes of mycorrhizal responses to global change.
@ast
Predicting community and ecosystem outcomes of mycorrhizal responses to global change.
@en
Predicting community and ecosystem outcomes of mycorrhizal responses to global change.
@nl
prefLabel
Predicting community and ecosystem outcomes of mycorrhizal responses to global change.
@ast
Predicting community and ecosystem outcomes of mycorrhizal responses to global change.
@en
Predicting community and ecosystem outcomes of mycorrhizal responses to global change.
@nl
P2860
P356
P1433
P1476
Predicting community and ecosystem outcomes of mycorrhizal responses to global change
@en
P2093
Caroline Angelard
Nancy C Johnson
P2860
P304
P356
10.1111/ELE.12085
P407
P478
16 Suppl 1
P577
2013-05-01T00:00:00Z