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Ian Sanders

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114 publications

2024 | 2023 | 2022 | 2021 | 2020 | 2019 | 2018 | 2017 | 2016 | 2015 | 2014 | 2013 | 2012 | 2011 | 2010 | 2009 | 2008 | 2007 | 2006 | 2005 | 2004 | 2003 | 2002 | 2001 | 2000 | 1999 | 1998 | 1997 | 1996 | 1995 | 1994 | 1993 | 1992 | 1990 |

2024

Evolution of unexpected diversity in a putative mating type locus and its correlation with genome variability reveals likely asexuality in the model mycorrhizal fungus Rhizophagus irregularis.

Lee S.J., Risse E., Mateus I.D., Sanders I.R., 2024/09/20. BMC genomics, 25 (1) p. 888. Peer-reviewed.

[DOI][Pmid][serval:BIB_9E9B47FDEC73]

2023

From microbiome composition to functional engineering, one step at a time.

Burz S.D., Causevic S., Dal Co A., Dmitrijeva M., Engel P., Garrido-Sanz D., Greub G., Hapfelmeier S., Hardt W-D, Hatzimanikatis V. et al., 2023/12/20. Microbiology and molecular biology reviews, 87 (4) pp. e0006323. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_422DE1C48246]

Generation of disproportionate nuclear genotype proportions in Rhizophagus irregularis progeny causes allelic imbalance in gene transcription.

Robbins C., Cruz Corella J., Aletti C., Seiler R., Mateus I.D., Lee S.J., Masclaux F.G., Sanders I.R., 2023/07. The New phytologist, 239 (2) p. 806. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_64A1BA52357F]

Trait evolution during a rapid global weed invasion despite little genetic differentiation.

Irimia R.E., Montesinos D., Chaturvedi A., Sanders I., Hierro J.L., Sotes G., Cavieres L.A., Eren Ö., Lortie C.J., French K. et al., 2023/05. Evolutionary applications, 16 (5) pp. 997-1011. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_E4E121E57659]

2022

Integrating plant and fungal quantitative genetics to improve the ecological and agricultural applications of mycorrhizal symbioses.

McGale E., Sanders I.R., 2022/12. Current opinion in microbiology, 70 p. 102205. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_9FDA50C5D370]

Decreasing relatedness among mycorrhizal fungi in a shared plant network increases fungal network size but not plant benefit.

van 't Padje A., Klein M., Caldas V., Oyarte Galvez L., Broersma C., Hoebe N., Sanders I.R., Shimizu T., Kiers E.T., 2022/02. Ecology letters, 25 (2) pp. 509-520. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_1FEB175AF641]

Reciprocal recombination genomic signatures in the symbiotic arbuscular mycorrhizal fungi Rhizophagus irregularis.

Mateus I.D., Auxier B., Ndiaye MMS, Cruz J., Lee S.J., Sanders I.R., 2022. PloS one, 17 (7) pp. e0270481. Peer-reviewed.

[DOI][Pmid][serval:BIB_8BA6E0DCCCBC]

2021

Co-existence of AMF with different putative MAT-alleles induces genes homologous to those involved in mating in other fungi: a reply to Malar et al.

Mateus I.D., Lee S.J., Sanders I.R., 2021/08. The ISME journal, 15 (8) pp. 2180-2182. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_5231B08CC3BC]

The methylome of the model arbuscular mycorrhizal fungus, Rhizophagus irregularis, shares characteristics with early diverging fungi and Dikarya.

Chaturvedi A., Cruz Corella J., Robbins C., Loha A., Menin L., Gasilova N., Masclaux F.G., Lee S.J., Sanders I.R., 2021/07/22. Communications biology, 4 (1) p. 901. Peer-reviewed.

[URN][DOI][Pmid][serval:BIB_6C8F805CA8E4]

Generation of disproportionate nuclear genotype proportions in Rhizophagus irregularis progeny causes allelic imbalance in gene transcription

Robbins Chanz, Cruz Joaquim, Aletti Consolée, Seiler Réjane, Mateus Gonzalez Ivan, Lee Soon-Jae, Masclaux Frédéric, Sanders Ian R., 2021/06/04. New Phytologist, 231 (5) pp. 1984-2001. Peer-reviewed.

[URN][DOI][serval:BIB_89CA6638ACBE]

Hierarchical spatial sampling reveals factors influencing arbuscular mycorrhizal fungus diversity in Côte d'Ivoire cocoa plantations.

Rincón C., Droh G., Villard L., Masclaux F.G., N'guetta A., Zeze A., Sanders I.R., 2021/05. Mycorrhiza, 31 (3) pp. 289-300. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_03486670277A]

The Phosphate Inhibition Paradigm: Host and Fungal Genotypes Determine Arbuscular Mycorrhizal Fungal Colonization and Responsiveness to Inoculation in Cassava With Increasing Phosphorus Supply.

Peña Venegas R.A., Lee S.J., Thuita M., Mlay D.P., Masso C., Vanlauwe B., Rodriguez A., Sanders I.R., 2021. Frontiers in plant science, 12 p. 693037. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_80129D390A4E]

2020

Greater topoclimatic control of above- versus below-ground communities.

Mod H.K., Scherrer D., Di Cola V., Broennimann O., Blandenier Q., Breiner F.T., Buri A., Goudet J., Guex N., Lara E. et al., 2020/12. Global change biology, 26 (12) pp. 6715-6728. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_858D58CF6336]

Coexistence of genetically different Rhizophagus irregularis isolates induces genes involved in a putative fungal mating response.

Mateus I.D., Rojas E.C., Savary R., Dupuis C., Masclaux F.G., Aletti C., Sanders I.R., 2020/10. The ISME journal, 14 (10) pp. 2381-2394. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_3834AB857753]

Genetic variation and evolutionary history of a mycorrhizal fungus regulate the currency of exchange in symbiosis with the food security crop cassava.

Savary R., Dupuis C., Masclaux F.G., Mateus I.D., Rojas E.C., Sanders I.R., 2020/06. The ISME journal, 14 (6) pp. 1333-1344. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_23CD0AF44A0E]

Genetically different isolates of the arbuscular mycorrhizal fungus Rhizophagus irregularis induce differential responses to stress in cassava

Peña Ricardo, Robbins Chanz, Corella Joaquim Cruz, Thuita Moses, Masso Cargele, Vanlauwe Bernard, Signarbieux Constant, Rodriguez Alia, Sanders Ian R., 2020. Frontiers in Plant Science, 11 p. 1904. Peer-reviewed.

[URN][DOI][Pmid][serval:BIB_3149951DAFAA]

2019

Dual RNA-seq reveals large-scale non-conserved genotype × genotype-specific genetic reprograming and molecular crosstalk in the mycorrhizal symbiosis.

Mateus I.D., Masclaux F.G., Aletti C., Rojas E.C., Savary R., Dupuis C., Sanders I.R., 2019/05. The ISME Journal, 13 (5) pp. 1226-1238. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_B6B179C933DF]

Effect of co-application of phosphorus fertilizer and in vitro-produced mycorrhizal fungal inoculants on yield and leaf nutrient concentration of cassava.

Aliyu I.A., Yusuf A.A., Uyovbisere E.O., Masso C., Sanders I.R., 2019. PloS one, 14 (6) pp. e0218969. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_67105DB1B185]

Investigating unexplained genetic variation and its expression in the arbuscular mycorrhizal fungus Rhizophagus irregularis: A comparison of whole genome and RAD sequencing data.

Masclaux F.G., Wyss T., Pagni M., Rosikiewicz P., Sanders I.R., 2019. PloS one, 14 (12) pp. e0226497. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_C5D5E35029AD]

2018

Sex, plasticity, and biologically significant variation in one Glomeromycotina species.

Sanders I.R., 2018/12. The New phytologist, 220 (4) pp. 968-970. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_75BEC88B5928]

A population genomics approach shows widespread geographical distribution of cryptic genomic forms of the symbiotic fungus Rhizophagus irregularis.

Savary R., Masclaux F.G., Wyss T., Droh G., Cruz Corella J., Machado A.P., Morton J.B., Sanders I.R., 2018. ISME Journal, 12 (1) pp. 17-30. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_EC41D02ADC3C]

Variation in allele frequencies at the bg112 locus reveals unequal inheritance of nuclei in a dikaryotic isolate of the fungus Rhizophagus irregularis.

Masclaux F.G., Wyss T., Mateus-Gonzalez I.D., Aletti C., Sanders I.R., 2018. Mycorrhiza, 28 (4) pp. 369-377. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_A47CB11BB965]

Within-species phylogenetic relatedness of a common mycorrhizal fungus affects evenness in plant communities through effects on dominant species.

Savary R., Villard L., Sanders I.R., 2018. PloS one, 13 (11) pp. e0198537. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_FF25971E259C]

2017

Cost-efficient production of in vitro Rhizophagus irregularis.

Rosikiewicz P., Bonvin J., Sanders I.R., 2017/07. Mycorrhiza, 27 (5) pp. 477-486. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_2DD31DD6050B]

2016

Aligning molecular studies of mycorrhizal fungal diversity with ecologically important levels of diversity in ecosystems.

Sanders I.R., Rodriguez A., 2016. The ISME Journal, 10 (12) pp. 2780-2786. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_7666ECAD2D8A]

Bacteria with Phosphate Solubilizing Capacity Alter Mycorrhizal Fungal Growth Both Inside and Outside the Root and in the Presence of Native Microbial Communities.

Ordoñez Y.M., Fernandez B.R., Lara L.S., Rodriguez A., Uribe-Vélez D., Sanders I.R., 2016. PloS one, 11 (6) pp. e0154438. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_BCF59F10619E]

Colombian-Swiss Research to Help Feed the Planet: From Green Revolution to Microbial Revolution

Rodriguez A., Sanders I., 2016. Acta Biologica Colombiana, 21 pp. 297-303. Peer-reviewed.

[DOI][WoS][serval:BIB_78A0CD72F767]

Population genomics reveals that within-fungus polymorphism is common and maintained in populations of the mycorrhizal fungus Rhizophagus irregularis.

Wyss T., Masclaux F.G., Rosikiewicz P., Pagni M., Sanders I.R., 2016. The ISME Journal, 10 (10) pp. 2514-2526. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_39388D2C3198]

2015

Mycorrhizal ecology and evolution: the past, the present, and the future.

van der Heijden M.G., Martin F.M., Selosse M.A., Sanders I.R., 2015. New Phytologist, 205 (4) pp. 1406-1423. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_7C75A65EE1FB]

The role of community and population ecology in applying mycorrhizal fungi for improved food security.

Rodriguez A., Sanders I.R., 2015. ISME Journal, 9 (5) pp. 1053-1061.

[URN][DOI][WoS][Pmid][serval:BIB_29A5BB29D08A]

2014

Rapid genotypic change and plasticity in arbuscular mycorrhizal fungi is caused by a host shift and enhanced by segregation.

Angelard C., Tanner C.J., Fontanillas P., Niculita-Hirzel Hélène, Masclaux F., Sanders I.R., 2014. ISME Journal, 8 (2) pp. 284-294. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_D0F3F69BC875]

Soil fungal communities of grasslands are environmentally structured at a regional scale in the Alps.

Pellissier L., Niculita-Hirzel Hélène, Dubuis A., Pagni M., Guex N., Ndiribe C., Salamin N., Xenarios I., Goudet J., Sanders I.R. et al., 2014. Molecular Ecology, 23 (17) pp. 4274-4290. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_32F6B5977780]

2013

Consequences of Segregation and Genetic Exchange on Adaptability in Arbuscular Mycorrhizal Fungi (AMF)

Angelard C., Sanders I.R., 2013. pp. 231-243 dans Pontarotti P. (eds.) Evolutionary Biology: Exobiology and Evolutionary Mechanisms, Springer.

[serval:BIB_EEACA92C8E8C]

Density-based hierarchical clustering of pyro-sequences on a large scale--the case of fungal ITS1.

Pagni M., Niculita-Hirzel Hélène, Pellissier L., Dubuis A., Xenarios I., Guisan A., Sanders I.R., Goudet J., Guex N., 2013. Bioinformatics, 29 (10) pp. 1268-1274. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_AA89A39C702D]

Genome of an arbuscular mycorrhizal fungus provides insight into the oldest plant symbiosis.

Tisserant E., Malbreil M., Kuo A., Kohler A., Symeonidi A., Balestrini R., Charron P., Duensing N., Frei Dit Frey N., Gianinazzi-Pearson V. et al., 2013. Proceedings of the National Academy of Sciences of the United States of America, 110 (50) pp. 20117-20122.

[DOI][WoS][Pmid][serval:BIB_01819FE795A8]

Identity and combinations of arbuscular mycorrhizal fungal isolates influence plant resistance and insect preference

Roger A., Gétaz M., Rasmann S., Sanders I.R., 2013. Ecological Entomology, 38 (4) pp. 330-338. Peer-reviewed.

[DOI][WoS][serval:BIB_D24E6AA18811]

Plant species distributions along environmental gradients: do belowground interactions with fungi matter?

Pellissier L., Pinto-Figueroa E., Niculita-Hirzel Hélène, Moora M., Villard L., Goudet J., Guex N., Pagni M., Xenarios I., Sanders I. et al., 2013. Frontiers In Plant Science, 4 (500) p. 500. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_A4BFB3D30FC4]

Predicting community and ecosystem outcomes of mycorrhizal responses to global change.

Johnson N.C., Angelard C., Sanders I.R., Kiers E.T., 2013. Ecology Letters, 16 Suppl 1 pp. 140-153. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_17B64DF27DEE]

Relatedness among arbuscular mycorrhizal fungi drives plant growth and intraspecific fungal coexistence.

Roger A., Colard A., Angelard C., Sanders I.R., 2013. ISME Journal, 7 (11) pp. 2137-2146. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_52B2604B9D8B]

The In Vitro Mass-Produced Model Mycorrhizal Fungus, Rhizophagus irregularis, Significantly Increases Yields of the Globally Important Food Security Crop Cassava.

Ceballos I., Ruiz M., Fernández C., Peña R., Rodríguez A., Sanders I.R., 2013. PLoS One, 8 (8) pp. e70633. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_75B0762902D1]

2012

Significant genetic and phenotypic changes arising from clonal growth of a single spore of an arbuscular mycorrhizal fungus over multiple generations.

Ehinger M.O., Croll D., Koch A.M., Sanders I.R., 2012. New Phytologist, 196 (3) pp. 853-861. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_4328B3EA276B]

The transcriptome of the arbuscular mycorrhizal fungus Glomus intraradices (DAOM 197198) reveals functional tradeoffs in an obligate symbiont.

Tisserant E., Kohler A., Dozolme-Seddas P., Balestrini R., Benabdellah K., Colard A., Croll D., Da Silva C., Gomez S.K., Koul R. et al., 2012. New Phytologist, 193 (3) pp. 755-769.

[DOI][WoS][Pmid][serval:BIB_58F19C5BC676]

2011

Fungal sex: meiosis machinery in ancient symbiotic fungi.

Sanders I.R., 2011/11/08. Current biology, 21 (21) pp. R896-7. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_493500340CF0]

Mycorrhizal symbioses: how to be seen as a good fungus.

Sanders I.R., 2011/07/26. Current biology, 21 (14) pp. R550-2. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_769955738C92]

Effect of segregation and genetic exchange on arbuscular mycorrhizal fungi in colonization of roots.

Angelard C., Sanders I.R., 2011. New Phytologist, 189 (3) pp. 652-657. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_6AAE1C9F70E9]

Genetic exchange in an arbuscular mycorrhizal fungus results in increased rice growth and altered mycorrhiza-specific gene transcription.

Colard A., Angelard C., Sanders I.R., 2011. Applied and Environmental Microbiology, 77 (18) pp. 6510-6515. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_9A89A63BC2A7]

2010

Segregation in a mycorrhizal fungus alters rice growth and symbiosis-specific gene transcription.

Angelard C., Colard A., Niculita-Hirzel H., Croll D., Sanders I.R., 2010/07/13. Current biology, 20 (13) pp. 1216-1221. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_216E232AD621]

'Designer' mycorrhizas?: Using natural genetic variation in AM fungi to increase plant growth.

Sanders I.R., 2010. ISME Journal, 4 (9) pp. 1081-1083. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_B1EED0391529]

Arbuscular mycorrhiza: the challenge to understand the genetics of the fungal partner.

Sanders I.R., Croll D., 2010. Annual Review of Genetics, 44 pp. 271-292. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_C8CDD7877214]

Characterisation of microbial communities colonising the hyphal surfaces of arbuscular mycorrhizal fungi.

Scheublin T.R., Sanders I.R., Keel C., van der Meer J.R., 2010. ISME Journal, 4 (6) pp. 752-763.

[DOI][WoS][Pmid][serval:BIB_0DF7E6CB4E97]

The role of mycorrhizas in more sustainable oil palm cultivation

Phosri C., Rodriguez A., Sanders I.R., Jeffries P., 2010. Agriculture Ecosystems and Environment, 135 (3) pp. 187-193. Peer-reviewed.

[DOI][WoS][serval:BIB_74F6CD786915]

2009

Changes in arbuscular mycorrhizal fungal phenotypes and genotypes in response to plant species identity and phosphorus concentration.

Ehinger M., Koch A.M., Sanders I.R., 2009. New Phytologist, 184 (2) pp. 412-423. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_C28D93C83036]

High-level molecular diversity of copper-zinc superoxide dismutase genes among and within species of arbuscular Mycorrhizal fungi.

Corradi N., Ruffner B., Croll D., Colard A., Horák A., Sanders I.R., 2009. Applied and Environmental Microbiology, 75 (7) pp. 1970-1978. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_89FB34773479]

Nonself vegetative fusion and genetic exchange in the arbuscular mycorrhizal fungus Glomus intraradices.

Croll D., Giovannetti M., Koch A.M., Sbrana C., Ehinger M., Lammers P.J., Sanders I.R., 2009. New Phytologist, 181 (4) pp. 924-937. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_401529471CE0]

Recombination in Glomus intraradices, a supposed ancient asexual arbuscular mycorrhizal fungus

Croll D., Sanders I. R., 2009. BMC Evolutionary Biology, 9 (13) pp. 1-11. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_CB2458759F7C]

2008

Gene organization of the mating type regions in the ectomycorrhizal fungus Laccaria bicolor reveals distinct evolution between the two mating type loci

Niculita-Hirzel Hélène, Labbé J., Kohler A., le Tacon F., Martin F., Sanders I.R., Kües U., 2008. New Phytologist, 180 (2) pp. 329-342.

[DOI][WoS][Pmid][serval:BIB_5E4DDE95D17C]

Genetic diversity and host plant preferences revealed by simple sequence repeat and mitochondrial markers in a population of the arbuscular mycorrhizal fungus Glomus intraradices.

Croll D., Wille L., Gamper H.A., Mathimaran N., Lammers P.J., Corradi N., Sanders I.R., 2008. New Phytologist, 178 (3) pp. 672-687.

[URN][DOI][WoS][Pmid][serval:BIB_48A796FD4F50]

Multilocus genotyping of arbuscular mycorrhizal fungi and marker suitability for population genetics.

Croll D., Corradi N., Gamper H.A., Sanders I.R., 2008. New Phytologist, 180 (3) pp. 564-568.

[URN][DOI][WoS][Pmid][serval:BIB_2D1AC6BEAA76]

The genome of Laccaria bicolor provides insights into mycorrhizal symbiosis

Martin F., Aerts A., Ahrén D., Brun A., Danchin E.G., Duchaussoy F., Gibon J., Kohler A., Lindquist E., Pereda V. et al., 2008. Nature, 452 (7183) pp. 88-92. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_0F6C19C15FE8]

The long hard road to a completed Glomus intraradices genome.

Martin F., Gianinazzi-Pearson V., Hijri M., Lammers P., Requena N., Sanders I.R., Shachar-Hill Y., Shapiro H., Tuskan G.A., Young J.P., 2008. New Phytologist, 180 (4) pp. 747-750. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_A38381537E27]

2007

Gene copy number polymorphisms in an arbuscular mycorrhizal fungal population.

Corradi N., Croll D., Colard A., Kuhn G., Ehinger M., Sanders I.R., 2007. Applied and Environmental Microbiology, 73 (1) pp. 366-369.

[URN][DOI][WoS][Pmid][serval:BIB_42266B6B9389]

Molecular characterization of chromosome termini of the arbuscular mycorrhizal fungus Glomus intraradices (Glomeromycota).

Hijri M., Niculita Hélène, Sanders I.R., 2007. Fungal Genetics and Biology, 44 (12) pp. 1380-1386.

[DOI][WoS][Pmid][serval:BIB_15D9AF0E5950]

2006

Evolution of the P-type II ATPase gene family in the fungi and presence of structural genomic changes among isolates of Glomus intraradices.

Corradi N., Sanders I.R., 2006. BMC Evolutionary Biology, 6 p. 21.

[URN][DOI][WoS][Pmid][serval:BIB_C93183DF937D]

Genetic variability in a population of arbuscular mycorrhizal fungi causes variation in plant growth.

Koch A.M., Croll D., Sanders I.R., 2006. Ecology Letters, 9 (2) pp. 103-110.

[URN][DOI][WoS][Pmid][serval:BIB_416503727AFB]

Rapid disease emergence through horizontal gene transfer between eukaryotes.

Sanders I.R., 2006. Trends in Ecology and Evolution, 21 (12) pp. 656-658.

[DOI][WoS][Pmid][serval:BIB_A8CB4BCF2CE6]

The mycorrhizal contribution to plant productivity, plant nutrition and soil structure in experimental grassland.

van der Heijden M.G., Streitwolf-Engel R., Riedl R., Siegrist S., Neudecker A., Ineichen K., Boller T., Wiemken A., Sanders I.R., 2006. New Phytologist, 172 (4) pp. 739-752.

[DOI][WoS][Pmid][serval:BIB_933C0ED4AE5F]

2005

Low gene copy number shows that arbuscular mycorrhizal fungi inherit genetically different nuclei.

Hijri M., Sanders I.R., 2005/01/13. Nature, 433 (7022) pp. 160-163. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_63C16060BE8D]

Microbiology: conspirators in blight.

Sanders I.R., 2005. Nature, 437 (7060) pp. 823-824.

[DOI][WoS][Pmid][serval:BIB_14D6B69D3B09]

2004

Arbuscular mycorrhizal fungi (Glomeromycota) harbour ancient fungal tubulin genes that resemble those of the chytrids (Chytridiomycota).

Corradi N., Hijri M., Fumagalli L., Sanders I.R., 2004. Fungal Genetics and Biology, 41 (11) pp. 1037-1045. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_459678F4DD50]

Does the generalist parasitic plant Cuscuta campestris selectively forage in heterogeneous plant communities?

Koch A.M., Binder C., Sanders I.R., 2004. New Phytologist, 162 (1) pp. 147-155.

[URN][DOI][WoS][serval:BIB_69F8BC27F11F]

High genetic variability and low local diversity in a population of arbuscular mycorrhizal fungi.

Koch A.M., Kuhn G., Fontanillas P., Fumagalli L., Goudet J., Sanders I.R., 2004. Proceedings of the National Academy of Sciences of the United States of America, 101 (8) pp. 2369-2374. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_68F45AA1F8AA]

Intraspecific genetic variation in arbuscular mycorrhizal fungi and its consequences for molecular biology, ecology, and development of inoculum

Sanders I.R., 2004. Canadian Journal of Botany, 82 (8) pp. 1057-1062. Peer-reviewed.

[DOI][WoS][serval:BIB_9A7B4B1F6A52]

Monophyly of beta-tubulin and H+-ATPase gene variants in Glomus intraradices: consequences for molecular evolutionary studies of AM fungal genes.

Corradi N., Kuhn G., Sanders I.R., 2004. Fungal Genetics and Biology, 41 (2) pp. 262-273.

[URN][DOI][WoS][Pmid][serval:BIB_A39131C8D0E2]

Plant and arbuscular mycorrhizal fungal diversity - are we looking at the relevant levels of diversity and are we using the right techniques?

Sanders I R., 2004. New Phytologist, 164 (3) pp. 415-418. Peer-reviewed.

[URN][DOI][WoS][serval:BIB_6CBA6B125F34]

The arbuscular mycorrhizal fungus Glomus intraradices is haploid and has a small genome size in the lower limit of eukaryotes.

Hijri M., Sanders I.R., 2004. Fungal Genetics and Biology, 41 (2) pp. 253-261.

[DOI][WoS][Pmid][serval:BIB_3A8E9A0F31D3]

2003

Arbuscular mycorrhizal fungi: genetics of multigenomic, clonal networks and its ecological consequences

Sanders I.R., Koch A., Kuhn G., 2003. Biological Journal of the Linnean Society, 79 (1) pp. 59-60. Peer-reviewed.

[URN][DOI][WoS][serval:BIB_90AD67357920]

Different arbuscular mycorrhizal fungi alter coexistence and resource distribution between co-occurring plants

van der Heijden M.G.A., Wiemken A., Sanders I.R., 2003. New Phytologist, 157 (3) pp. 569-578. Peer-reviewed.

[DOI][WoS][serval:BIB_457BA2CB1DCB]

Evidence of recombination in putative ancient asexuals.

Gandolfi A., Sanders I.R., Rossi V., Menozzi P., 2003. Molecular Biology and Evolution, 20 (5) pp. 754-761.

[DOI][WoS][Pmid][serval:BIB_F812C249EEC6]

Preference, specificity and cheating in the arbuscular mycorrhizal symbiosis.

Sanders I.R., 2003. Trends in Plant Science, 8 (4) pp. 143-145.

[DOI][WoS][Pmid][serval:BIB_535AFA778667]

Soil tillage affects the community structure of mycorrhizal fungi in maize roots

Jansa J., Mozafar A., Kuhn G., Anken T., Ruh R., Sanders I. R., Frossard E., 2003. Ecological Applications, 13 (4) pp. 1164-1176. Peer-reviewed.

[DOI][WoS][serval:BIB_BDC757774227]

2002

Diversity and structure of AMF communities as affected by tillage in a temperate soil.

Jansa J., Mozafar A., Anken T., Ruh R., Sanders I.R., Frossard E., 2002. Mycorrhiza, 12 (5) pp. 225-234.

[DOI][WoS][Pmid][serval:BIB_C91A45989029]

Ecology and evolution of multigenomic arbuscular mycorrhizal fungi.

Sanders I.R., 2002. American Naturalist, 160 (Suppl. 4) pp. S128-S141.

[DOI][WoS][Pmid][serval:BIB_76952220050C]

Identification and isolation of two ascomycete fungi from spores of the arbuscular mycorrhizal fungus Scutellospora castanea.

Hijri M., Redecker D., Petetot J.A., Voigt K., Wöstemeyer J., Sanders I.R., 2002. Applied and Environmental Microbiology, 68 (9) pp. 4567-4573.

[URN][DOI][WoS][Pmid][serval:BIB_9947DE7AA618]

Mycorrhizal ecology: synthesis and perspectives

van der Heijden M.G.A., Sanders I.R., 2002. pp. 441-456 dans van der Heijden M.G.A., Sanders I.R. (eds.) Mycorrhizal ecology chap. 17, Springer-Verlag.

[serval:BIB_0A75DB931B0A]

Specificity in the mycorrhizal symbiosis

Sanders I.R., 2002. pp. 415-437 dans van der Heijden M.G.A., Sanders I.R. (eds.) Mycorrhizal ecology chap. 16, Springer-Verlag.

[serval:BIB_3BE37887CED8]

2001

Evidence for the evolution of multiple genomes in arbuscular mycorrhizal fungi.

Kuhn G., Hijri M., Sanders I.R., 2001. Nature, 414 (6865) pp. 745-748.

[URN][DOI][WoS][Pmid][serval:BIB_762C755C39C0]

The ecological significance of arbuscular mycorrhizal fungal effects on clonal reproduction in plants

Streitwolf-Engel R., van der Heijden M.G.A., Wiemken A., Sanders I.R., 2001. Ecology, 82 (10) pp. 2846-2859.

[URN][DOI][WoS][serval:BIB_B42C1CB57C2C]

2000

Arbuscular mycorrhizal fungi influence life history traits of a lepidopteran herbivore

Goverde M., van der Heijden M.G.A., Wiemken A., Sanders I R., Erhardt A., 2000. Oecologia, 125 (3) pp. 362-369.

[DOI][WoS][serval:BIB_8F49002A5012]

1999

"Sampling effect", a problem in biodiversity manipulation? A reply to David A. Wardle

van der Heijden M.G.A., Klironomos J.N., Ursic M., Moutoglis P., Streitwolf-Engel R., Boller T., Wiemken A., Sanders I. R., 1999. Oikos, 87 (2) pp. 408-410.

[DOI][WoS][serval:BIB_BBD2FF028C5B]

Evolutionary genetics. No sex please, we're fungi.

Sanders I.R., 1999. Nature, 399 (6738) pp. 737-739.

[DOI][Pmid][serval:BIB_95A191C07EF0]

Interaction between the endophytic fungus Epichloe bromicola and the grass bromus erectus: effects of endophyte infection, fungal concentration and environment on grass growth and flowering

Groppe K., Steinger T., Sanders I., Schmid B., Wiemken A., Boller T., 1999. Molecular Ecology, 8 (11) pp. 1827-1835.

[DOI][WoS][Pmid][serval:BIB_BE105E957C83]

Phylogenetic analysis of a dataset of fungal 5.8S rDNA sequences shows that highly divergent copies of internal transcribed spacers reported from Scutellospora castanea are of ascomycete origin.

Redecker D., Hijri M., Dulieu H., Sanders I.R., 1999. Fungal Genetics and Biology, 28 (3) pp. 238-244.

[DOI][WoS][Pmid][serval:BIB_96422D5EBC0E]

1998

Different arbuscular mycorrhizal fungal species are potential determinants of plant community structure

van der Heijden M G A., Boller T., Wiemken A., Sanders I.R., 1998. Ecology, 79 (6) pp. 2082-2091.

[DOI][WoS][serval:BIB_31834F1426D3]

Diversity and structure in natural communities: the role of the mycorrhizal symbiosis

Sanders I.R., Koide R.T., Shumway D.L., 1998. pp. 571-593 dans Varma A., Hock B. (eds.) Mycorrhiza: structure, function, molecular biology and biotechnology, Springer-Verlag.

[serval:BIB_58CD23958540]

Increased allocation to external hyphae of arbuscular mycorrhizal fungi under CO2 enrichment

Sanders I. R., Streitwolf-Engel R., van der Heijden M. G. A., Boller T., Wiemken A., 1998. Oecologia, 117 (4) pp. 496-503.

[WoS][serval:BIB_CDBF914B8595]

Mycorrhizal fungal diversity determines plant biodiversity, ecosystem variability and productivity

van der Heijden M.G.A., Klironomos J.N., Ursic M., Moutoglis P., Streitwolf-Engel R., Boller T., Wiemken A., Sanders I.R., 1998. Nature, 396 (6706) pp. 69-72.

[DOI][WoS][serval:BIB_2B45C4CA31A8]

1997

Clonal growth traits of two Prunella species are determined by co-occurring arbuscular mycorrhizal fungi from a calcareous grassland

Streitwolf-Engel R., Boller T., Wiemken A., Sanders I.R., 1997. Journal of Ecology, 85 (2) pp. 181-191.

[WoS][serval:BIB_4309368F7330]

1996

Plant-fungal interactions in a CO2-rich world

Sanders I.R., 1996. pp. 265-272 dans Körner C., Bazzaz F.A. (eds.) Carbon dioxide, populations, and communities chap. 17, Academic Press.

[serval:BIB_17247E9D45DF]

The genetic diversity of arbuscular mycorrhizal fungi in natural ecosystems: a key to understanding the ecology and functioning of the mycorrhizal symbiosis

Sanders I.R., Clapp J.P., Wiemken A., 1996. New Phytologist, 133 (1) pp. 123-134.

[WoS][serval:BIB_7267BE10D554]

1995

A microsatellite marker for studying the ecology and diversity of fungal endophytes (Epichloë spp.) in grasses.

Groppe K., Sanders I., Wiemken A., Boller T., 1995. Applied and Environmental Microbiology, 61 (11) pp. 3943-3949.

[WoS][Pmid][serval:BIB_214E7BB871CA]

Community level interactions between plants and vesicular-arbuscular mycorrhizal fungi

Sanders I.R., Koide R.T., Shumway D L., 1995. pp. 607-625 dans Varma A., Hock B. (eds.) Mycorrhiza: structure, function, molecular biology and biotechnology, Springer-Verlag.

[serval:BIB_D52EF10B6A43]

Grassland ecology

Sanders I.R., 1995. pp. 225-235 dans Nierenberg W.A. (eds.) Encyclopedia of environmental biology, Academic Press.

[serval:BIB_1F80D73E4810]

Identification of ribosomal DNA polymorphisms among and within spores of the Glomales: application to studies on the genetic diversity of arbuscular mycorrhizal fungal communities

Sanders I.R., Alt M., Groppe K., Boller T., Wiemken A., 1995. New Phytologist, 130 (3) pp. 419-427.

[DOI][WoS][serval:BIB_381CDFB81FCA]

Symbiosis and the biodiversity of natural ecosystems

Sanders I.R., Boller T., Wiemken A., 1995. Gaia, 4 (4) pp. 227-233.

[serval:BIB_6F6C8937997D]

1994

Biodiversity in Switzerland

Arnone J.A., Blot M., Leadley P., Matthies D., Sanders I., 1994. Nature, 370 (6490) pp. 500-500. Peer-reviewed.

[DOI][WoS][serval:BIB_7267FCE8C51D]

Nutrient acquisition and community structure in cooccurring mycotrophic and non-mycotrophic old-field annuals

Sanders I.R., Koide R.T., 1994. Functional Ecology, 8 (1) pp. 77-84.

[DOI][WoS][serval:BIB_075E09A58CBE]

1993

Mycorrhizal stimulation of plant parasitism

Sanders I.R., Koide R.T., Shumway D.L., 1993. Canadian Journal of Botany, 71 (9) pp. 1143-1146.

[serval:BIB_C38DA6D4AC76]

Temporal infectivity and specificity of vesicular-arbuscular mycorrhizas in co-existing grassland species

Sanders I.R., 1993. Oecologia, 93 (3) pp. 349-355.

[DOI][WoS][serval:BIB_2D447FA6E55C]

1992

Detection of specific antigens in the vesicular-arbuscular mycorrhizal fungi Gigaspora margarita and Acaulospora laevis using polyclonal antibodies to soluble spore fractions

Sanders I.R., Ravolanirina F., Gianinazzipearson V., Gianinazzi S., Lemoine M.C., 1992. Mycological Research, 96 (6) pp. 477-480.

[DOI][WoS][serval:BIB_A481367892C0]

Evidence for differential responses between host fungus combinations of vesicular arbuscular mycorrhizas from a grassland

Sanders I.R., Fitter A H., 1992. Mycological Research, 96 (6) pp. 415-419.

[WoS][serval:BIB_AD7853AF7547]

Interactions with the soil fauna

Fitter A.H., Sanders I.R., 1992. pp. 333-354 dans Allen M.F. (eds.) Mycorrhizal functioning: an integrative plant-fungal process, Chapman & Hall.

[serval:BIB_20CCA1CA1E50]

The ecology and functioning of vesicular arbuscular mycorrhizas in coexisting grassland species .1. Seasonal patterns of mycorrhizal occurrence and morphology

Sanders I.R., Fitter A.H., 1992. New Phytologist, 120 (4) pp. 517-524.

[DOI][WoS][serval:BIB_AA8449FCAC7A]

The ecology and functioning of vesicular-arbuscular mycorrhizas in co-existing grassland species. 2. Nutrient uptake and growth of vesicular-arbuscular mycorrhizal plants in a semi-natural grassland

Sanders I.R., Fitter A.H., 1992. New Phytologist, 120 (4) pp. 525-533.

[DOI][WoS][serval:BIB_1074EE80CFA9]

1990

Seasonal patterns of vesicular-arbuscular mycorrhizal occurrence in grasslands

Sanders I.R., 1990. Symbiosis, 9 (1-3) pp. 315-320.

[WoS][serval:BIB_B7628E711D9D]

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