about
Ericaceous plant-fungus network in a harsh alpine-subalpine environmentTwo new computational methods for universal DNA barcoding: a benchmark using barcode sequences of bacteria, archaea, animals, fungi, and land plantsNatural selection drives the fine-scale divergence of a coevolutionary arms race involving a long-mouthed weevil and its obligate host plant"Candidatus Curculioniphilus buchneri," a novel clade of bacterial endocellular symbionts from weevils of the genus Curculio.Climatic gradients of arms race coevolution.High-coverage ITS primers for the DNA-based identification of ascomycetes and basidiomycetes in environmental samples.Assembly of complex plant-fungus networks.Diet disparity among sympatric herbivorous cichlids in the same ecomorphs in Lake Tanganyika: amplicon pyrosequences on algal farms and stomach contentsSharing of diverse mycorrhizal and root-endophytic fungi among plant species in an oak-dominated cool-temperate forest.Spatial segregation and aggregation of ectomycorrhizal and root-endophytic fungi in the seedlings of two Quercus species.Contrasting diversity and host association of ectomycorrhizal basidiomycetes versus root-associated ascomycetes in a dipterocarp rainforest.Adaptive divergence of scaling relationships mediates the arms race between a weevil and its host plant.Networks Depicting the Fine-Scale Co-Occurrences of Fungi in Soil Horizons.Below-ground plant-fungus network topology is not congruent with above-ground plant-animal network topologyConvergence and contrast in the community structure of Bacteria, Fungi and Archaea along a tropical elevation-climate gradient.Eukaryotic diversity in late Pleistocene marine sediments around a shallow methane hydrate deposit in the Japan Sea.Network modules and hubs in plant-root fungal biomesHost shifts enhance diversification of ectomycorrhizal fungi: diversification rate analysis of the ectomycorrhizal fungal genera Strobilomyces and Afroboletus with an 80-gene phylogeny.Diversity and spatial structure of belowground plant-fungal symbiosis in a mixed subtropical forest of ectomycorrhizal and arbuscular mycorrhizal plants.Community composition of root-associated fungi in a Quercus-dominated temperate forest: "codominance" of mycorrhizal and root-endophytic fungi.How are plant and fungal communities linked to each other in belowground ecosystems? A massively parallel pyrosequencing analysis of the association specificity of root-associated fungi and their host plants.Phylogeography and the geographic cline in the armament of a seed-predatory weevil: effects of historical events vs. natural selection from the host plant.Fine-scale local adaptation of weevil mouthpart length and camellia pericarp thickness: altitudinal gradient of a putative arms race.Arms race between weevil rostrum length and camellia pericarp thickness: Geographical cline and theory.DNA metabarcoding of spiders, insects, and springtails for exploring potential linkage between above- and below-ground food webs.Root-Associated Fungi Shared Between Arbuscular Mycorrhizal and Ectomycorrhizal Conifers in a Temperate Forest.Interpopulation variation in predator foraging behaviour promotes the evolutionary divergence of prey.Imbalance of predator and prey armament: geographic clines in phenotypic interface and natural selection.Bioactive polyamine production by a novel hybrid system comprising multiple indigenous gut bacterial strategies.Network hubs in root-associated fungal metacommunities.Composition and Diversity of Soil Fungi in Dipterocarpaceae-Dominated Seasonal Tropical Forests in Thailand.Core microbiomes for sustainable agroecosystemsBeneficial associations between Brassicaceae plants and fungal endophytes under nutrient-limiting conditions: evolutionary origins and host-symbiont molecular mechanismsStructural diversity across arbuscular mycorrhizal, ectomycorrhizal, and endophytic plant-fungus networksPriority effects can persist across floral generations in nectar microbial metacommunitiesDetection of the horizontal spatial structure of soil fungal communities in a natural forestLeaf-associated microbiomes of grafted tomato plantsConsortia of anti-nematode fungi and bacteria in the rhizosphere of soybean plants attacked by root-knot nematodesFactors Influencing Leaf- and Root-Associated Communities of Bacteria and Fungi Across 33 Plant Orders in a GrasslandSpecies-rich networks and eco-evolutionary synthesis at the metacommunity level
P50
Q24278931-ACB8F6A7-1224-4420-81FC-FFF8C7A73BFBQ27304453-EF44F112-B567-4AFC-8E1F-6C39B9B9A84AQ28749632-E03B6F41-54D6-4571-AD7F-8D55B3EFF184Q33559420-0FED0BA4-3421-464B-BDD6-FD5F31441DC1Q33878391-51B022EC-7BBA-4B71-8A28-66ABDAD18429Q34342482-2E489E74-24AC-4CFE-AFD3-DADFA2C01629Q34446533-EC47E861-5957-46F4-9710-CC9FD5879B3CQ34491890-E4713FA9-B910-44E0-B6B0-30AAF9FEB6E5Q35046506-6B6B5DD4-4DC3-48F8-8623-952C1293AA37Q35163689-9AA687D8-C38C-4B01-8B6D-436A1D89720DQ35463801-8CFFC75F-C50B-4719-988E-6778486E4DFAQ35701448-F807B0DC-7B8D-42C9-824A-4CD94D6A8427Q36197011-47DE9EEC-1294-457A-9DC1-8354D2EBEB2FQ36284793-73725BFC-9022-482A-AD34-E0F2EDA962DFQ36344495-6B0D8892-263E-4CD9-A97A-5986FDCA49EFQ36354372-FFEA6B53-4E76-403F-9822-9BB4280D5EEDQ36832044-A008F2C9-D63E-44F0-A1A0-AE64D07FAC9FQ39432761-3DFCCD13-6639-4DB2-B89A-B2FFD81152A1Q39527477-D367622C-9232-4EFE-8423-099ABF609AB7Q42148856-0FCB6737-2AC7-4D0C-8765-76E4E12D9DEFQ42957292-A823158E-235F-47B7-B8FF-7E367B7772FEQ43789297-CA11A5A0-4451-452F-8C30-78A2209F5ABFQ44679591-C36B158F-6348-49C4-A37B-7449ECAEE037Q44868428-A04E8079-07CC-403B-A016-100AF49EDC8FQ50192759-6A1640A1-2539-4415-882E-2848E83EB9B6Q51144120-62C926CD-9BD0-43F6-917A-02C82E8FBAA9Q51706658-177F1C93-BE99-4779-A289-35C7D4C8B619Q52664939-7F8AA36F-C633-4913-BD35-9145CCF14F31Q55397115-126A6A16-8001-4A52-A481-0B5E8DF2EF4FQ55499621-9A5C4B09-BEE5-4577-AD14-B8299D538624Q55519037-6CB9E2D4-CDA8-4191-ACD7-07ECCDAA7DE0Q56537156-3A34741E-4AF7-4B78-9A56-6794BBDC719DQ57171900-CBAF7997-7D03-4ED5-9126-238DABA13CE1Q59329735-E89AFF46-F50E-411F-88E3-54AEFC7C3E85Q59599820-E30D866E-A0BA-4BD8-9F0C-54BC3861666AQ59599829-3509A1E3-0CA1-4EBE-BD0C-2B986B91B673Q61797123-369A467C-4C99-41AF-BE5F-8C42B5621909Q64115423-BA92DE4F-5F21-4471-A695-D309E050E180Q64229340-B56E5179-8F01-4249-9A6B-CEC87EDE0366Q88785437-B2220A5A-1F67-4483-9610-F163E7B0D4C3
P50
description
researcher ORCID ID = 0000-0002-3362-3285
@en
wetenschapper
@nl
name
Hirokazu Toju
@ast
Hirokazu Toju
@en
Hirokazu Toju
@es
Hirokazu Toju
@nl
type
label
Hirokazu Toju
@ast
Hirokazu Toju
@en
Hirokazu Toju
@es
Hirokazu Toju
@nl
prefLabel
Hirokazu Toju
@ast
Hirokazu Toju
@en
Hirokazu Toju
@es
Hirokazu Toju
@nl
P106
P1153
10739894200
P31
P496
0000-0002-3362-3285