about
Spatial sorting drives morphological variation in the invasive bird, Acridotheris tristisEvidence of repeated and independent saltational evolution in a peculiar genus of sphinx moths (Proserpinus: Sphingidae)Ecological disequilibrium drives insect pest and pathogen accumulation in non-native treesIntroduced and invasive cactus species: a global reviewThe more the better? The role of polyploidy in facilitating plant invasionsFungal Planet description sheets: 400-468Relatedness defies biogeography: the tale of two island endemics (Acacia heterophyllaandA. koa)Burkholderia aspalathi sp. nov., isolated from root nodules of the South African legume Aspalathus abietina Thunb.Fungal Planet description sheets: 371-399.Super-genotype: global monoclonality defies the odds of nature.Evolutionary dynamics of tree invasions: complementing the unified framework for biological invasions.Is invasion success of Australian trees mediated by their native biogeography, phylogenetic history, or both?Introduction to the special issue: Tree invasions: towards a better understanding of their complex evolutionary dynamicsThe global distribution of bamboos: assessing correlates of introduction and invasion.Cultivation shapes genetic novelty in a globally important invader.Elucidating the native sources of an invasive tree species, Acacia pycnantha, reveals unexpected native range diversity and structureGenetic analysis shows low levels of hybridization between African wildcats (Felis silvestris lybica) and domestic cats (F. s. catus) in South Africa.Towards a transferable and cost-effective plant AFLP protocol.Increasing functional modularity with residence time in the co-distribution of native and introduced vascular plantsHuman usage in the native range may determine future genetic structure of an invasion: insights from Acacia pycnantha.Long-distance dispersal maximizes evolutionary potential during rapid geographic range expansion.Level of environmental threat posed by horticultural trade in Cactaceae.Fungal Planet description sheets: 469-557The structure of legume-rhizobium interaction networks and their response to tree invasions.Legume-rhizobium symbiotic promiscuity and effectiveness do not affect plant invasiveness.Isolation and characterization of polymorphic microsatellite markers from the velvet tree, Miconia calvescens DC. (Melastomataceae).Co-introduction vs ecological fitting as pathways to the establishment of effective mutualisms during biological invasions.Australian acacias as invasive species: lessons to be learnt from regions with long planting historiesThe Functional Potential of the Rhizospheric Microbiome of an Invasive Tree Species, Acacia dealbataFrom the Neotropics to the Namib: evidence for rapid ecological divergence following extreme long-distance dispersalGhosts of glaciers and the disjunct distribution of a threatened California moth ( Euproserpinus euterpe )A taxonomic revision of seed harvester ants of the Tetramorium solidum group (Hymenoptera: Formicidae) in southern AfricaEmerging infectious diseases and biological invasions: a call for a One Health collaboration in science and managementThe first management of a marine invader in Africa: The importance of trials prior to setting long-term management goalsBotryosphaeriaceae associated with Acacia heterophylla (La Réunion) and Acacia koa (Hawaii)Insights from invasion ecology: Can consideration of eco-evolutionary experience promote benefits from root mutualisms in plant production?Ghosts from the past: even comprehensive sampling of the native range may not be enough to unravel the introduction history of invasive species-the case of Acacia dealbata invasions in South AfricaThe influence of landscape, climate and history on spatial genetic patterns in keystone plants (Azorella) on sub-Antarctic islandsRecent Anthropogenic Plant Extinctions Differ in Biodiversity Hotspots and Coldspots
P50
Q21134552-ECD40893-43EA-430C-A862-10977FF5D6E0Q21143899-458FCA11-1D99-46AB-BD96-A68B340A3A1AQ28079562-3BFCCE3C-133F-456B-A45C-FD9C95D01F54Q28650431-86161633-D3D3-4ECA-B864-9915EC701937Q28741287-02901D89-3F74-41E9-90B1-620D20519473Q28829958-B4474095-B180-4418-8E2B-2A08414687BDQ30052971-8ECD5700-D6CE-45A9-8C58-551A96B9BE33Q30771684-45FAD13E-B440-4840-835E-D96F862CBF8DQ31041030-01B5D7C9-56A1-432E-BC29-0D6CAAC3D4E4Q33289960-32E8A2C6-17F4-4FEC-BACB-DB187463874AQ33564771-4BE438B9-5070-42EA-884B-C2628A4B46C8Q33564799-14CA2FB4-90CD-4308-895F-5C306475DDC8Q33646293-CBDAC7E5-2814-4AFB-9161-10F3D79462AFQ33878553-7A9A648A-178F-4B9D-812B-3E5443201CBEQ34267828-04BA2BCF-ED83-48C4-AC85-9624A2422B4BQ34332437-F328DBC1-7CCF-4F2D-865E-B83AED2334B9Q34463448-D51B3092-FF52-46EA-B306-DDEF0FF9232AQ34684895-734B6220-8C7D-4403-8830-9AD0AB95E5B7Q34991448-DC15DAA2-CA35-43BA-ACDA-77AA2CCD00D7Q35003475-961FF084-B192-4795-8A86-7F466FF1F5D7Q35031856-7B8214EC-F42E-438C-A1B9-1866CCAD6B85Q36245983-4C83D087-E654-4DD4-847A-7E76D28C13DCQ36289117-442EB279-BEBB-4AD4-9002-5A725D5FA187Q37084184-9309EB4B-291C-4236-8390-7B8E4FF3D384Q38860374-66748600-C6CC-4FC0-861B-377DA71EDAB4Q39164595-BDB893E7-7C8A-477E-BD0E-ED36003DB6CCQ46326324-62BCDEC7-5FDE-41C9-B9A6-45C7215BCA8EQ56437310-5B19DD91-755A-4980-8428-A602AE24189DQ56926262-FA7DB250-E900-48E2-BCA8-D4070424D435Q56926312-7A2E1013-5502-42B2-BBBA-7F5651F1A768Q56926319-2D4324DA-4DF8-4061-92AF-E75A4E9CA813Q60050479-1CBCF1F3-918F-4152-8FBA-820E1AA77392Q62564503-3D3C7F06-114D-41E9-9071-CBA4E5E4A1D3Q90144862-364B93D6-162E-4A4F-8C92-E63FA331CFDCQ90807249-B03A2DA2-286A-49C0-B8AA-0246E85F1672Q91502390-F0687E71-7BAA-487C-BA7E-5F9B6270FBFDQ92002192-422FE30F-BBF6-4CCB-BA3D-C6FB4524ADE6Q92622521-F90E3E7C-DB27-48F0-8DCC-22ADEB72B10FQ92854962-8A83E268-B5C8-4F39-934F-614F01B6277C
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Johannes J Le Roux
@ast
Johannes J Le Roux
@en
Johannes J Le Roux
@es
Johannes J Le Roux
@nl
Johannes J Le Roux
@sl
type
label
Johannes J Le Roux
@ast
Johannes J Le Roux
@en
Johannes J Le Roux
@es
Johannes J Le Roux
@nl
Johannes J Le Roux
@sl
altLabel
Jacobus
@en
prefLabel
Johannes J Le Roux
@ast
Johannes J Le Roux
@en
Johannes J Le Roux
@es
Johannes J Le Roux
@nl
Johannes J Le Roux
@sl
P106
P1153
15048207800
P21
P31
P496
0000-0001-7911-9810