Ecology, Evolution, Behavior and Systematics

Effect of Daytime and Tree Canopy Height on Sampling of Cacopsylla melanoneura, a ‘Candidatus Phytoplasma mali’ Vector

Citation: Barthel et al. (2020). Plants 9 (9)
Names: Ca. Phytoplasma mali
Abstract: The psyllids Cacopsylla melanoneura and Cacopsylla picta reproduce on apple (Malus × domestica) and transmit the bacterium ‘Candidatus Phytoplasma mali’, the causative agent of apple proliferation. Adult psyllids were collected by the beating-tray method from lower and upper parts of the apple tree canopy in the morning and in the afternoon. There was a trend of catching more emigrant adults of C.melanoneura in the morning and in the lower part of the canopy. For C.melanoneura remigrants, no dif

Tomato Metabolic Changes in Response to Tomato-Potato Psyllid (Bactericera cockerelli) and Its Vectored Pathogen Candidatus Liberibacter solanacearum

Citation: H.J. Lee et al. (2020). Plants 9 (9)
Names: “Liberibacter solanacearum”
Abstract: The bacterial pathogen ‘Candidatus Liberibacter solanacearum’ (Lso) is transmitted by the tomato potato psyllid (TPP), Bactericera cockerelli, to solanaceous crops. In the present study, the changes in metabolic profiles of insect-susceptible (cv CastleMart) and resistant (RIL LA3952) tomato plants in response to TPP vectoring Lso or not, were examined after 48 h post infestation. Non-volatile and volatile metabolites were identified and quantified using headspace solid-phase microextraction equ

Feeding behaviour of Bactericera cockerelli (Šulc) (Hemiptera: Psylloidea: Triozidae) changes when infected with Candidatus Liberibacter solanacearum

Citation: Valenzuela et al. (2020). Arthropod-Plant Interactions 14 (5)
Names: “Liberibacter solanacearum”
Abstract: AbstractPathogens which need a vector for their transmission can alter the vectors’ behaviour to favour their spread. We used the electrical penetration graph technique to investigate this hypothesis by using the tomato potato psyllid Bactericera cockerelli infected or not with the plant pathogen Candidatus Liberibacter solanacearum (CLso) on African boxthorn and tomato. Probing was not affected by the host type but there was a significant effect on probing due to the infection status of the psy

Iterative subtractive binning of freshwater chronoseries metagenomes identifies over 400 novel species and their ecologic preferences

Citation: Rodriguez-R et al. (2020). Environmental Microbiology 22 (8)
Names: Elulimicrobium Elulimicrobium humile ^Ts “Aquidulcis” “Aquidulcis frankliniae” Elulimicrobiaceae Elulimicrobiales Elulimicrobiia Elulimicrobiota Ca. Limnocylindrus Ca. Limnocylindria Ca. Limnocylindrus [ZSMar2m-chloro-G89]
Abstract

Correction: Cultivation and characterization of Candidatus Nitrosocosmicus exaquare, an ammonia-oxidizing archaeon from a municipal wastewater treatment system

Citation: Sauder et al. (2020). The ISME Journal 14 (9)
Names: Ca. Nitrosocosmicus exaquare
Abstract: An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Registration of names of prokaryotic Candidatus taxa in the IJSEM

Citation: Oren et al. (2020). International Journal of Systematic and Evolutionary Microbiology 70 (7)
Names
Abstract

Candidatus Abditibacter, a novel genus within the Cryomorphaceae, thriving in the North Sea

Citation: Grieb et al. (2020). Systematic and Applied Microbiology 43 (4)
Names: “Abditibacter”
Abstract

Lists of names of prokaryotic Candidatus taxa

Citation: Oren et al. (2020). International Journal of Systematic and Evolutionary Microbiology 70 (7)
Names: “Huberarchaeum crystalense” “Huberarchaeum” Ca. Allofontibacter Ca. Allofontibacter communis “Fermentibacteria” Ca. Fermentibacter danicus Ca. Fermentibacter Ca. Fermentibacteraceae “Fermentibacterales” “Methanofastidiosia” Ca. Methanofastidiosum Ca. Methanofastidiosum methylothiophilum Ca. Carsonella Ca. Carsonella ruddii “Altiarchaeum” Ca. Methylumidiphilus alinenensis Ca. Caldarchaeum Kryptonium thompsonii ^Ts “Sulfuripaludibacter” “Sulfuritelmatobacter” Sulfuritelmatomonas “Izemoplasma acidinucleici” Cloacimonas acidaminivorans ^Ts Cloacimonas Ca. Methanomethylicia Ca. Methanomethylicus Ca. Methanomethylicus mesodigestus Ca. Methanomethylicus oleisabuli “Methanosuratincola petrocarbonis” “Methanosuratincola” Ca. Branchiomonas cystocola Kapaibacterium Kapaibacterium thiocyanatum ^Ts Muiribacterium halophilum ^Ts Promineifilum Promineifilum breve ^Ts “Accumulibacter aalborgensis” “Acetithermum autotrophicum” “Aciduliprofundum boonei” “Actinochlamydia clariatis” “Actinochlamydia pangasianodontis” “Actinomarina minuta” “Adiacens aphidicola” “Aenigmatarchaeum subterraneum” “Aerophobus profundus” “Allobeggiatoa salina” “Allocryptoplasma californiense” “Allospironema culicis” “Altiarchaeum hamiconexum” “Altimarinus pacificus” “Aminicenans sakinawicola” “Amoebinatus massiliensis” “Amoebophilus asiaticus” “Amphibiichlamydia ranarum” “Amphibiichlamydia salamandrae” “Anammoxiglobus propionicus” “Anammoximicrobium moscoviense” “Aquiluna rubra” “Atelocyanobacterium thalassae” “Bandiella euplotis” “Blochmanniella camponoti” “Blochmanniella floridana” “Blochmanniella myrmotrichis” “Blochmanniella pennsylvanica” “Blochmanniella vafra” “Brevifilum fermentans” “Brocadia anammoxidans” “Brocadia sapporonensis” “Caenarcanum bioreactoricola” “Caldarchaeum subterraneum” “Caldatribacterium californiense” “Caldatribacterium saccharofermentans” “Calditenuis aerorheumatis” “Calescibacterium nevadense” “Captivus acidiprotistae” “Carbonibacillus altaicus” “Cardinium hertigii” “Catenimonas italica” “Cenarchaeum symbiosum” “Chloranaerofilum corporosum” “Chloroploca asiatica” “Chlorotrichoides halophilum” “Chryseopegocella kryptomonas” “Clavichlamydia salmonicola” “Cochliopodiiphilus cryoturris” “Combothrix italica” “Competibacter denitrificans” “Competibacter phosphatis” “Consessor aphidicola” “Contendibacter odensensis” “Contubernalis alkaliaceticus” “Criblamydia sequanensis” “Criblamydia” “Cryptoprodota polytropus” “Curculioniphilus buchneri” “Cyrtobacter comes” “Dactylopiibacterium carminicum” “Desulfofervidus auxilii” “Desulfonatronobulbus propionicus” “Doolittlea endobia” “Ecksteinia adelgidicola” “Electronema nielsenii” “Electronema palustre” Electrothrix arhusiensis Electrothrix communis ^Ts “Electrothrix japonica” “Electrothrix marina” “Endecteinascidia fromenterensis” “Endobugula glebosa” “Endobugula sertula” “Endolissoclinum faulkneri” “Endonucleibacter bathymodioli” “Endoriftia persephonae” “Endowatersipora glebosa” “Entotheonella factor” “Entotheonella palauensis” “Entotheonella serta” “Epixenosoma ejectans” “Epulonipiscioides gigas” “Epulonipiscioides saccharophilum” “Epulonipiscium fischelsonii” “Fervidibacter sacchari” “Finniella inopinata” “Finniella lucida” “Finniella” “Flaviluna lacus” “Fodinibacter communicans” “Fokinia crypta” “Fokinia solitaria” “Fritschea bemisiae” “Fritschea eriococci” “Fukatsuia symbiotica” “Galacturonatibacter soehngenii” “Mariprofundia” “Moduliflexia” “Thermofontia” “Vecturitrichia” “Actinomarinales” “Altiarchaeales” “Gastranaerophilales” “Moduliflexales” “Nitrosocaldales” “Vecturitrichales” “Accumulibacter phosphatis” Sulfuritelmatomonas gaucii ^Ts Electronema aureum ^Ts Electronema Electrothrix “Fervidibacter”
Abstract: We here present annotated lists of names ofCandidatustaxa of prokaryotes with ranks between subspecies and class, proposed between the mid-1990s, when the provisional status ofCandidatustaxa was first established, and the end of 2018. Where necessary, corrected names are proposed that comply with the current provisions of the International Code of Nomenclature of Prokaryotes and its Orthography appendix. These lists, as well as updated lists of newly published names ofCandidatustaxa with additio

Molecular detection of Candidatus Rickettsia asembonensis in fleas collected from pets and domestic animals in Puducherry, India

Citation: Nataraj et al. (2020). Medical and Veterinary Entomology 34 (4)
Names: Ca. Rickettsia asembonensis
Abstract

“Candidatus Borrelia ibitipoquensis,” a Borrelia valaisiana–Related Genospecies Characterized from Ixodes paranaensis in Brazil

Citation: Muñoz-Leal et al. (2020). Microbial Ecology 80 (3)
Names: Ca. Borrelia ibitipoquensis
Abstract

Ecology, Evolution, Behavior and Systematics

Publications 589

Effect of Daytime and Tree Canopy Height on Sampling of Cacopsylla melanoneura, a ‘Candidatus Phytoplasma mali’ Vector

Tomato Metabolic Changes in Response to Tomato-Potato Psyllid (Bactericera cockerelli) and Its Vectored Pathogen Candidatus Liberibacter solanacearum

Feeding behaviour of Bactericera cockerelli (Šulc) (Hemiptera: Psylloidea: Triozidae) changes when infected with Candidatus Liberibacter solanacearum

Iterative subtractive binning of freshwater chronoseries metagenomes identifies over 400 novel species and their ecologic preferences

Correction: Cultivation and characterization of Candidatus Nitrosocosmicus exaquare, an ammonia-oxidizing archaeon from a municipal wastewater treatment system

Registration of names of prokaryotic Candidatus taxa in the IJSEM

Candidatus Abditibacter, a novel genus within the Cryomorphaceae, thriving in the North Sea

Lists of names of prokaryotic Candidatus taxa

Molecular detection of Candidatus Rickettsia asembonensis in fleas collected from pets and domestic animals in Puducherry, India

“Candidatus Borrelia ibitipoquensis,” a Borrelia valaisiana–Related Genospecies Characterized from Ixodes paranaensis in Brazil

Publications
589