Aleyrodidae (Family)

Order

Hemiptera

27 Species

Total species

Species List

27 species in Aleyrodidae

Acyrthosiphon malvae

Aleurocanthus camellia

Aleurocanthus camelliae

Aleurocanthus spiniferus

Aleurodicus rugioperculatus

Antonina pretiosa

Baizongia pistaciae

Bemisia tabaci

silverleaf whitefly or sweet potato whitefly

Ceratovacuna keduensis

Ferrisia virgata

striped mealybug

Macrosteles quadrilineatus

Maiestas dorsalis

Megacopta punctatissima

Melanaphis bambusae

Melanaphis sacchari

sugarcane aphid

Nysius sp.

Paracoccus marginatus

papaya mealybug

Peregrinus maidis

Purohita taiwanensis

Recilia dorsalis

Riptortus pedestris

Takecallis taiwana

Telmatometra withei

Trialeurodes sp.

Trialeurodes vaporariorum

glasshouse whitefly or greenhouse whitefly

Trionymus perrisii

Tropidocephala brunnipennis

Related Symbionts

136 records

Symbiont records associated with Aleyrodidae family

	Classification	Host	Function	Function Tags
Rickettsia Pseudomonadota	Bacteria	Bemisia tabaci	Rickettsia can be transmitted into plants via whitefly feeding and remain alive within the cotton plants for at least 2 weeks.Then the persistence of…	Plant defense
Hamiltonella Pseudomonadota	Bacteria	Bemisia tabaci MED	Hamiltonella-infected whiteflies produced significantly more eggs, exhibited significantly higher nymphal survival, faster development times, and lar…	Fertility Growth and Development
Candidatus Cardinium Bacteroidota	Bacteria	Bemisia tabaci	Cardinium could inhibit the defense response of the host plant and decrease the detoxification metabolism ability of the host whitefly, decrease the …	Plant defense
Rickettsia Pseudomonadota	Bacteria	Bemisia tabaci	Rickettsia infection improved its host’s fitness by enhancing its resistance towards insecticides (imidacloprid and spirotetramat), entomopathogenic …	Pesticide metabolization Antimicrobials
Candidatus Schneideria nysicola isolate NB Pseudomonadota	Bacteria	Nysius sp.	synthesize four B vitamins(Pan, pantothenate;Fol, folate; Rib, riboflavin; Pyr, pyridoxine) and five Essential Amino Acids(Ile, isoleucine; Val, vali…	Nutrient provision
Candidatus Schneideria nysicola isolate NR Pseudomonadota	Bacteria	Nysius sp.	synthesize four B vitamins(Pan, pantothenate;Fol, folate; Rib, riboflavin; Pyr, pyridoxine) and five Essential Amino Acids(Ile, isoleucine; Val, vali…	Nutrient provision
Candidatus Schneideria nysicola isolate NT Pseudomonadota	Bacteria	Nysius sp.	synthesize four B vitamins(Pan, pantothenate;Fol, folate; Rib, riboflavin; Pyr, pyridoxine) and five Essential Amino Acids(Ile, isoleucine; Val, vali…	Nutrient provision
Rickettsia Pseudomonadota	Bacteria	Bemisia tabaci MED	Rickettsia infection resulted in increased whitefly fecundity and female bias by stimulating juvenile hormone synthesis. The production of more femal…	Nutrient provision
Candidatus Hamiltonella defensa Pseudomonadota	Bacteria	Bemisia tabaci	the genome of Hamiltonella revealed that this secondary symbiont can not only provide vitamins and cofactors, but also complete the missing steps of …	Nutrient provision
Arsenophonus Pseudomonadota	Bacteria	Bemisia tabaci	The GroEL proteins produced by Arsenophonus in B. tabaci (Asia II species) was found to interact with the coat protein of begomovirus and therefore f…	Pathogen interaction
Rickettsia Pseudomonadota	Bacteria	Bemisia tabaci	Rickettsia plays an essential role in energy metabolism, and nutrient synthesis in the B. tabaci MEAM1, and depends on metabolites obtained from the …	Nutrient provision
microbiome -	Bacteria and Fungi	plant-feeding true bugs	The dramatic replacements of dominant bacteria in the plant-feeding true bugs may help to drive the adaptive radiation of plant-feeding true bugs in …	-
Portiera aleyrodidarum Pseudomonadota	Bacteria	Bemisia tabaci	synthesizing essential amino acid (e.g. tryptophan, leucine and L-Isoleucine), Bemisia tabaci provides vital nutritional support for growth, developm…	Nutrient provision Growth and Development
Candidatus Gullanella endobia Pseudomonadota	Bacteria	Ferrisia virgata	a nested symbiotic arrangement, where one bacterium lives inside another bacterium,occurred in building the mosaic metabolic pathways seen in mitocho…	-
Candidatus Hoaglandella endobia Pseudomonadota	Bacteria	Trionymus perrisii	a nested symbiotic arrangement, where one bacterium lives inside another bacterium,occurred in building the mosaic metabolic pathways seen in mitocho…	-
Candidatus Mikella endobia Pseudomonadota	Bacteria	Paracoccus marginatus	a nested symbiotic arrangement, where one bacterium lives inside another bacterium,occurred in building the mosaic metabolic pathways seen in mitocho…	-
Candidatus Tremblaya princeps Pseudomonadota	Bacteria	Trionymus perrisii	a nested symbiotic arrangement, where one bacterium lives inside another bacterium,occurred in building the mosaic metabolic pathways seen in mitocho…	-
Candidatus Tremblaya princeps Pseudomonadota	Bacteria	Paracoccus marginatus	a nested symbiotic arrangement, where one bacterium lives inside another bacterium,occurred in building the mosaic metabolic pathways seen in mitocho…	-
Candidatus Tremblaya princeps Pseudomonadota	Bacteria	Ferrisia virgata	a nested symbiotic arrangement, where one bacterium lives inside another bacterium,occurred in building the mosaic metabolic pathways seen in mitocho…	-
Sulcia muelleri Bacteroidota	Bacteria	Maiestas dorsalis	Sulcia is responsible for synthesizing eight essential amino acids (leucine, isoleucine, threonine, lysine, arginine, tryptophan, phenylalanine, and …	Nutrient provision
Buchnera aphidicola Pseudomonadota	Bacteria	Baizongia pistaciae	support the exploitation of the poor diet of plant-phloem sap by aphids through supplementation of deficient nutrients, primarily essential amino aci…	Nutrient provision
Rickettsia Pseudomonadota	Bacteria	Bemisia tabaci	Both Bemisia tabaci B and MED show a strong link of the facultative symbiont Rickettsia to transmission of Tomato yellow leaf curl virus (TYLCV)	Pathogen interaction
Rickettsia Pseudomonadota	Bacteria	Bemisia tabaci	There was a significant negative correlation between drug resistance and infection rate of Rickettsia for imidacloprid and thiamethoxam	Pesticide metabolization
Rickettsia Pseudomonadota	Bacteria	Bemisia tabaci	Rickettsia induces the expression of genes required for thermotolerance and increases its susceptibility to insecticides.	-
Klebsiella electrica Pseudomonadota	Bacteria	Recilia dorsalis	nitrogen-fixing bacterium, R. electrica has all the nitrogen fixation genes and colonizes the gut lumen of leafhoppers	Nitrogen fixation
Arsenophonus Pseudomonadota	Bacteria	Bemisia tabaci	Arsenophonus plays a key role in the retention and transmission of CLCuV in the Asia II-1 genetic group of B. tabaci	Pathogen interaction
Nasuia deltocephalinicola Pseudomonadota	Bacteria	Maiestas dorsalis	are responsible for synthesizing two essential amino acids (histidine and methionine) and riboflavin (vitamin B2)	Nutrient provision
Candidatus Portiera aleyrodidarum Pseudomonadota	Bacteria	Bemisia tabaci	encoding the capability to synthetize, or participate in the synthesis of, several amino acids and carotenoids,	Nutrient provision
Hamiltonella Pseudomonadota	Bacteria	Bemisia tabaci Q	the ability of B. tabaci Q to acquire, retain and transmit TYLCV is affected by its S-symbiont Hamiltonella	Pathogen interaction
Buchnera spp. Pseudomonadota	Bacteria	Bemisia tabaci	Produces GroEL chaperone protein that binds to plant viruses and makes virus transmission efficient	Pathogen interaction
Candidatus Portiera aleyrodidarum Pseudomonadota	Bacteria	Bemisia tabaci	a primary symbiont, which compensates for the deficient nutritional composition of its food sources	Nutrient provision
Rickettsia Pseudomonadota	Bacteria	Bemisia tabaci	Rickettsia protects an invasive whitefly against entomopathogenic Pseudomonas syringae strains	Pathogen interaction
Nasuia deltocephalinicola Pseudomonadota	Bacteria	Macrosteles quadrilineatus	provision host insects with the essential amino acids that their hosts can neither synthesize	Nutrient provision
Sulcia muelleri Bacteroidota	Bacteria	Macrosteles quadrilineatus	provision host insects with the essential amino acids that their hosts can neither synthesize	Nutrient provision
Arsenophonus Pseudomonadota	Bacteria	Bemisia tabaci	drive sex ratio in the whitefly by facilitating fertilization and provisioning of B vitamins	Nutrient provision Reproductive manipulation
Arsenophonus Pseudomonadota	Bacteria	Trialeurodes vaporariorum	drive sex ratio in the whitefly by facilitating fertilization and provisioning of B vitamins	Nutrient provision Reproductive manipulation
Hamiltonella Pseudomonadota	Bacteria	Bemisia tabaci	drive sex ratio in the whitefly by facilitating fertilization and provisioning of B vitamins	Nutrient provision Reproductive manipulation
Hamiltonella Pseudomonadota	Bacteria	Trialeurodes vaporariorum	drive sex ratio in the whitefly by facilitating fertilization and provisioning of B vitamins	Nutrient provision Reproductive manipulation
Portiera Pseudomonadota	Bacteria	Bemisia tabaci	drive sex ratio in the whitefly by facilitating fertilization and provisioning of B vitamins	Nutrient provision Reproductive manipulation
Portiera Pseudomonadota	Bacteria	Trialeurodes vaporariorum	drive sex ratio in the whitefly by facilitating fertilization and provisioning of B vitamins	Nutrient provision Reproductive manipulation
Hamiltonella Pseudomonadota	Bacteria	Bemisia tabaci	increases the growth rate of its host Bemisia tabaci during periods of nutritional stress	Growth and Development
Wolbachia Pseudomonadota	Bacteria	Tropidocephala brunnipennis	influences the reproduction of its hosts to facilitate its proliferation and transmission	Fertility
Wolbachia Pseudomonadota	Bacteria	Antonina pretiosa	influences the reproduction of its hosts to facilitate its proliferation and transmission	Fertility
Wolbachia Pseudomonadota	Bacteria	Purohita taiwanensis	influences the reproduction of its hosts to facilitate its proliferation and transmission	Fertility
Rickettsia RITBT Pseudomonadota	Bacteria	Bemisia tabaci	RITBT slightly increased the efficiency of Bemisia tabaci in transmitting crimp virus	Pathogen interaction
Hamiltonella defensa Pseudomonadota	Bacteria	Bemisia tabaci	mediates whitefly–plant interactions by suppressing induced plant defences in tomato	Plant defense
Candidatus Portiera aleyrodidarum Pseudomonadota	Bacteria	Bemisia tabaci	Portiera determined vitellogenin (Vg) localization in bacteriocytes of whiteflies	-
Hamiltonella Pseudomonadota	Bacteria	Bemisia tabaci	Hamiltonella confers resistance to parasitoids and increases thermotolerance	Natural enemy resistance
Hamiltonella defensa Pseudomonadota	Bacteria	Acyrthosiphon malvae	can provide a defence against hymenopteran parasitoids to their aphid hosts	Natural enemy resistance
Pm Arsenophonus sp Pseudomonadota	Bacteria	Peregrinus maidis	threonine and lysine production is carried out solely by Pm Arsenophonus sp	Nutrient provision
Candidatus Portiera aleyrodidarum Pseudomonadota	Bacteria	Aleyrodidae	participate in the synthesis of all Essential amino acid and Carotenoid	Nutrient provision
Rickettsia Pseudomonadota	Bacteria	Bemisia tabaci	influences thermotolerance in the whitefly Bemisia tabaci B biotype	-
Serratia Pseudomonadota	Bacteria	Ceratovacuna keduensis	defending its host insect against various adverse conditions	-
Pantoea Pseudomonadota	Bacteria	Recilia dorsalis	play a crucial role in the recycling of nitrogenous waste	Nitrogen fixation
Cardinium Bacteroidota	Bacteria	Bemisia tabaci	ardinium can increase the thermal tolerance of whitefly	-
Candidatus Nasuia Pseudomonadota	Bacteria	Macrosteles quadrilineatus	Sulcia synthesizes eight essential amino acids (EAAs)	Nutrient provision
Sulcia Bacteroidota	Bacteria	Macrosteles quadrilineatus	Nasuia provides the two essential amino acids (EAAs)	Nutrient provision
Wolbachia Pseudomonadota	Bacteria	Bemisia tabaci	leads to female bias and may affect host resistance	Reproductive manipulation
gut bacteria -	Bacteria	Aleurocanthus camellia	has the potential of degrading plant cell wall	Digestive enzymes
Wolbachia Pseudomonadota	Bacteria	Melanaphis sacchari	involved in feminization and parthenogenesis	Reproductive manipulation
Acinetobacter Pseudomonadota	Bacteria	Aleurodicus rugioperculatus	may indirectly affect whitefly oviposition	-
Arthrobacter Actinomycetota	Bacteria	Aleurodicus rugioperculatus	may indirectly affect whitefly oviposition	-
Bacillus Bacillota	Bacteria	Aleurodicus rugioperculatus	may indirectly affect whitefly oviposition	-
Exiguobacterium Bacillota	Bacteria	Aleurodicus rugioperculatus	may indirectly affect whitefly oviposition	-
Pseudomonas Pseudomonadota	Bacteria	Aleurodicus rugioperculatus	may indirectly affect whitefly oviposition	-
Cardinium Bacteroidota	Bacteria	Bemisia tabaci	Reproductive manipulators	Reproductive manipulation
Buchnera Pseudomonadota	Bacteria	Antonina pretiosa	supply nutrient	Nutrient provision
Buchnera Pseudomonadota	Bacteria	Ceratovacuna keduensis	supply nutrient	Nutrient provision
Buchnera Pseudomonadota	Bacteria	Purohita taiwanensis	supply nutrient	Nutrient provision
Buchnera Pseudomonadota	Bacteria	Takecallis taiwana	supply nutrient	Nutrient provision
Acinetobacter Pseudomonadota	Bacteria	Melanaphis bambusae	-	-
Acinetobacter Pseudomonadota	Bacteria	Telmatometra withei	-	-
Agrobacterium tumefaciens Pseudomonadota	Bacteria	Melanaphis bambusae	-	-
Arsenophonus Pseudomonadota	Bacteria	Bemisia tabaci	-	-
bacterial communities -	Bacteria	Bemisia tabaci	-	-
Buchnera aphidicola Pseudomonadota	Bacteria	Melanaphis bambusae	-	-
Buchnera aphidicola Pseudomonadota	Bacteria	Melanaphis sacchari	-	-
Candidatus Hamiltonella defensa Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Candidatus Hemipteriphilus asiaticus Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Candidatus Portiera Pseudomonadota	Bacteria	Trialeurodes sp.	-	-
Candidatus Portiera aleyrodidarum WB Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Candidatus Rickettsia_Torix_Bemisia_tabaci Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Candidatus Vidania Pseudomonadota	Bacteria	Antonina pretiosa	-	-
Candidatus Vidania Pseudomonadota	Bacteria	Tropidocephala brunnipennis	-	-
Candidatus Vidania Pseudomonadota	Bacteria	Purohita taiwanensis	-	-
Chryseobacterium Bacteroidota	Bacteria	Melanaphis bambusae	-	-
Cladosporium Ascomycota	Fungi	Melanaphis bambusae	-	-
Cladosporium Ascomycota	Fungi	Melanaphis bambusae	-	-
Cladosporium Ascomycota	Fungi	Melanaphis bambusae	-	-
Comamonas koreensi Pseudomonadota	Bacteria	Melanaphis bambusae	-	-
Delftia lacustris Pseudomonadota	Bacteria	Melanaphis bambusae	-	-
Enterobacteriaceae Pseudomonadota	Bacteria	Telmatometra withei	-	-
Erwinia Pseudomonadota	Bacteria	Melanaphis bambusae	-	-
Escherichia coli Pseudomonadota	Bacteria	Melanaphis sacchari	-	-
Flavobacterium johnsoniae Bacteroidota	Bacteria	Melanaphis bambusae	-	-
Fusarium Ascomycota	Fungi	Melanaphis bambusae	-	-
Gibberella zeae Ascomycota	Fungi	Melanaphis bambusae	-	-
Halomonas Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Hamiltonella Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Helicobacter pylri Campylobacterota	Bacteria	Melanaphis bambusae	-	-
Klebsiella Pseudomonadota	Bacteria	Melanaphis bambusae	-	-
Pantoea Pseudomonadota	Bacteria	Melanaphis bambusae	-	-
Penicillium Ascomycota	Fungi	Melanaphis bambusae	-	-
Penicillium Ascomycota	Fungi	Melanaphis bambusae	-	-
Pichia guilliermondii Ascomycota	Fungi	Melanaphis bambusae	-	-
Pseudomonas Pseudomonadota	Bacteria	Melanaphis bambusae	-	-
Pseudozyma aphidis Basidiomycota	Fungi	Melanaphis bambusae	-	-
Rhizobiaceae Pseudomonadota	Bacteria	Tropidocephala brunnipennis	-	-
Rhizobiaceae Pseudomonadota	Bacteria	Purohita taiwanensis	-	-
Rhizobiaceae Pseudomonadota	Bacteria	Antonina pretiosa	-	-
Rickettsia Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Rickettsia africae Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Rickettsia bellii RML369-C Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Rickettsia canadensis str. CA41None Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Rickettsia canadensis str. McKiel Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Rickettsia conorii Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Rickettsia felis Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Rickettsia massiliae Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Rickettsia MEAM1 China Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Rickettsia MEAM1 Israel Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Rickettsia prowazekii Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Rickettsia rickettsii Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Rickettsia typhi Pseudomonadota	Bacteria	Bemisia tabaci	-	-
Salmonella enterica Pseudomonadota	Bacteria	Melanaphis sacchari	-	-
Serratia Pseudomonadota	Bacteria	Telmatometra withei	-	-
Serratia Pseudomonadota	Bacteria	Trialeurodes sp.	-	-
Serratia marcescens Pseudomonadota	Bacteria	Melanaphis bambusae	-	-
Sphingobacterium multivorum Bacteroidota	Bacteria	Melanaphis bambusae	-	-
Spiroplasma Mycoplasmatota	Bacteria	Telmatometra withei	-	-
Staphylococcus xylosus Bacillota	Bacteria	Melanaphis bambusae	-	-
Stenotrophomonas Pseudomonadota	Bacteria	Melanaphis bambusae	-	-
Tistrella Pseudomonadota	Bacteria	Recilia dorsalis	-	-
Wolbachia Pseudomonadota	Bacteria	Telmatometra withei	-	-
Wolbachia Pseudomonadota	Bacteria	Aleurocanthus spiniferus	-	-
Wolbachia Pseudomonadota	Bacteria	Trialeurodes sp.	-	-
Wolbachia Pseudomonadota	Bacteria	Bemisia tabaci	-	-

Back to Table

Metagenome Information

0 records

Metagenome sequencing data associated with Aleyrodidae family

Run	Platform	Host	Location	Date	BioProject
No metagenomes found No metagenome records associated with Aleyrodidae family.

Amplicon Information

71 records

Amplicon sequencing data associated with Aleyrodidae family

Run	Classification	Host	Platform	Location	Environment
SRR22713626 AMPLICON	16S	Aleurocanthus camelliae	-	China 26 N 106 E	-
SRR22713627 AMPLICON	16S	Aleurocanthus camelliae	-	China 26 N 106 E	-
SRR22713628 AMPLICON	16S	Aleurocanthus camelliae	-	China 26 N 106 E	-
SRR22713629 AMPLICON	16S	Aleurocanthus camelliae	-	China 26 N 106 E	-
SRR22713630 AMPLICON	16S	Aleurocanthus camelliae	-	China 26 N 106 E	-
SRR22713631 AMPLICON	16S	Aleurocanthus camelliae	-	China 26 N 106 E	-
SRR24765912 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.91 N 70.95 W	-
SRR24765908 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.91 N 70.95 W	-
SRR24765909 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.91 N 70.95 W	-
SRR24765910 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.91 N 70.95 W	-
SRR24765911 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.91 N 70.95 W	-
SRR24765906 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765907 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765903 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765904 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765905 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765901 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.43 N 72.85 W	-
SRR24765897 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.43 N 72.85 W	-
SRR24765898 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.43 N 72.85 W	-
SRR24765899 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.43 N 72.85 W	-
SRR24765900 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.43 N 72.85 W	-
SRR24765896 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.91 N 70.96 W	-
SRR24765894 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.91 N 70.96 W	-
SRR24765892 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.91 N 70.96 W	-
SRR24765893 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.91 N 70.96 W	-
SRR24765895 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.91 N 70.96 W	-
SRR24765883 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.51 N 72.97 W	-
SRR24765885 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.51 N 72.97 W	-
SRR24765886 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765887 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765888 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765889 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765890 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765881 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.51 N 72.97 W	-
SRR24765882 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.51 N 72.97 W	-
SRR24765884 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.51 N 72.97 W	-
SRR24765924 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.43 N 72.85 W	-
SRR24765921 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765936 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765918 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765919 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765920 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765922 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.43 N 72.85 W	-
SRR24765923 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.43 N 72.85 W	-
SRR24765925 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.43 N 72.85 W	-
SRR24765926 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.43 N 72.85 W	-
SRR24765916 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.86 N 71.1 W	-
SRR24765935 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.86 N 71.1 W	-
SRR24765915 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.86 N 71.1 W	-
SRR24765917 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.86 N 71.1 W	-
SRR24765914 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.86 N 71.1 W	-
SRR24765891 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.91 N 70.95 W	-
SRR24765929 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.91 N 70.95 W	-
SRR24765927 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.91 N 70.95 W	-
SRR24765930 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.91 N 70.95 W	-
SRR24765928 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.91 N 70.95 W	-
SRR24765902 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765931 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765933 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765934 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765932 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 46.31 N 72.63 W	-
SRR24765877 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.51 N 72.97 W	-
SRR24765878 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.51 N 72.97 W	-
SRR24765879 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.51 N 72.97 W	-
SRR24765880 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.51 N 72.97 W	-
SRR24765913 AMPLICON	16S	Macrosteles quadrilineatus	-	Canada 45.51 N 72.97 W	-
DRR358030 AMPLICON	16S	Riptortus pedestris	-	Japan missing	woodland woodland
SRR11548033 WGA	16S	Trialeurodes vaporariorum	-	Kenya missing	-
SRR11548034 WGA	16S	Trialeurodes vaporariorum	-	Kenya missing	-
SRR11548035 WGA	16S	Trialeurodes vaporariorum	-	Kenya missing	-
SRR8575422 AMPLICON	16S	Paracoccus marginatus	-	India 9.933333 N 78.116667 E	-

Aleyrodidae (Family)

Species List

Related Symbionts

Metagenome Information

No metagenomes found

Amplicon Information