-
No. Details Ref. 1 Abdominal spiracles present (Fig. 1a) 2 − Abdominal spiracles absent (Fig. 1b) 7 
Fig. 1 Abdominal spiracles (sp) on margin (a) present on Eurhizococcus colombianus, (b) absent on Distichlicoccus takumasai. 2(1) Anal aperture without pores and setae (Fig. 2a); legs shorter than half of the transversal diameter of body (Fig. 2b); eyespots and mouthparts absent Eurhizococcus colombianus
Jakubski, 1965− Anal aperture forming a well-developed anal ring with pores and setae (Fig. 2c); legs longer than transversal diameter of body; eyespots and mouthparts present (Fig. 2d)
3
Fig. 2 Eurhizococcus colombianus: (a) Anal aperture without pores and setae in the border, (b) section of mid body showing the length of hind leg (lel) and transversal body line (btl). Insignorthezia insignis: (c) Anal aperture with pores (po) and setae (st), (d) section of head with protruding eyespot (es) and labium (lb). 3(2) Antennae each with eight segments (Fig. 3a) 4 − Antennae each with fewer than five segments (Fig. 3b) 5 
Fig. 3 (a) Eight-segmented antenna. (b) Four-segmented antenna. 4(3) Transversal bands of spines absent in ventral region surrounded by an ovisac band (Fig. 4a); dorsal interantennal area without sclerosis (Fig. 4b) Insignorthezia insignis (Browne, 1887) − Transversal bands of spine plates present in ventral region surrounded by an ovisac band (Fig. 4c); longitudinal sclerosis on dorsum in interantennal area (Fig. 4d) Praelongorthezia praelonga (Douglas, 1891) 
Fig. 4 Insignorthezia insignis: (a) Abdomen without transversal clusters of wax plates, (b) Dorsal interantennal area without sclerosis. Praelongorthezia praelonga: (c) Abdomen with transversal clusters of wax plates marked by dash lines, (d) dorsal interantennal area with a longitudinal sclerotic plate (ep). 5(3) Antennae each with three segments (Fig. 5a) Newsteadia andreae Caballero, 2021 − Antennae each with four segments (Fig. 5b) 6 
Fig. 5 (a) Three-segmented antenna of Newsteadia andreae. Note the presence of pseudosegmentation which gives the appearance of additional segments in the last antennal segment. (b) Four-segmented antenna of Mixorthezia minima. 6(5) Dorsal area anterior to anal ring with simple pores on protuberances (Fig. 6a); ventral areas surrounding each coxa with a row of wax plate spines (Fig. 6b) Mixorthezia minima Koczné Benedicty & Kozár, 2004 − Dorsal area anterior to anal ring without simple pores or protuberances (Fig. 6c); ventral areas posterior to each coxa without wax plate spines (Fig. 6d) Mixorthezia neotropicalis (Silvestri, 1924) 
Fig. 6 Mixorthezia minima: (a) Dorsum of area anterior to anal ring with close-up of simple pores on protuberances (dash box); (b) ventral area posterior to each coxa with a row of wax plate spines (dash box). Mixorthezia neotropicalis: (c) Close-up of dorsum of area anterior to anal ring lacking simple pores on protuberances (dash box); (d) ventral area posterior to each coxa without associated wax plate spines. 7(1) Anal plates present (Fig. 7a) 8 − Anal plates absent (Fig. 7b) 12 
Fig. 7 (a) Anal apparatus of Saissetia coffeae with anal plates (ap) covering the anal aperture (aa). (b) Anal apparatus of Pseudococcus sp. with anal aperture lacking anal plates. 8(7) Antennae and legs with length similar to or shorter than spiracles (Fig. 8a) 9 − Antennae and legs with length at least twice as long as spiracles (Fig. 8b) 11 
Fig. 8 (a) Antenna (an) and foreleg (lg) (green lines), and anterior spiracle (sp) (yellow line) of Toumeyella coffeae showing their relative length. Note the similar size of the limbs and spiracle. (b) Antenna (an) and leg (lg) (green lines), and anterior spiracle (sp) (yellow line) of Coccus viridis showing their relative length. Note the relatively smaller size of the spiracle. 9(8) Ventral tubular macroducts present (Fig. 9) Toumeyella coffeae
Kondo, 2013− Ventral tubular macroducts absent 10 
Fig. 9 Ventral tubular macroducts (dash box) and close-up of macroducts (photo on right side). 10(9) Orbicular pores (Fig. 10a) and cribriform platelets present (Fig. 10b); dorsal setae absent; opercular pores absent Cryptostigma urichi (Cockerell, 1894) − Orbicular pores and cribriform platelets absent; dorsal setae present (Fig. 10c); numerous opercular pores present throughout mid areas of dorsum (Fig. 10d) Akermes colombiensis Kondo & Williams, 2004 
Fig. 10 Cryptostigma urichi: (a) Orbicular pore and (b) close-up of a cribriform platelet. Akermes colombiensis: (c) Close-up of a dorsal body setae (dash box) and (d) close-up of opercular pores (arrows). 11(8) Band of ventral tubular ducts in lateral and submarginal regions absent, ventral tubular ducts of one type; anal plates without discal setae (Fig. 11a); dorsal body setae capitate or clavate (Fig. 11b); perivulvar pores with seven or eight loculi, rarely with 10 loculi (Fig. 11c) Coccus viridis
(Green, 1889)− Band of ventral tubular ducts in lateral and submarginal regions present, submarginal region with two types of tubular ducts (Fig. 11d); anal plates with discal setae (Fig. 11e); dorsal body setae spine-like, apically pointed (Fig. 11f); perivulvar pores mostly with 10 loculi (Fig. 11g) Saissetia coffeae
(Walker, 1852)
Fig. 11 Coccus viridis: (a) Anal plates without discal setae; (b) dorsal body setae capitate (top) or clavate (below); (c) multilocular disc pores mostly with eight loculi. Saissetia coffeae: (d) Ventral submarginal region with two types of tubular ducts; (e) each anal plate with a discal seta; (f) dorsal body setae acute; (g) multilocular disc pores with mostly 10 loculi. 12(7) Cerarii present on body margin, at least a pair on each anal lobe (Fig. 12a) 13 − Cerarii absent on body margin (Fig. 12b) 38 
Fig. 12 Abdominal body margin of (a) Pseudococcus sp. with three cerarii (dash box) and (b) Rhizoecus sp. (dash box) without cerarii. 13(12) Enlarged oral collar tubular ducts composed of a sclerotized area surrounding the border and a set of flagellated setae (Ferrisia-type oral collar tubular ducts) (Fig. 13a) Ferrisia uzinuri
Kaydan & Gullan, 2012− Oral collar tubular ducts simple, not as above (Fig. 13b) or absent 14 
Fig. 13 (a) Ferrisia-type oral collar tubular ducts with aperture of tubular duct (ad) surrounded by a sclerotized area (sa) and associated flagellate setae (fs). (b) Oral collar tubular ducts simple (arrows). 14(12) Antenna with nine segments (Fig. 14a) 15 − Antenna with eight segments (Fig. 14b) or fewer (Fig. 14c) 19 
Fig. 14 Antenna with (a) nine segments, (b) eight segments and (c) seven segments. 15(14) Cerarii with more than five conical setae (Fig. 15a); hind trochanter with six sensilla, three on each surface (Fig. 15b) 16 − Cerarii with two lanceolate setae (Fig. 15c); hind trochanter with four sensilla, two on each surface (Fig. 15d) 17 
Fig. 15 Puto barberi: (a) upper and lateral view of a cerarius, (b) close-up of the surface of trochanter with three sensilla (arrows). Phenacoccus sisalanus: (c) cerarius, (d) trochanter with two sensilla (arrows) on single surface. 16(15) Cerarii with tubular ducts (Fig. 16a) Puto antioquensis
(Murillo, 1931)− Cerarii without tubular ducts (Fig. 16b) Puto barberi
(Cockerell, 1895)
Fig. 16 (a) Cerarius associated with tubular ducts (arrows). (b) Cerarius without tubular ducts. 17(15) Oral collar tubular ducts absent Phenacoccus sisalanus Granara de Willink, 2007 − Oral collar tubular ducts present, at least on venter (Fig. 17) 18 
Fig. 17 Ventral surface with oral collar tubular ducts (dash circles). 18(17) Oral collar tubular ducts restricted to venter Phenacoccus solani
Ferris, 1918− Oral collar tubular ducts present on dorsum and venter Phenacoccus parvus Morrison, 1924 19(14) Oral rim tubular ducts present (Fig. 18) 20 − Oral rim tubular ducts absent 26 
Fig. 18 Oral rim tubular ducts in upper view (dash circles) and close-up of lateral view. 20(19) Oral rim tubular ducts present on venter only Pseudococcus landoi (Balachowsky, 1959) − Oral rim tubular ducts present on both dorsum and venter 21 21(20) Cerarii restricted to anal lobes (Fig. 19a) Chorizococcus caribaeus Williams & Granara de Willink, 1992 − Cerarii present, at least on the last five abdominal segments (Fig. 19b) 22 
Fig. 19 Location of cerarii (dash boxes) on abdominal margin with close-up of cerarius (a) restricted to anal lobes (dash boxes) and (b) cerarii present on the last five abdominal segments. 22(21) Circulus absent (Fig. 20a) 23 − Circulus present (Fig. 20b) 24 
Fig. 20 Ventral mid area of abdominal segments III and IV (dash box) of (a) Distichlicoccus takumasai without circulus and (b) Pseudococcus jackbeardsleyi with circulus. 23(22) Multilocular disc pores present on venter of SabdIV and posterior segments (Fig. 21a); hind coxa with translucent pores and hind femur without translucent pores (Fig. 21b) Spilococcus pressus
Ferris, 1950− Multilocular disc pores absent, if some present, not more than three around vulvar opening (i.e. venter of SabdVII or SabdVIII); hind coxa without translucent pores (Fig. 21c) and hind femur with translucent pores (Fig. 21d) Distichlicoccus takumasai Caballero, 2021 
Fig. 21 Spilococcus pressus: (a) Ventral section of abdomen with multilocular disc pores (arrows); (b) hind leg with close-up of coxa with translucent pores (arrows). Distichlicoccus takumasai: (c) Hind coxa without translucent pores; (d) hind femur with translucent pores (arrows). 24(22) Eyes without discoidal pores nor sclerotized surrounding area (Fig. 22a); circulus with transversal diameter 40 to
60 µm (Fig. 22b)Pseudococcus luciae Caballero, 2021 − Eyes with discoidal pores and sclerotized surrounding area (Fig. 22c); circulus diameter 100 to 200 µm (Fig. 22d) 26 25(24) Oral rim tubular ducts on dorsal abdominal segments numbering three to eight; area between posterior ostiole and cerarius of SabdVII without oral rim tubular ducts (Fig. 23a) Pseudococcus elisae Borchsenius, 1947 − Oral rim tubular ducts on dorsal abdominal segments numbering 14 to 27; area between posterior ostiole and cerarius of SabdVII with an oral rim tubular duct (Fig. 23b) Pseudococcus jackbeardsleyi Gimpel & Miller, 1996 
Fig. 22 Pseudococcus luciae: (a) Eyespot without surrounding sclerotized area nor associated pores; (b) circulus ca. 58 µm wide. Pseudococcus jackbeardsleyi: (a) Eyespot with sclerotized area (sa) and associated pores (po); (d) circulus ca. 154 µm wide. 
Fig. 23 (a) Dorsal margin of abdominal segments VI to VIII, between cerarius of anal lobe (C1), cerarius of SabdVII (C2) and posterior ostiole (os) without oral rim tubular ducts. (b) Dorsal margin of abdominal segments VI to VIII, between cerarius of anal lobe (C1), cerarius of SabdVII (C2) and posterior ostiole (os) with an oral rim tubular duct and/or cerarius adjacent to SabdVII. 26(19) Oral collar tubular ducts (Fig. 24) on both dorsum and venter 27 − Oral collar tubular ducts restricted to venter 28 
Fig. 24 Oral collar tubular duct in lateral view. 27(26) Hind coxa with translucent pores (Fig. 25a); anal lobe with sclerotized bar, not on a sclerotized area (Fig. 25b); multilocular disc pores present posterior to fore coxa Planococcus citri-minor complex − Hind coxa without translucent pores (Fig. 25c); anal lobe without sclerotized bar, on a sclerotized area (Fig. 25d); multilocular disc pores absent posterior to fore coxa Dysmicoccus quercicolus (Ferris, 1918) 28(27) Oral collar tubular ducts absent on venter of both head and thorax. 29 − Oral collar tubular ducts present on either head or thorax, but not on both areas (Fig. 26) 30 
Fig. 25 Planococcus citri-minor complex: (a) Hind coxa with translucent pores (dash box) and (b) anal lobe with a sclerotization forming a bar (ab). Dysmicoccus quercicolus: (c) Hind coxa without translucent pores and (d) anal lobe with irregular broad sclerotized area (sa). 
Fig. 26 Marginal area of Dysmicoccus grassii, lateral to posterior spiracle (ps), with close-up of oral collar tubular ducts (oc) (left side). 29(28) Translucent pores present on hind coxa, trochanter, femur and tibia (Fig. 27a); marginal clusters of oral collar tubular ducts on venter of SabdVI and SabdVII Dysmicoccus caribensis Granara de Willink, 2009 − Translucent pores restricted to hind femur and tibia (Fig. 27b); marginal clusters of oral collar tubular ducts present on venter of SabdIV to SabdVII Paraputo nasai
Caballero, 2021
Fig. 27 (a) Hind leg of Dysmicoccus caribensis with translucent pores on coxa (cx), trochanter (tr) and femur (fm), and tibia (tb). (b) Hind leg of Paraputo nasai with translucent pores restricted to femur (fm) and tibia (tb). 30(28) Hind coxa with translucent pores (Fig. 28a) Dysmicoccus sylvarum
Williams & Granara de Willink, 1992− Hind coxa without translucent pores (Fig. 28b) 31 
Fig. 28 (a) Translucent pores on hind coxa. (b) Translucent pores absent on hind coxa. 31(30) Hind trochanter with translucent pores (Fig. 29a) Dysmicoccus varius
Granara de Willink, 2009− Hind trochanter without translucent pores (Fig. 29b) 32 
Fig. 29 Translucent pores (a) on hind trochanter, (b) absent from hind trochanter. 32(31) Oral collar tubular ducts present on margin of thorax (Fig. 30) 33 − Oral collar tubular ducts absent from margin of thorax 34 
Fig. 30 Prothorax margin of Dysmicoccus grassii with close-up of oral collar tubular ducts. 33(32) Multilocular disc pores absent on SabdV; dorsal area immediately anterior to anal ring with tuft of flagellate setae; longest flagellate seta as long as diameter of anal ring (Fig. 31a), and discoidal pores larger than trilocular pores (Fig. 31b) Dysmicoccus radicis
(Green, 1933)− Multilocular disc pores present on SabdV; dorsal area immediately anterior to anal ring without a tuft of flagellate setae; flagellate setae much shorter than diameter of anal ring (Fig. 31c) and discoidal pores smaller than trilocular pores (Fig. 31d) Dysmicoccus grassii (Leonardi, 1913) 34(32) Oral collar tubular ducts absent in interantennal area 35 − Oral collar tubular ducts present in interantennal area (Fig. 32) 36 35(34) Translucent pores on hind leg restricted to tibia (Fig. 33a) Dysmicoccus perotensis
Granara de Willink, 2009− Translucent pores on hind leg present on tibia and femur (Fig. 33b) Dysmicoccus joannesiae-neobrevipes complex 
Fig. 31 Dysmicoccus radicis: (a) Area anterior to anal ring with a cluster of flagellate setae (fs) and anal ring (ar) showing the diameter of the different pores (dash box); (b) discoidal pores (dp) and trilocular pores (tp). Dysmicoccus grassii: (c) Area anterior to anal ring with scattered short flagellate setae (fs) contrasted with anal ring (ar) diameter (dash box); (d) discoidal pores (dp) and trilocular pores (tp) with similar diameter. 
Fig. 32 Interantennal area (dash box) of Dysmicoccus brevipes with close-up of oral collar tubular ducts. 
Fig. 33 (a) Hind leg of Dysmicoccus perotensis with close-up of femur and tibia with translucent pores on tibia only (arrows). (b) Hind leg of Dysmicoccus joannesiae-neobrevipes complex with close-up of femur and tibia with translucent pores (arrows). 36(34) Hind coxa with translucent pores (see Fig. 28a) Dysmicoccus mackenziei
Beardsleyi, 1965− Hind coxa without translucent pores (see Fig. 28b) 37 37(36) Dorsal SabdVIII setae forming a tuft-like group, each seta conspicuously longer than remaining dorsal abdominal setae (Fig. 34a) and setal length similar to anal ring diameter (60–80 µm long) Dysmicoccus brevipes (Cockerell, 1893) − Dorsal SabdVIII setae evenly distributed, each setae as long as remaining dorsal abdominal setae (Fig. 34b) and length less than half diameter of anal ring Dysmicoccus texensis-neobrevipes complex 38(12) Tritubular ducts absent 39 − Tritubular ducts present (Fig. 35a-b) 46 
Fig. 34 (a) Abdomen of Dysmicoccus brevipes with dorsal setae on SabdVIII (lfs) longer than setae on anterior segments (sfs). (b) Abdomen of Dysmicoccus texensis-neobrevipes complex with dorsal setae (ufs) along the abdominal segments of uniform length and scattered distribution. 
Fig. 35 (a) Tritubular duct in upper (left) and lateral view (right) with the border of the cuticular ring attached to tubules. (b) Tritubular duct with the border of the cuticular ring widely separated from tubules (arrows). 39(38) Anal lobes strongly protruded, bulbiform (Fig. 36a) jutting out from margin for a distance equivalent to diameter of anal ring 40 − Anal lobes shallow, if protruded, their length never more than half of diameter of anal ring (Fig. 36b) 42 
Fig. 36 (a) Abdomen of Neochavesia caldasiae with anal lobes (al) protruding beyond the anal aperture (aa). (b) Abdomen of Ripersiella sp. with anal lobes (al) at the same level as the anal aperture (aa). 40(39) Anal aperture located at the same level as the base of anal lobes (Fig. 37a); antennae located on ventral margin of head Neochavesia caldasiae (Balachowsky, 1957) − Anal aperture located anterior to bases of anal lobes (Fig. 37b); antennae located on dorsum of head 41 
Fig. 37 (a) Abdomen of Neochavesia caldasiae with anal aperture (aa) positioned between the anal lobes (al), at the same level as the bases of anal lobes (dash line). (b) Abdomen of Neochavesia eversi with anal aperture (aa) situated anterior to the bases of the anal lobes (al) (dash line). 41(40) Antennae each with five segments, situated on a membranous base (Fig. 38a); length of hind claw less than length of hind tarsus (Fig. 38b) Neochavesia trinidadensis (Beardsley, 1970) − Antennae each with four segments, situated on a sclerotized base (Fig. 38c); hind claw longer than hind tarsus (Fig. 38d) Neochavesia eversi (Beardsley, 1970) 
Fig. 38 (a) Antenna with four segments and a membranous base (mb). (b) Hind tarsus (green line) longer than the hind claw (red line). (c) Antenna with four segments and a sclerotized base (sb). (d) Hind tarsus (green line) shorter than hind claw (red line). 42(39) Body setae capitate, at least on one surface (Fig. 39a) 43 − Body setae never capitate (Fig. 39b) 44 
Fig. 39 (a) Capitate setae. (b) Flagellate setae. 43(42) Anal aperture without associated cells (Fig. 40a); three-segmented antennae (Fig. 40b); ventral setae in median
and submedian regions capitateCapitisitella migrans
(Green, 1933)− Anal aperture surrounded by cells (Fig. 40c); six-segmented antennae (Fig. 40d); ventral setae in medial and submedial regions flagellate Williamsrhizoecus coffeae
Caballero & Ramos, 201844(42) Three-segmented antennae (Fig. 41a); circulus present (Fig. 41b) Pseudorhizoecus bari
Caballero & Ramos, 2018− Five-segmented antennae (Fig. 41c); circulus absent 45 
Fig. 40 Capitisitella migrans: (a) Anal aperture of surrounded only by setae; (b) antenna composed of three segments. Williamsrhizoecus coffeae: (c) Anal aperture of surrounded by setae and cells (flesh); (d) antenna composed of six segments. 
Fig. 41 Pseudorhizoecus bari: (a) Antenna composed of three segments and (b) circulus. (c) Antenna of Pseudorhizoecus proximus composed of five segments. 45(44) Multilocular disc pores absent; anal aperture ornamented with small protuberances and two to five short setae, each seta never longer than 1/3 diameter of anal aperture, without cells (Fig. 42a) Pseudorhizoecus proximus
Green, 1933− Multilocular disc pores present (Fig. 42b); anal aperture not ornamented with small protruberances, ring with well-developed cells and six long setae, each seta as long as diameter of anal ring (Fig. 42c) Ripersiella andensis (Hambleton,
1946)
Fig. 42 (a) Anal aperture of Pseudorhizoecus proximus surrounded by protuberances (pr) and a few short setae (st). Ripersiella andensis: (b) Ventral section of abdomen with multilocular disc pores (mp); (c) anal aperture with a ring of cells and six long setae (se). 46(38) Anal lobes strongly protruded, conical, each one with a stout spine at apex (Fig. 43a) Geococcus coffeae
Green, 1933− Anal lobes flat or barely protruded, without spines at apex (Fig. 43b) 47 47(46) Venter of abdomen with clusters of trilocular pores in medial region (Fig. 44a) Coccidella ecuadorina Konczné Benedicty & Foldi, 2004 − Venter of abdomen with trilocular pores evenly dispersed, never forming clusters in medial region (Fig. 44b) 48 
Fig. 43 (a) Abdomen of Geococcus coffeae with protruding anal lobe (al) with a stout spine at the apex (sp). (b) Abdomen of Rhizoecus sp. with anal lobe (al) flat, with numerous flagellate setae (fs) at the apex. 
Fig. 44 (a) Ventral surface of Coccidella ecuadorina with clusters of trilocular pores (tc) (dash box) on medial region of abdomen. (b) Ventral surface of Rhizoecus sp. with trilocular pores (tr) scattered on venter of abdomen. 48(47) Antennae with six well-developed segments (Fig. 45a) 51 − Antennae with five well-developed segments (Fig. 45b), apical segment sometimes partially divided (Fig. 45c) 49 
Fig. 45 (a) Six-segmented antenna. (b) Five-segmented antenna. (c) Five-segmented antenna with partially divided apical segment (pd). Note: antennal segments numbered in Roman numerals. 49(48) Antennae length more than 140 µm (Fig. 46a); tritubular ducts of similar diameter to trilocular pores (± 2 µm variation) (Fig. 46b); tritubular ducts with space between ductules and edge as wide as the ductules (Fig. 46c); slender ductule, width/length ratio 1:6 Rhizoecus coffeae
Laing, 1925− Antennae length less than 130 µm (Fig. 46d); tritubular ducts of diameter nearly twice diameter of trilocular pores (Fig. 46e); tritubular ducts with reduced space or without space between ductules and edge (Fig. 46f); stout ductule, width/length ratio 1:3 50 50(49) Tubular ducts present (Fig. 47a); each anal lobe with around 28 dorsal setae of similar length, greater than 30 µm (Fig. 47b, al); and dorsal marginal clusters of setae on SabdVII 20–30 µm long (Fig. 47b, SabdVII) Rhizoecus setosus (Hambleton, 1946) − Tubular ducts absent; each anal lobe with around 14 dorsal setae, with length less than 15 µm (Fig. 47c, al); dorsal marginal clusters of setae on SabdVII with length less 15 µm (Fig. 47c, SabdVII) Rhizoecus compotor
Williams & Granara de Willink, 1992
Fig. 46 (a) Antenna ca. 207 µm long. (b) Tritubular ducts (td) and trilocular pores (tp) with similar diameter. (c) Close-up of a tritubular duct indicating the space between the cuticular ring (mg) and the ductule (dt). (d) Antenna ca. 105 µm long. (e) Each tritubular duct (td) twice the diameter of a trilocular pore (tp). (f) Close-up of tritubular duct without a space between the cuticular ring (mg) and the ductule (dt). 
Fig. 47 Rhizoecus setosus: (a) Tubular ducts (td); (b) anal lobe (al) and abdominal segment (SabdVII) with marginal clusters of setae longer than 30 µm. (c) Abdomen of Rhizoecus compotor with marginal cluster of setae shorter than 20 µm on anal lobe (al) and abdominal segment (SabdVII). 51(48) Fore tibia with at least one of two internal preapical setae spine-like (Fig. 48a-b) 52 − Fore tibia with both internal preapical setae flagellate (Fig. 48c) 56 
Fig. 48 Fore legs with preapical setae on tibia (ft): (a) one flagellate (fs) and one spine seta (ss), (b) with a pair of spine setae (ss), (c) with a pair of flagellate setae (fs). 52(51) Fore tibia with one internal preapical spine-like setae and other seta flagellate (Fig. 48a); anal ring composed of spine-like setae (Fig. 49a); circulus absent Rhizoecus spinipes (Hambleton, 1946) − Fore tibia with both internal preapical setae spine-like (Fig. 48b); anal ring composed of flagellate-like setae (Fig. 49b); at least, one circulus present (Fig. 49c) 53 
Fig. 49 (a) Anal ring (ar) of Rhizoecus spinipes with spine-like setae (ss). (b) Anal ring (ar) of Rhizoecus arabicus with flagellate setae (fs). (c) Circulus of Rhizoecus cacticans. 53(52) Claw digitules setose and short, length less than half length of claw (Fig. 50a) 54 − Claw digitules capitate and long, as long as claw (Fig. 50b) 55 
Fig. 50 Claw with claw digitule: (a) setose (sd), (b) flagellate (fd). 54(53) Anal ring with external row composed of 35 cells or more (Fig. 51a, ext); anal ring with external and internal rows separated by a space as wide as a cell of the external row (Fig. 51a, spc); anal ring cells without spicules (Fig. 51a, sp) Rhizoecus variabilis Hambleton, 1978 − Anal ring with external row composed of less than 30 cells (Fig. 51b, ext); anal ring with external and internal rows separated by a narrow space, as wide as half (or less) a cell of the external row (Fig. 51b, spc); anal ring cells with spicules (Fig. 51b, sp) Rhizoecus arabicus Hambleton, 1976 
Fig. 51 (a) Anal ring of Rhizoecus variabilis with external row (ext) of anal ring consisting of over 35 cells; external row separated from the internal row (int) by a similar width as the diameter of a cell (spc). (b) Anal ring of Rhizoecus arabicus with external row (ext) of anal ring with less than 30 cells; external row separated from the internal row (int) by a width less than half the diameter of a cell (spc); cells of the external row with spicules (sp). 55(53) More than 80 tritubular ducts; circulus with basal diameter at least five times greater than apical diameter (Fig. 52a); stick-like genital chamber, parallel borders and all of similar width and structure, length across about two abdominal segments (169–175 µm long) (Fig. 52b) Rhizoecus atlanticus (Hambleton, 1946) − Less than 50 tritubular ducts; circulus with basal diameter less than three times the apical diameter (Fig. 52c); genital chamber with basal third two times wider than anterior two-thirds, length across one abdominal segment (43–52 µm long) (Fig. 52d) Rhizoecus cacticans (Hambleton, 1946) 
Fig. 52 Rhizoecus atlanticus: (a) Circulus with diameter at base five times the apical diameter, (b) genital chamber tubular shape, length ca. 150 µm long. Rhizoecus cacticans: (c) Circulus with diameter at base about two times the apical diameter, (d) genital chamber with proximal section basiform and distal section tubular, with arms, length ca. 45 µm long. 56(51) Multilocular disc pores absent on dorsum Rhizoecus mayanus (Hambleton, 1946) − Multilocular disc pores present on dorsum 57 57(56) Marginal prothoracic setae length greater than 50 µm (Fig. 53a); marginal SabdVII setae length greater than 45 µm (Fig 53b) Rhizoecus colombiensis Ramos-Portilla & Caballero, 2016 − Marginal prothoracic setae length less than 25 µm (Fig. 53c); marginal SabdVII setae length less than 30 µm (Fig. 53d) 58 
Fig. 53 Rhizoecus colombiensis: (a) Body margin with a long seta (pts) (> 40 µm), longer than remaining setae in prothorax; (b) margin of abdominal segment VII (SabdVII) (st). with a long seta (pts) (> 40 µm), longer than remaining setae in abdomen. Rhizoecus americanus: (c) Margin of prothorax (pts) with setae of uniform length, shorter than 30 µm; (d) margin of abdominal segment VII (SabdVII) with setae (st) shorter than 30 µm. 58(57) Tritubular ducts of two sizes Rhizoecus caladii
Green, 1933− Tritubular ducts of three sizes Rhizoecus americanus (Hambleton, 1946) Table 1.
Illustrated taxonomic key.
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