Figure 1.
Panorpa obtusa, adults in dorsal view.
(A) male. (B) Female. Scale bars = 2 mm.
Figure 2.
Male abdomen and aedeagus of P. obtusa.
(A) Light micrograph of the abdomen in lateral view. (B) Light micrograph of the aedeagus, ventral view. (C)–(E) SEM of the aedeagus in ventral, dorsal, and lateral views. The apicodorsal processes are artificially malformed during the process of sample preparation. adp, apicodorsal process; ah, anal horn; avp, apicoventral process; dv, dorsal valve; lp, lateral process; V–IX, the abdominal segment V–IX; vv, ventral valve. Scale bars: (A) = 0.1 mm; (B)–(E) = 0.2 mm.
Figure 3.
SEM of the female genital plate of P. obtusa.
(A) Ventral view. (B) Ventral view with the ventral basal plate removed. (C) Dorsal view. (D) Magnification of the distal part of axis in B, with the sculpturing part partly artificial deformed. ax, axis; dbp, dorsal basal plate; mp, main plate; spo, orifice of spermathecal duct; vbp, ventral basal plate. Scale bars: (A)–(C) = 200 µm; (D) = 40 µm.
Figure 4.
Variation of male wing markings of P. obtusa.
Scale bars = 2 mm.
Figure 5.
Variation of male genitalia of P. obtusa.
(A)–(C) Ventral view. (D)–(F) Dorsal view. epi, epandrium; gc, gonocoxite; gs, gonostylus; hy, hypovalve. Scale bars = 0.4 mm.
Figure 6.
Variation of male paramere of P. obtusa.
Scale bars = 0.2 mm.
Figure 7.
Variation of female wing markings of P. obtusa.
Scale bars = 2 mm.
Figure 8.
Variation of the female genitalia of P. obtusa, ventral views.
(A)–(D) Genital plates. (E)–(G) Subgenital plates. (H) Subgenital plate with part of the genital plate adhering dorsally. Scale bars = 0.2 mm.