Morphological and Molecular Characterization of Filenchus multistriatus n. sp. (Tylenchomorpha: Tylenchidae) and Data on a Known Species of the Genus from Bushehr Province, Southern Iran
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Figure 1:
Line drawings of Filenchus multistriatus n. sp. (Female). (A) Entire body. (B) Tail. (C) Pharynx. (D) Lateral view of lateral field. (E) Lateral field.
Figure 2:
Light microphotographs of Filenchus multistriatus n. sp. (Female). (A&B) Anterior body region (arrows pointing to the excretory pore). (C) Entire body. (D) Reproductive system. (E) Tail. (F&G) Lateral field in two paratypes in lateral view.
Figure 3:
Scanning electron microphotographs of Filenchus multistriatus n. sp. (Female). (A-C) Lip region in ventral and subfrontal views, respectively (arrows pointing to the amphidial openings). (D) Anterior body region. (E&F) Lip region in frontal view (arrows pointing to the amphidial openings). (G, I, J) Lateral field. (H) Tail (arrow pointing to the anus). (K) Vulva.
Figure 4:
Light microphotographs of Iranian population of F. sandneri Wasilewska, 1965 from Bushehr province (Female). (A) Anterior body region (arrows pointing to the excretory pore). (B) Reproductive system. (C) Lip region and stylet. (D) Lateral field. (E) Tail. (F) Entire body.
Figure 5:
Scanning electron microphotographs of Iranian population of F. sandneri Wasilewska, 1965 from Bushehr province (Female). (A-C) Lip region in ventral, subfrontal and frontal views, respectively (arrows pointing to the amphidial openings). (D) Excretory pore. (E) Lateral field. (F) Tail (upper and lower arrows pointing to the vulva and anus, respectively). (G,H) Lateral fields. (I) Vulva. (J) Anus.
Figure 6:
Bayesian 50% majority rule consensus tree inferred from SSU rDNA of Filenchus multistriatus n. sp. under the GTR + G + I model (-ln L = 20913.9590; freq A = 0.2301; freqC = 0.2419; freqG = 0.3006; freq T = 0.2273; R(a) = 0.8974; R(b) = 2.1547; R(c) = 0.9066; R(d) = 1.0666; R(e) = 4.2155; R(f) = 1.0000; Pinva = 0.2800; Shape = 0.4692). Bayesian posterior probability values are given for appropriate clades. The newly generated sequence of the new species is in bold font.
Figure 7:
Bayesian 50% majority rule consensus tree inferred from LSU rDNA D2-D3 sequences of Filenchus multistriatus n. sp. under the GTR+G+I model (-ln L = 22199.4473; freq A = 0.1507; freqC = 0.2476; freqG = 0.3242; freq T = 0.2775; R(a) = 0.8948; R(b) = 0.8948; R(c) = 1.0152; R(d) = 0.7990; R(e) = 3.4497; R(f) = 1.0000; Pinva = 0.1528; Shape = 0.7240). Bayesian posterior probability values are given for appropriate clades. The newly generated sequences of the new species are in bold font.
Morphometrics of Filenchus multistriatus n. sp. and F. sandneri Wasilewska, 1965 from Bushehr province, Iran. All measurements are in μm and in the form: mean ± SD (range).