Aphis species (Hemiptera, Aphididae) living on Mulinum (Apiaceae) in South America, with a description of a new species Author Rodríguez, Sandra González Author Brown, Paul A. Author Ortego, Jaime Author López Ciruelos, Sara I. Author Nieto Nafría, Juan M. text Zootaxa 2017 4216 1 47 54 journal article 37371 10.5281/zenodo.229817 ced9fa16-dd83-4fa6-8fec-048bc9d0adc4 1175-5326 229817 27A13253-9666-42B6-AC39-313DA7E29EC9 Aphis martinezi Nieto Nafría, Ortego & Mier Durante, 1999 Studied material. CHUBUT : Cañadón Carbón , 7-XII-2009 , Mulinum spinosum (ARG-1417); Dique Florentino Ameghino, 7-XII-2009 , M. spinosum (ARG-1432) . MENDOZA : Malargüe , 6-II-1997 , M. spinosum (ARG-241); Malargüe, Ranquil Norte, 26-I-2003 , M. spinosum (ARG-955); Malargüe, Refugio Club Andino, 13-III-2003 , M. spinosum (ARG-949); San Rafael, El Sosneado , 29-X-1998 , Mulinum sp. (ARG-901, ARG-902); Villavicencio, 23-I-2003 , M. spinosum (ARG-934) . NEUQUÉN : Andacollo , 18-V-2000 , M. spinosum (ARG-619); Paso Chacabuco, 13-XII-2009 , M. spinosum (ARG-1637); Zapala, 12-XII-2009 , M. spinosum (ARG-1581). TABLE 1 . Metric and meristic features of apterous viviparous females of Aphis martinezi : type specimens and specimens of Andacollo (Neuquen, Argentina), sample ARG-619. D = subarticular diameter of antennal segment III. types ARG–619 body [mm] 0.85–1.50 1.40–1.76 antenna [mm] 0.52–0.82 0.77–0.98 antenna / body [times] 0.42–0.70 0.48–0.64 antennal segment III [mm] 0.15–0.22 0.19–0.26 antennal segment VI base [mm] 0.06–0.09 0.09–0.11 antennal segment VI processus terminalis [mm] 0.09–0.16 0.13–0.18 antennal segment III / antennal segment VI processus terminalis [times] 0.96–1.48 1.19–1.65 antennal segment VI processus terminalis / antennal segment VI base [times] 1.20–1.88 1.35–1.72 ultimate rostral segment [mm] 0.09–0.12 0.11–0.13 second segment of hind tarsus [mm] 0.09–0.11 0.10–0.12 ultimate rostral segment / second segment of hind tarsus [times] 0.90–1.17 1.00–1.14 siphunculus [mm] 0.06–0.18 0.10–0.15 body / siphunculus [times] (8.57)10–16.15 10.35–16.75 siphunculus / cauda [times] 0.54–1.00 0.71–1.00 cauda [mm] 0.09–0.18 0.13–0.17 cauda / basal width of cauda [times] 1.00–1.43 1.12–1.50 Setae on … … antennal segment III [µm] 5–10 10–13 … antennal segment III [times D ] 0.3–0.8 0.5–0.7 … vertex [µm] 7–13 13–18 … hind trochanter, inside [µm] 12–25 28 –40 … hind femur, dorsal [µm] 4–10 13–20 … hind femur, dorsal [times D ] 0.3–0.8 0.7–0.9 … abdominal segments 2 to 4 [µm] 4–11 13–20 … abdominal segment 8 [µm] 5–15 23–30 … abdominal segment 8 [times D ] 0.4–1.2 1.1–1.6 The apterous viviparous females belonging to the type series show a diverse sclerotization on dorsum of abdominal segments 1 to 6; autumnal specimens have a dorsum without or with very scarce and small sclerites, while the spring apterae are more or less sclerotized, carrying isolated sclerites, segmental bands or a spinopleural patch. The samples ARG-901, ARG-902, ARG-1417, ARG-1432, ARG-1581 and ARG-1637 were collected in spring, ARG-241, ARG- 934, ARG-949 and ARG- 955 in summer, and ARG- 619 in autumn. Six samples are from Mendoza (as is the type series) and five are from provinces south of Mendoza . All specimens of sample ARG-241 (collected in summer, from Mendoza ) show a membranous dorsum; most of the specimens of samples ARG-1417 and ARG-1637 have small and isolated sclerites, but other specimens have a membranous dorsum; and the majority of specimens of other samples, independently of provenance and date of capture, present isolated or coalescent bands. In consequence the absence, presence and extension of the sclerotization cannot be explained by season, latitude or altitude. Quantitative features of the specimens of most samples are within the limits stated in the description of the species. The specimens of sample ARG-619 (autumn specimens, from Neuquen) are exceptional, they are bigger ( Table 1 ) and also they are more sclerotic and frequently have a dorsal patch. The previously known distribution of the species is extended south into Chubut province , but it has not yet been collected in Rio Negro , which lies between Neuquen and Chubut ( Fig. 1 ).