identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
E8273615FFC5EF6BFF18FD8CFF14623D.text	E8273615FFC5EF6BFF18FD8CFF14623D.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Doryctobracon whartoni Marinho & Cônsoli & Penteado-Dias & Zucchi 2017	<div><p>Doryctobracon whartoni Marinho and Penteado-Dias sp. nov.</p><p>(Figs 1 B–B 2, 3 A, 4 A–F)</p><p>http://www.zoobank.org/NomenclaturalActs/4D24EABE-41BE-44E5-8AE6-AC27CD421D19 Doryctobracon sp. 1: Deus et al. 2010 (Pedra Branca do Amapari, AP, ex A. atrigona in Geissospermum argenteum).</p><p>Diagnosis. This species differs from Doryctobracon areolatus (Szépligeti, 1911), by having the fore wing infuscate with a hyaline band near the base (restricted to the subbasal and anal cell) and a second transverse hyaline band on the apical half (Figs 1 B1, 3A). Stigma yellow, veins and bristles in the hyaline band yellow, veins and setae in the infuscate band dark brown (Fig 3A). Doryctobracon adaimei sp. nov. also has a hyaline area, but it is rounded and is situated after the stigma (dark brown) and before the wing apex (in the middle of R1a). This spot does not reach the posterior margin of the wing and ends in the middle of the second subdiscal cell (2nd disc) (Fig 3B). In general, D. whartoni sp. nov. is more setose than D. areolatus and D. adaimei sp. nov. (Figs 1B, 4A–D). On the propodeum, laterally the anterior region of the areola, one short basal transverse keel projects to reach the lateral longitudinal keel, a characteristic also found in D. adaimei sp. nov. (Fig 4D); in D. areolatus two transverse keels reach the lateral longitudinal keel. Tegula yellowish orange (dark brown in D. areolatus). Ovipositor apex with a dorsal node as in D. areolatus, but ventral serrations are much more developed (Fig 4E).</p><p>Description Female. Length of body, excluding ovipositor 6.0– 6.9 mm.</p><p>Head. 1.5–1.3× wider than long; 1.4–1.3× wider than width of mesoscutum; midridge polished, slightly elevated, narrow between toruli and wider toward clypeus; distance between toruli equal to distance from toruli to eye (Fig 4A). Head smooth and polished, with more hairiness concentrated in the clypeus, inner margins of eyes and gena. Antenna slightly longer than body, 7.7–9.5 mm in length, with 58 to 63 flagellomeres; first flagellomere about 0.9–1.2× longer than second; 1.7–1.9× longer than wide. Eyes large, 1.3–1.4× wider than high (Fig 4C); in dorsal view, eye width 1.7–1.9× greater than width of temples; malar space 0.3–0.4× height of eyes. Clypeus 2.9– 3.8× wider than high, sinuate, distinctly protruding with median lobe on ventral margin, polished, with sparse setae two to three times longer than those on face (Fig 4A).</p><p>Mesosoma. 1.4–1.5× longer than high; 1.9–2.1× longer than wide; 1.3-1.5× higher than wide. Pronotum not visible dorsally; median lobe of mesoscutum and lateral lobes smooth and bright, with few sparse bristles, setae concentrated mainly on margins of lateral lobes (Fig 4B); notaulus smooth, complete, deeper anteriorly, shallower posteriorly, reunited in a large and polished impression without midpit (Fig 4B); scutellar sulcus divided into two large pits by median longitudinal septum; scutellum smooth with small punctures and many setae around margins, posterior portion narrower or sharper than in D. adaimei sp. nov. and in D. areolatus (Fig 4B); propodeum densely setose with median anterior basal keel (0.11–0.15) and complete posterior areola (Fig 4D); laterally, in the anterior region of the areola, one short basal transverse keel extends to reach the lateral longitudinal keel, which is prominent and distinctly curved, from the posterior half of the propodeum (Fig 4D).</p><p>Wings. Fore wing 5.8–6.4 mm length; wide stigma 3.8–4.2× longer than wide, with vein r slightly projecting from its midpoint; (RS+M)a straight, 1.4–1.7× longer than 3RSa; 2RS 1.2–1.7× longer than 3RSa, 1.3–1.5× longer than 1m-cu and 1.7–2.0× longer than r-m; 3RSa 2.3–3.3× longer than vein r; 2M 1.8–2.3× longer than 3RSa; (RS+M)b absent; vein 1cu-a slightly sloping away from 1M for 0.23–0.27 its length. Fore wing infumate with hyaline stripes at base and in median portion. Stigma, veins and setae in hyaline stripe yellow, and veins and setae on infumate stripe dark brown. Hind wing 4.0– 4.4 mm length, infumate.</p><p>Metasoma. 2.1–2.7× longer than wide and 1.0–1.4× wider than high; T1 0.8–1.0× width at apex; T1 width at apex about 1.2–1.4× width at base; non-sculptured, smooth and bright; ovipositor about 6.0 mm long (twice metasoma length); ovipositor with one subapical dorsal node and developed ventral serrations (Fig 4E); ovipositor sheath with 4–5 rows of bristles (Fig 4F).</p><p>General coloration. Yellowish orange; first two pairs of legs bright yellow, third pair with femur, trochanter, and coxa yellow, tibia and tarsi dark brown; ovipositor yellow; antenna and ovipositor sheath dark brown; apex of mandibles black; fore wing infuscate with hyaline stripe, stigma yellow; veins and setae yellow in hyaline stripe, and dark brown in infuscate stripe (Figs 1B1, 3A). Hind wings infumate, sometimes with hyaline stripes at the apex (Fig 1B1).</p><p>Male. Similar to female, but dark brown on last tergite. Head, in dorsal view, 1.23–1.30× wider than mesoscutum, 1.49–1.58× wider than face. In dorsal view, eye 1.71–1.74× wider than temple; face 1.6–2.0× wider than high; malar space 0.40–0.48× height of eyes; clypeus 2.7–3.1× wider than high; antenna with 52 to 59 flagellomeres; first flagellomere 1.0–1.2× longer than second, 1.5–1.9× longer than wide. Mesosoma 1.9–2.1× longer than wide, 1.3–1.5× higher than wide; metasoma 2.0–3.0× longer than wide, 1.0–1.5× wider than high.</p><p>Type material. Holotype. Female (DCBU 270194), BRAZIL: Amapá, Pedra Branca do Amapari, 00°46’54.9”N and 051°57’01.2”W, 01.ii.2006, reared from fruit fly larva Anastrepha atrigona in “Quina” ( Geissospermum argenteum), coll R. A. Silva. Paratypes, with same data as holotype, 1 female, (DCBU 270195), 2 males (DCBU 270196, DCBU 270197) and 1 female, 1 male (ESALQ).</p><p>Etymology. This species is named after Robert A. Wharton, in recognition of his outstanding contributions to the taxonomy of Braconidae .</p><p>GenBank accession numbers. Doryctobracon whartoni sp. nov. Amapá: FJ560534 (ITS2) and FJ560542 (28SD2).</p></div>	https://treatment.plazi.org/id/E8273615FFC5EF6BFF18FD8CFF14623D	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		MagnoliaPress via Plazi	Marinho, Cláudia F.;Cônsoli, Fernando L.;Penteado-Dias, Angélica Maria;Zucchi, Roberto A.	Marinho, Cláudia F., Cônsoli, Fernando L., Penteado-Dias, Angélica Maria, Zucchi, Roberto A. (2017): Description of two new species closely related to Doryctobracon areolatus (Szépligeti, 1911) (Hymenoptera, Braconidae), based on morphometric and molecular analyses. Zootaxa 4353 (3): 467-484, DOI: 10.11646/zootaxa.4353.3.4
E8273615FFC7EF67FF18FB7FFC8761C7.text	E8273615FFC7EF67FF18FB7FFC8761C7.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Doryctobracon adaimei Marinho & Cônsoli & Penteado-Dias & Zucchi 2017	<div><p>Doryctobracon adaimei Marinho and Penteado-Dias sp. nov.</p><p>(Figs 1 C–C 2, D–D2, E–E2, 3 B, 5 A–H)</p><p>http://www.zoobank.org/NomenclaturalActs/7 E53462 B-1C9E-4FEC-A205-4D9877675D4A</p><p>Doryctobracon sp. 2: Veloso et al. 1996 (Cerrados de Goiás, GO ex Anastrepha spp. in Pouteria gardneriana (DC.) Radlk and P. ramiflora Radlk). Bomfim et al. 2007 (Tocantins, TO ex Anastrepha coronilli in Bellucia grassularioides); Braga Filho et al. 2001, Leopoldo Bulhões, GO in Salacia crassifolia (Mart.) Peyr; Deus et al. 2010 (Pedra Branca do Amapari, AP, ex Anastrepha atrigona in Geissospermum argenteum); Silva et al. 2011 (Laranjal do Jari, ex Anastrepha atrigona in Geissospermum argenteum; ex A. fraterculus in Psidium guajava; Vitória do Jari, AP, ex A. atrigona in Geissospermum argenteum; ex A. striata in Psidium guajava).</p><p>Diagnosi s. Differs from D. areolatus in having the fore wing infumate, with a broad rounded hyaline spot from immediately after the stigma to the middle of R1a and not reaching the posterior margin of the fore wing, ending at the middle of the second subdiscal cell (2nd disc) (Fig 3B). Stigma dark brown (Fig 3B). In D. whartoni sp. nov. the fore wing has a hyaline spot in the anal area and a hyaline stripe in the central portion, and the stigma is yellow (Fig 3A). Hind legs with chromatic variations (orange, orange-brown, dark brown to black) on the entire leg or on part of it (Fig 1C 2, D2, E2). Tegula yellowish orange as in D. whartoni sp. nov. (dark brown in D. areolatus). Propodeum with one short basal transverse keel projecting laterally in the anterior portion of the areola reaching the longitudinal lateral keel, as in D. whartoni sp. nov. (Fig 5D). Ovipositor apex similar to D. areolatus, with a dorsal node and ventral serrations (Fig 5G). Ventral serrations morphologically similar to those of D. areolatus . In D. whartoni sp. nov., the serrations are more conspicuous and distinct (Fig 4E).</p><p>Description Female. Length of body, excluding ovipositor 5.5–6.3 mm.</p><p>Head. 1.4–1.2× wider than long; 1.5–1.3× wider than width of mesoscutum. Face polished, bright, and distinctly setose; midridge smoother, restricted between toruli (Fig 5A); distance between toruli equal to distance from toruli to eye (Fig 5A). Antenna longer than body, 8.4–8.7 mm in length, with 53 to 55 flagellomeres, first flagellomeres about 1.1–1.2× longer than second; 1.5–2.1× longer than wide. Eye large, 1.2–1.3× wider than high (Fig 5C); in dorsal view, eye 1.6–2.0× wider than temples; malar space 0.4–0.5× longer than height of eyes. Clypeus 2.6–3.9× wider than high, polished, slightly convex and lateral margin slightly curved with sparse setae two to three times longer than setae on face (Fig 5A); clypeus sinuate, similar to D. whartoni sp. nov., protruding as lobe medially on ventral margin; labrum partially covered by clypeus; distinct opening between clypeus and mandibles (Fig 5A).</p><p>Mesosoma. 1.2–1.5× longer than high; 1.7–2.0× longer than wide; 1.3–1.5× higher than wide; pronotum not visible dorsally; median lobe of mesoscutum and lateral lobes as in D. whartoni sp. nov., polished, shiny with few sparse setae; margins of lateral lobes with few setae and shorter than D. whartoni sp. nov. (Fig 5B); notaulus smooth, complete, deeper anterior to margin of mesoscutum and later shallower, reunited in broad and polished impression without midpit (Fig 5B); scutellar groove divided into two large pits by median longitudinal septum; scutellum smooth with few or weak punctures, few setae on margins, robust or wide in apical portion, similar to D. areolatus (Fig 5B); mesopleuron smooth; propodeum setose with median anterior basal keel (0.11–0.15) and complete posterior areola. As in D. whartoni sp. nov., laterally, in the anterior region of the areola, one short basal transverse keel extends to reach the lateral longitudinal keel, which is prominent and distinctly curved, from the posterior half of the propodeum (Fig 5D).</p><p>Wings. Fore wing 5.3–6.3 mm length; stigma wide, 3.0–4.2× longer than wide, with vein r slightly projecting from midpoint; (RS+M)a slightly sinuate posteriorly, 1.0–1.6× longer than 3RSa; 2RS 0.7–1.3× longer than 3RSa, 1.2–1.5× longer than 1m-cu and 1.6–2.6× longer than r-m; 3RSa 1.9–3.0× longer than r; 3RSb ending almost at wing tip; 2M 1.6–1.9× longer than 3RSa; (RS+M)b absent; 1cu-a straight line separated from 1M by 0.17–0.30 in length. Fore wing with a rounded hyaline spot that begins from immediately after stigma and ends in the middle of R1a, and before the wing posterior margin at second subdiscal cell (2nd disc). Length of hind wing 3.4–5.0 mm with m-cu, curved, distinctly pigmented just beyond the half toward to the wing margin.</p><p>Metasoma. 1.2–2.3× longer than wide and 1.0–2.3× wider than high; T1 length 0.9–1.0 mm greater than apex width; metasoma not sculptured, smooth and bright; T1 apex about 1.2–1.4× width of base; T1 with two dorsal keels developed at the base that gradually decrease from the posterior half, becoming weak or indistinct (Fig 5E); spiracles in half of T1 modified in two oval structures that protrude from the smooth surface, with or without setae (Fig 5E, F); ovipositor about 5.5–6.3 mm long; ovipositor tip with a dorsal node and ventral serrations that are less developed than in D. whartoni sp. nov. (Fig 5G); ovipositor sheath twice metasoma length, with 4–5 rows of setae (Fig 5H).</p><p>General coloration. Yellowish orange; first and second pair of legs bright yellow, third pair quite variable, may have all segments with blackish or dark-brown spots (Fig 1C 2); tibiae and tarsi brown (Fig 1D 2) or coxa, trochanters, and femur yellow (Fig 1E 2); tegula yellowish orange; ovipositor sheath and antenna dark brown; apices of mandibles black; T2, T3, and T 4 may have black stripes; wings infumate; fore wing with broad rounded hyaline spot that begins from immediately after stigma to middle of R1a and in middle of second subdiscal cell (2nd disc). Veins and setae yellow in the hyaline spot; stigma, veins, and bristles dark brown in infumate area (Fig 3B).</p><p>Male. Similar to females, but usually last tergite with dark-brown or black spots. Head in dorsal view 1.7× wider than mesoscutum width, 2.0× wider than face; in dorsal view, eye 1.85× wider than temple; face 1.5–1.7× wider than high; malar space 0.42–0.44× height of eyes; clypeus 2.9–3.2× wider than high; antennae with 50 to 51 flagellomeres; first flagellomere 1.1-1.2× longer than second, 1.8–1.9× longer than wide; mesosoma 1.9× longer than wide, 1.3–1.4× higher than wide; metasoma 2.4–2.7× longer than wide, 1.1–1.4 wider than high.</p><p>Type material. Holotype. Female (DCBU 270198), BRAZIL: Amapá, Serra do Navio, 00°55’57.0”N, and 051°55’14.8”W 01.ii.2006, reared from fruit fly larva in fruits of guava ( Psidium guajava), collr. R. A. Silva. Paratypes, with same data as holotype, 2 females (DCBU 270199, DCBU 270200), 1 male (DCBU 270201), collr. R. A. Silva and 1 female (ESALQ); 1 male, Tocantins, 28.ii.2005, reared from fruit fly larva Anastrepha coronilli in “Goiaba-de-anta” ( Bellucia grossularioides L.), collr. M. A. Uchôa-Fernandes; 2 females, 1 male, Goiás, Leopoldo Bulhões, 14. ix. 1999, reared from fruit fly larva Anastrepha spp. In “bacupari” ( Salacia crassifolia) collr. V.R.S Veloso, (ESALQ).</p><p>Etymology. This species is named after Ricardo Adaime, who has provided valuable information of many Anastrepha species, their host fruits, and parasitoids in Amapá, Brazil.</p><p>GenBank accession numbers. Doryctobracon adaimei sp. nov. Amapá, FJ560535 (ITS2) ; Tocantins, FJ560536 (ITS2); Goiás, FJ560537 (ITS2); Amapá, FJ560543 (28SD2); Tocantins, FJ560544 (28SD2); Goiás, FJ560545 (28SD2).</p><p>Morphometry. Geometric morphometry generated 36 relative deformation measurements (k=2n–4), where k represents the total number of relative deformations, and n the number of anatomical markers (20). The results of the multivariate analysis (CVA) of populations of male and female D. areolatus, D. whartoni sp. nov. and D. adaimei sp. nov. were statistically significant, Wilks’ Lambda (p &lt;0.0001), Pillai’s Trace (p &lt;0.0001), Hotelling- Lawley Trace (p &lt;0.0001), and Roy’s Greatest Root (p &lt;0.0001). The first two canonical axes explained 66.0% and 15.7% of the data variability, respectively. In the scatter plot, we observed the complete separation of the population groups in the space of canonical variables CV1 and CV2 (Fig 6). Specimens termed D. whartoni sp. nov., collected only in the state of Amapá, formed an isolated group of D. adaimei sp. nov. and of D. areolatus . Doryctobracon adaimei sp. nov. separated completely from the groups formed by the other species and revealed total overlap of their populations collected in the states of Goiás and Amapá; among the populations of D. areolatus, there was also the formation of distinct grouping with D. whartoni sp. nov. and D. adaimei sp. nov., and total overlap of their populations in the states of Amapá, Tocantins, Goiás and São Paulo (Fig 6). The Mahalanobis distance matrix revealed a lower degree of morphological similarity for D. whartoni sp. nov. in relation to the distinct populations of D. areolatus and D. adaimei sp. nov. We also observed the same result for population of D. adaimei sp. nov. in relation to the populations of D. areolatus; however, the Mahalanobis distances between samples of D. whartoni sp. nov. and D. adaimei sp. nov. were fairly wide, i.e. D. whartoni sp. nov. (AP) - D. adaimei sp. nov. (AP) = 38.39%, and D. whartoni sp. nov. (AP) - D. adaimei sp. nov. (GO) = 34.96% (Fig 7, Table 2).</p><p>Molecular markers. We detected intraspecific size variation for both molecular markers tested when comparing populations of D. areolatus from different geographical regions. The size variation was larger for the ITS2, which ranged from 564 bp for D. areolatus from the state of Amapá to 590 bp for specimens from the state of São Paulo. ITS2 was 587 bp long in samples from the states of Goiás and Tocantins. The size of 28S-D2 from samples of D. areolatus differed by no more than 5 bp in length, ranging from 381 bp for specimens from Amapá to 386 bp for those from Goiás. Specimens from Tocantins and São Paulo had intermediate sizes (384 and 385 bp, respectively). Despite the variation in size, these markers shared very high sequence similarities (Table 3). However, no size variation was observed for both markers for the species identified as D. whartoni sp. nov. and D. adaimei sp. nov. ITS2 for D. whartoni sp. nov. from Amapá was 585 bp long, while ITS2 for D. adaimei sp. nov. from Amapá, Tocantins, and Goiás was 567 bp in length. The 28S-D2 of D. whartoni sp. nov. from Amapá was 385 bp long, and 386 (Amapá and Tocantins) and 387 bp long (Goiás) for specimens of D. adaimei sp. nov. Pairwise sequence similarities of ITS2 and 28S-D2 among D. whartoni sp. nov., D. adaimei sp. nov., and D. areolatus were very low (Table 3).</p><p>Phylogenetic reconstruction of specimens of Doryctobracon species based on the isolated and concatenated sequences of the molecular markers ITS2 and 28S-D2, using maximum likelihood (ML) and neighbor-joining (NJ) methods, produced trees sharing similar topologies and well-defined clades (Fig 8). In all cases, molecular analysis consistently indicated variation in D. areolatus from different collection sites (Amapá, Goiás, Tocantins, and São Paulo), with specimens from Amapá being the most divergent. The most variation in clade definition between the ML and NJ methods was found for the positioning of D. areolatus from Amapá and D. whartoni sp. nov. (Fig 8). Nevertheless, the topologies produced with the concatenated sequences left no doubts regarding the external grouping of specimens of D. areolatus from Amapá from a more internal clade of D. areolatus from the other states. In the concatenated analysis, D. whartoni sp. nov. resolved in a subclade with the divergent D. areolatus from Amapá, but was positioned on a long branch away from D. areolatus (Fig 8C). The remaining samples of D. areolatus grouped together in a more internal subclade (Fig 8). Samples of D. adaimei sp. nov. always resolved in a defined clade, in the analysis with either the isolated or concatenated molecular markers. In the analysis with the concatenated sequences, the clade of D. adaimei sp. nov. was the first to branch out from all of the remaining samples. The NJ analysis resolved specimens belonging to D. adaimei sp. nov. from Amapá and Tocantins in a more internal subclade from specimens from Goiás, while ML placed specimens from all three populations in a single clade separated from each other by short branches (Fig 8).</p></div>	https://treatment.plazi.org/id/E8273615FFC7EF67FF18FB7FFC8761C7	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		MagnoliaPress via Plazi	Marinho, Cláudia F.;Cônsoli, Fernando L.;Penteado-Dias, Angélica Maria;Zucchi, Roberto A.	Marinho, Cláudia F., Cônsoli, Fernando L., Penteado-Dias, Angélica Maria, Zucchi, Roberto A. (2017): Description of two new species closely related to Doryctobracon areolatus (Szépligeti, 1911) (Hymenoptera, Braconidae), based on morphometric and molecular analyses. Zootaxa 4353 (3): 467-484, DOI: 10.11646/zootaxa.4353.3.4
