69,841 research outputs found
M. N. Shaw, International Law, 4e éd
M. N. Shaw, International Law, 4e éd. In: Revue internationale de droit comparé. Vol. 50 N°3, Juillet-septembre 1998. p. 985
M. N. Shaw, International Law, 4e éd
M. N. Shaw, International Law, 4e éd. In: Revue internationale de droit comparé. Vol. 50 N°3, Juillet-septembre 1998. p. 985
Hele-Shaw Flow Near Cusp Singularities
This thesis discusses the radial version of the Hele-Shaw problem. Different from the channel version, traveling-wave solutions do not exist in this version. Under algebraic potentials, in the case that the droplets expand, in finite time, cusps will appear on the boundary and classical solutions may not exist afterwards. Physicists have suggested that for (2p+1,2)-cusps, that near cusp singularities of Hele-Shaw flow, after scaling X, Y by some powers of time t respectively, the main part of Y(X, t) is a one-parameter family and does not depend on time t. They have also suggested that the solutions of the Hele-Shaw problem are connected with dispersionless KdV (dKdV) hierarchy. In this study, we rigorously proved that this is the case for (3,2)-cusps when the droplets are simply connected and the external potentials are algebraic. We gave exact solutions and showed that the main parts of the exact solutions are some special solutions of the dispersionless string equation. More over, borrowed from the physical paper\cite{Teo} with a little more details, we showed the arguments of how these special solutions are related to dKdV hierarchy
Microgastrinae (Hymenoptera: Braconidae) parasitizing Epirrita autumnata (Lepidoptera: Geometridae) larvae in Fennoscandia with description of Cotesia autumnatae Shaw, sp. n.
The microgastrine subset of hymenopteran parasitoids of the geometrid Epirrita
autumnata is investigated in Fennoscandia. Ecology, including population dynamics,
of the moth has been intensively studied in northern and mountainous
Finland, Norway and Sweden. Recently supported hypotheses about the causes
of its cyclic population dynamics stress the role of parasitoids, while the
parasitoid complex with some 15 species is insufficiently known. The complex
includes four solitarymicrogastrine species, Protapanteles anchisiades (Nixon),
P. immunis (Wesmael), Cotesia salebrosa (Marshall) and C. autumnatae Shaw,
sp. n. Here, we provide detailed figures for the latter, which is morphologically
close to C. jucunda (Marshall), and describe the species as new to science. We
also providemore general habitus figures of the other three species, as well as an
identification key for the four species, aiming to aid recognition of these species
by ecologists dealingwithmicrogastrine parasitoids of E. autumnata and their alternative
geometrid hosts
Shaw and Feminisms On Stage and Off
When offstage actions contradict a playwright's onstage message, literary study gets messy. In his personal relationships, George Bernard Shaw was often ambivalent toward liberated women--surprisingly so, considering his reputation as one of the first champions of women's rights. His private attitudes sit uncomfortably beside his public philosophies that were so foundational to first-wave feminism. Here, Shaw's long-recognized influence on feminism is reexamined through the lens of twenty-first-century feminist thought as well as previously unpublished primary sources. New links appear between Shaw's writings and his gendered notions of physicality, pain, performance, nationalism, authorship, and politics. The book's archival material includes previously unpublished Shaw correspondence and excerpts from the works of his feminist playwright contemporaries. Shaw and Feminisms explores Shaw's strong female characters, his real-life involvement with women, and his continuing impact on theater and politics today.Cover -- Contents -- Foreword -- Acknowledgments -- Introduction -- PART I. THE WOMESN IN SHAW'S PLSYS -- 1. Shaw's Athletic-Minded Women -- 2. Shaw and Cruelty -- 3. Shutting Out Mother: Vivie Warren as the New Woman -- 4. The Politics of Shaw's Irish Women in John Bull's Other Island -- PATE II. SHAW'S RELATIONSHIP WITH WOMEN -- 5. Bernard Shaw and the Archbishop's Daughter -- 6. Writing Women: Shaw and Feminism behind the Scenes -- 7. Feminist Politics and the Two Irish "Georges": Egerton versus Shaw -- 8. The Passionate Anarchist and Her Idea Man -- PART III. SHAVLAN FEMINISM IN THE LARGER WORLD -- 9. Mrs Warren's Profession and the Development of Transnational Chinese Feminism -- 10. Shaw's Women in the World -- 11. The Energy behind the Anomaly: In Conversation with Jackie Maxwell -- Bibliography -- Contributors -- Index -- A -- B -- C -- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N -- O -- P -- Q -- R -- S -- T -- V -- W -- X -- Y -- ZWhen offstage actions contradict a playwright's onstage message, literary study gets messy. In his personal relationships, George Bernard Shaw was often ambivalent toward liberated women--surprisingly so, considering his reputation as one of the first champions of women's rights. His private attitudes sit uncomfortably beside his public philosophies that were so foundational to first-wave feminism. Here, Shaw's long-recognized influence on feminism is reexamined through the lens of twenty-first-century feminist thought as well as previously unpublished primary sources. New links appear between Shaw's writings and his gendered notions of physicality, pain, performance, nationalism, authorship, and politics. The book's archival material includes previously unpublished Shaw correspondence and excerpts from the works of his feminist playwright contemporaries. Shaw and Feminisms explores Shaw's strong female characters, his real-life involvement with women, and his continuing impact on theater and politics today.Description based on publisher supplied metadata and other sources.Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, YYYY. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries
Joan of Arc in Shakespeare, twain and shaw
Dissertação (mestrado) - Universidade Federal de Santa Catarina, Florianópolis, 1983
Dinapsis cresta Mita & Shaw 2020, n. sp.
Dinapsis cresta Mita & Shaw, n. sp. Figs 35–38 Materials examined. Holotype: ♀, “CASENT/ 2009739”, “ MADAGASCAR: Province / Diego-Suarez, Parc National/ Montagne d’Ambre ”, “el 1125 m, 4–19 March 2001 / 12°31’13”S, 49°10’45”E / R. Harin’Hala collector/ Malaise trap MA-01-01D-05”. Paratypes: [Madagascar] 1♀, same as holotype, but 19. III –5. IV; 1♀, Toamasina Prov., botanic garden near entrance to Andasibe National Park (1025 m alt.), 18°55.58’S, 48°24.47’E, 8–16. X. 2001 (MsT), R. Harin’Hala leg.; 1♀, Toliara Prov., Analavelona Classified Forest, 29.2 km 343° NNW of Mahaboboka (1100 m alt.), 22°40’30”S 044°11’24”E, 18–22. II. 2003 (YPT), Fisher, Griswold et al. leg. Description. (Female) Head (Figs 37, 38) sparsely covered with short setae on frons and dorsal surface of vertex, long setae on posterior surface of vertex and gena; frons and dorsal surface of vertex weakly rounded, with small scattered punctures; transversal elevation present on lower part of frons; row of punctures behind anterior ocellus present; outer margin of each ocellus bearing crescent-shaped depression; vertex produced dorsally forming low carina; posterior surface of vertex reticulate; orbital carina present; gena smooth with suborbital irregular carina present, not reaching subocular suture; occipital carina with lateral collar developed; clypeus smooth; POL: OOL: OL: OPL = 1.0: 1.2–1.3: 0.9–1.0: 0.5–0.6. Mesosoma (Fig. 35): Mesonotum sparsely covered with long erect setae; mesoscutum with small scattered punctures, not humped, with deep median sulcus continuous to apex; anterior surface forming lateral carina; dorsal surface flat in lateral view, with anterior margin not excavated; short depression of parapsides present; lateral lobe absent; axilla smooth, flat; scuto-scutellar sulcus deep, forming continuous groove; scutellum smooth, flat; mesepimeron indicated by groove with short transverse carinae; mesepisternum hairless anteriorly, ventral surface hairy; metanotum hairy, densely covered with minute punctures; propodeum with paired longitudinal median, submedian, and lateral carinae: carinae parallel; surface between longitudinal carinae transversely striated; posterior margin of median region weakly producing dorsally (Fig. 36, arrow); posterior strong transversal carinae indistinct. Forewing (Fig. 35) hyaline; vein M 1.7–1.9 × basal part of RS. Hind coxa bearing longitudinal carina, weakly striated dorsally, weakly shagreened distally; distal apex of hind tibia (Fig. 35) not produced, bearing simple setae. Metasoma smooth but anterior surface of 6th and entire 7–8th metasomal tergites shagreened; ovipositor 1.67– 1.79 × mesosoma length, apex bearing small teeth and single knob. Color. Head black; clypeus dark brown; mandible brown; antenna testaceous with 5–7th flagellomeres paler, 8–12th flagellomeres dark brown (Fig. 35). Mesosoma black but propleuron dark brown. Legs testaceous but trochanters whitish, hind coxa blackish, and hind femur dark brown. Metasoma dark brown. Ovipositor brown. Ovipositor sheath dark brown. Measurements (in mm). Head 0.66–0.84 long, 0.84–1.00 wide; mesosoma 1.12–1.40 long; mesoscutum 0.66– 0.78 wide; propodeal disc 0.46–0.54 long, 0.58–0.74 wide; forewing 2.60–3.10 long; metasoma 1.40–1.76 long, 0.66–0.84 wide; ovipositor 1.95–2.50 long; total body length excluding ovipositor 3.32–3.70. (Male) Unknown. Distribution. Known from northern, eastern, and southwestern Madagascar (Fig. 42): Antsiranana Prov.; Toamasina Prov.; Toliara Prov. Etymology. The specific epithet is derived from the Latin word for “crest,” referring to the crested projection on the posterior margin of the propodeum. Notes. This species is similar to Dinapsis albicauda Mita & Shaw, n. sp. but can be distinguished by its entirely brown ovipositor sheath. For other characters useful in their separation, see the notes for D. albicauda, n. sp.Published as part of Mita, Toshiharu & Shaw, Scott Richard, 2020, A taxonomic study of Dinapsis Waterson, 1922 from Madagascar (Hymenoptera Megalyridae, Dinapsini): crested wasps of the hirtipes species-group, pp. 71-84 in Zootaxa 4858 (1) on pages 81-83, DOI: 10.11646/zootaxa.4858.1.4, http://zenodo.org/record/441156
Free boundary problems in a Hele-Shaw cell
The motion of a free boundary separating two immiscible fluids in an unbounded Hele-Shaw cell is considered. In the one-phase problem, a viscous fluid is separated from an inviscid fluid by a simple closed boundary. Preliminaries for a complex variable technique are presented by which the one-phase problem can be solved explicitly via conformal mappings. The Schwarz function of the boundary plays a major role giving rise to the so called Schwarz function equation which governs the evolution of exact solutions. The Schwarz function approach is used to study the stability of a translating elliptical bubble due to a uniform background flow, and the stability of a blob (or bubble) subject to an external electric field. The one-phase problem of a translating free boundary and of a free boundary subject to an external field are studied numerically. A boundary integral method is formulated in the complex plane by considering the Cauchy integral formula and the complex velocity of a fluid particle on the free boundary. In the case of a free boundary subject to an external electric field due to a point charge, it is demonstrated that a stable steady state is achieved for appropriate charge strength. The method is also employed to study breakup of a single translating bubble in which the Schwarz function singularities (shown to be stationary) of the initial boundary play an important role. The two-phase problem is also considered, where the free boundary now separates two viscous fluids, and the construction of exact solutions is studied. The one-phase numerical model is enhanced, where a boundary integral method is formulated to accommodate the variable pressure in both viscous phases. Some numerical experiments are presented with a comparison to analytical results, in particular for the case where the free boundary is driven by a uniform background flow
Meteorus juliae Aguirre & Shaw 2014, n. sp.
Meteorus juliae Aguirre & Shaw n. sp. (Figs. 13–16) Diagnosis. Mandibles twisted, occipital carina incomplete, ocelli ocular distance equal to ocellar diameter, vertex in dorsal view descending vertically behind the lateral ocelli, notauli not distinctive, vein m-cu of forewing intersticial, tarsal claw with large lobe, propodeum aerolate and rugose, dorsope and laterope absent, T1 totally black, ventral borders of first tergite joined completely along 1/2 of segment. Body color. Antenna dark brown; annulus absent; head orange except area between ocelli black; propleuron yellow; pronotum yellow; mesonotal lobes black-dark brown; notauli, scutellum and area between lobes yellow; mesopleuron medially yellow, ventrally black-dark brown; metapleuron yellow; propodeum black; prothoracic legs yellow; mesothoracic legs yellow except trochantellus dark-brown; metathoracic legs with coxa yellow basally and dark brown apically, trochanter yellow basally and brown apically, trochantellus brown, femur yellow except brown apically, tibia and tarsus light brown; T1 black; T2–T8 black-dark brown; sterna yellow-cream; wings hyaline. Body length. 4.4 mm. Head. Antenna with 31 flagellomeres; flagellar length/width ratios as follows: F1 = 2.7, F2 = 2.7, F3 = 2.3, F29 = 2, F30 = 2.4, F31 = 4.5; head 1.2 x wider than high; occipital carina incomplete; ocelli ocular distance equal to ocellar diameter; head height 1.4 x eye height; temples length 0.6 x eyes length in dorsal view; vertex in dorsal view descending vertically behind the lateral ocelli; frons smooth and polished; maximum face width 1.1 x minimum face width; face strigulate; minimum face width 1.1 x clypeus width; clypeus strigulate; malar space length 0.6 x mandible width basally; mandibles twisted. Mesosoma. Pronotum in lateral view carinate and rugose; propleuron with disperse punctures; notauli not distinctive; notauli rugose with a pronounced longitudinal carina; mesonotal lobes not well defined; central lobe of mesoscutum rugulose with a faint longitudinal carina; scutellar furrow with three clearly marked carinae; mesopleuron punctate; sternaulus long, narrow and carinate-foveate; metapleuron rugulose; propodeum aerolaterugose; longitudinal and transversal carinae on propodeum absent; median depression on propodeum absent; Legs. Hind coxa strigate and punctate; tarsal claw with large lobe; Wings. Wing length 4 mm; second submarginal cell of forewing not strongly narrowed anteriorly; length of vein r 0.7 x length of 3Rsa; length of vein 3RSa 0.8 x length of rm; vein m-cu of forewing intersticial; length of vein 1M 1.5 x length of cu-a; length of vein 1M 0.9 x length of 1r-m. Metasoma. Dorsope and laterope absent; ventral borders of first tergite joined completely along 1/2 of segment; first tergite with costae parallel; ovipositor 1.3 x longer than first tergite; ovipositor thickened basally and sinuous. Cocoon (Fig. 18). Length 5.5 mm; width 2.1 mm; honey-brown translucent except apex cap golden. Cocoons loosely clumped around an axis composed of twisted shared suspending threads. The thread is approximately 2.5 cm long. Each cocoon is elongate-oval, loosely wrapped by silk, the edge of the emergence hole and the cap is smooth and neat, the posterior end is nipple-shaped. Female variation. Antenna with 31-32 flagellomeres; head 1.1–1.2 x wider than high; maximum face width 1.1–1.2 x minimum face width; malar space length 0.6–0.8 x mandible width basally; length of vein r 0.6–0.8 x length of 3Rsa; length of vein 1M 1.2–1.5 x length of cu-a; wing length 4–4.3 mm; ovipositor 1.3–1.6 x longer than first tergite. Male variation. Prothoracic legs yellow except telotarsus brown; mesothoracic legs yellow except trochantellus and telotarsus brown; body length 4.2 mm. Comments. M. juliae shares with M. quasifabatus and M. anuae the following combination of characters: mandibles twisted, notauli not distinctive, tarsal with large lobe, dorsope and laterope absent, and ventral borders of first tergite joined completely along ½ of segment. M. juliae can be easily separated from M. quasifabatus by having mesonotal lobes dark brown (yellow in M. quasifabatus), antenna with 31–32 flagellomeres (29 in M. quasifabatus), ocelli ocular distance equal to ocellar diameter (1.3–1.6 x in M. quasifabatus), head height 1.4 x eye height (1.6–1.7 x in M. quasifabatus), ovipositor 1.3–1.6 x longer than first tergite (2–2.2 x in M. quasifabatus). M. juliae can be differentiated from M. anuae by having antenna with 31–32 flagellomeres (29 in M. anuae), occipital carina incomplete, malar space length 0.6–0.8 x mandible width basally (0.5 x in M. anuae) and vein m-cu of forewing intersticial (antefurcal in M. anuae). Holotype. Female (point mounted), ECUADOR, Napo Province, Yanayacu Biological Station, S 00°35.9’ W 77°53.4’, 2163 m, host collected 4 March 2010, as parasitoid of Arctiinae larva 3 th instar on Dendrophorbium iloense (Hieron.) C. Jeffrey (Asteraceae), pupated 10 March 2010, adult parasitoid emerged 29 March 2010, YY 45650 (rearing code). Deposited in UWIM. Paratypes. Three females and 5 males, same data as the holotype. Deposited at UWIM. Distribution. ECUADOR, Napo Province, Yanayacu Biological Station, High Andean Cloud Forest, 2163 m. Biology (Fig. 17). Reared from Arctiinae 3 th instar larva feeding on Dendrophorbium lloense. Based on the collecting, pupation and emergence dates the minimum development time as larva is 6 days and the development time in the pupal stage is 19 days. Etymology. This species is named after our entomologist colleague Julia Stigenberg whose valuable research has shed light on the complex phylogenetic relationships for the Meteorus species from the Palearctic region.Published as part of Aguirre, Helmuth & Shaw, Scott R., 2014, Neotropical species of Meteorus Haliday (Hymenoptera: Braconidae: Meteorinae) parasitizing Arctiinae (Lepidoptera: Noctuoidea: Erebidae), pp. 353-367 in Zootaxa 3779 (3) on pages 358-360, DOI: 10.11646/zootaxa.3779.3.3, http://zenodo.org/record/491041
Meteorus mirandae Aguirre & Shaw 2014, n. sp.
Meteorus mirandae Aguirre & Shaw n. sp. (Figs. 19–22) Diagnosis. Mandibles twisted; occipital carina incomplete; notauli distinctive; propodeum aerolate-rugose; hind coxa punctate and polished; tarsal claw with large lobe; vein m-cu of forewing posfurcal; ventral borders of first tergite joined completely along ½ of segment. Body color. Antenna dark brown; annulus absent; head orange except area between ocelli black and a couple of longitudinal dark brown patches on the frons behind each scape; propleuron yellow; pronotum orange; mesonotum black except both a patch between mesonotal lobes and scutellum yellow; mesopleuron black; metapleuron yellowwhite; propodeum black dorsally and white posteriorly; prothoracic legs yellow except telotarsus brown. Mesothoracic legs with coxa black dorsally and yellow ventrally; trochanter and trochantellus brown; femur yellow; tibia basally yellow-white, medially light brown and apically yellow; tarsus with tarsomeres 1–4 brown, telotarsus dark brown. Metathoracic legs with coxa black dorsally and yellow-white ventrally, on the posterior edge both colors touch to each other along a sinuated line; trochanter and trochantellus black; femur basally black, medially brown, close to the apex light brown and a small dark brown ring around the apical border; tibia apically white, brown the rest; tarsus brown; T1 basally and medially white, apically the white area narrows and becomes flanked laterally by black patches; T2–T8 black dorsally, white-cream laterally; sterna white; wings hyaline. Body length. 4.1 mm. Head. Antenna with 29 flagellomeres; flagellar length/width ratios as follows: F1 = 3; F2 = 3; F3 = 2.8; F27 = 2; F28 = 2; F29 = 2.7; head 1.2 wider than high; occipital carina incomplete; ocelli ocular distance 1.6 x ocellar diameter; head height 1.6 x eye height; temples length 0.7 x eyes length in dorsal view; vertex in dorsal view descending vertically behind the lateral ocelli; frons smooth and polished; maximum face width 1.2 x minimum face width; face strigulate; minimum face width 1.2 x clypeus width; clypeus rugulose-strigulate; malar space length equal to mandible width basally; mandibles twisted. Mesosoma. Pronotum in lateral view carinate on the dorsal and posterior borders; propleuron smooth and polished; notauli distinctive and rugose; mesonotal lobes well defined; central lobe of mesoscutum puncticulate; scutellar furrow with three carinae; mesopleuron puncticulate; sternaulus short, narrow and foveate; metapleuron punctate dorsally and foveate ventrally; propodeum aerolate-rugose; longitudinal and transversal carinae on propodeum absent; median depression on propodeum slightly present. Legs. Hind coxa punctate and polished; tarsal claw with large lobe. Wings. Wing length 4 mm; second submarginal cell of forewing not strongly narrowed anteriorly; length of vein r 0.6 x length of 3Rsa; length of vein 3RSa 0.9 x length of rm; length of vein m-cu of forewing postfurcal; length of vein 1M equal to length of cu-a; length of vein 1M equal to length of 1r-m. Metasoma. Dorsope and laterope absent; ventral borders of first tergite joined completely along 1/2 of segment; first tergite smooth basally and medially, with convergent costae apically; ovipositor 1.9 x longer than first tergite; ovipositor thickened basally and straight. Cocoon (Fig. 24). Length 3.9 mm; width 1.7 mm; honey translucent; length of thread attached at the cocoon’s anterior end 11–24 mm, cocoon loosely enveloped by thread, anterior end rounded, emergence hole border neat, cap missed. Female variation. Body length 3.7–4.1 mm; head 1.1–1.2 wider than high; maximum face width 1.1–1.2 x minimum face width; minimum face width 1.2–1.3 x clypeus width; wing length 3.9–4 mm; length of vein r 0.6– 0.8 x length of 3Rsa; length of vein 1M 1–1.5 x length of cu-a; length of vein 1M 0.8–1 x length of 1r-m. Male variation. Mesopleuron black to dark brown; antenna with 29–30 flagellomeres; temples length 0.6–0.8 x eyes length in dorsal view; malar space length 1–1.3 x mandible width basally; ocelli ocular distance 1.3–1.4 x ocellar diameter; notauli rugose or rugose and carinate; T1 smooth basally, with convergent costae medially and apically. Comments. Following the key published by Jones and Shaw (2012) Meteorus mirandae matches M. caritatis Jones, but can be separated by the complete occipital carina, strigate face (smooth in M. caritatis) and short, narrow and foveate sternaulus (M. caritatis lacks of sternaulus). Meteorus mirandae shares with M. oreo an incomplete occipital carina, twisted mandibles, distinctive notauli, punctate and polished hind coxa, and similar ovipositor relative length. However, M. mirandae is easy to separate from M. oreo by the characters provided in the key. Holotype. Female (point mounted) ECUADOR, Napo Province, Yanayacu Biological Station, San Isidro Forest, S 00°35.9' W 77°53.4', 2163 m, collected 17 July 2009 as 3 th instar larva parasitoid of Saurita mosca (Arctiinae: Ctenuchinae) on Diplazium costale var robustum (Dryopteridaceae), parasitoid pupated 20 July 2009, parasitoid emerged 6 August 2009, YY 40047 (rearing code). Deposited at UWIM Paratypes. One female, ECUADOR, Napo Province, Yanayacu Biological Station, Las Palmas parte alta, S 00°35.9' W 77°53.4', 2163 m, collected 1 November 2005 as cocoon hanging from leaf of Araceae, adult wasp emerged 6 November 2005, YY 54420 (rearing code); 1 male, ECUADOR, Napo Province, Yanayacu Biological Station, S 00°35.9' W 77°53.4', 2163 m, Sendero stream trail, collected 26 January 2011 as 3 th instar larva parasitoid of Arctiinae on Chusquea scandens (Poaceae), parasitoid pupated 24 February 2011, parasitoid emerged 11 March 2011, YY 29866 (rearing code). 1 male, ECUADOR, Napo Province, Yanayacu Biological Station, S 00°35.9' W 77°53.4', 2163 m, collected 10 June 2009 as 3 th instar larva parasitoid of Saurita mosca Dognin (Arctiinae: Ctenuchinae) on Chusquea scandens (Poaceae), parasitoid pupated 16 June 2009, parasitoid emerged 15 July 2009, YY 39076 (rearing code). 1 male, ECUADOR, Napo Province, Yanayacu Biological Station, S 00°35.9' W 77°53.4', 2163 m, collected 28 February 2008 as 3 th instar larva parasitoid of Saurita mosca Dognin (Arctiinae: Ctenuchinae) on Chusquea scandens (Poaceae), parasitoid pupated 24 March 2008, parasitoid emerged 15 April 2008, YY 9158 (rearing code). Distribution. ECUADOR, Napo Province, Yanayacu Biological Station, High Andean Cloud Forest, 2163 m. Biology (Figs. 23 and 25). Parasitoid of 3 th instar larva of Saurita mosca (Arctiinae: Ctenuchinae) feeding on Diplazium costale var robustum (Dryopteridaceae) and Chusquea scandens (Poaceae). At Las Palmas location cocoons of M. mirandae were found hanging on a leaf of Araceae. Based on the collecting, pupation and emergence dates, the minimum average larval development time is 16 days and the average time inside the cocoon is 21 days. Etymology. This species is named after our enthusiastic entomologist colleague, Miranda Bryant Talluto, who is currently working on the taxonomy and ecology of Braconidae at the Ecuadorian cloud forest of Yanayacu.Published as part of Aguirre, Helmuth & Shaw, Scott R., 2014, Neotropical species of Meteorus Haliday (Hymenoptera: Braconidae: Meteorinae) parasitizing Arctiinae (Lepidoptera: Noctuoidea: Erebidae), pp. 353-367 in Zootaxa 3779 (3) on pages 361-365, DOI: 10.11646/zootaxa.3779.3.3, http://zenodo.org/record/491041
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