10,419 research outputs found
Triplocania umbrataoides Silva-Neto & Aldrete & Rafael 2018, sp. nov.
<i>Triplocania umbrataoides</i> sp. nov. <p> <i>Triplocania umbrata</i> García Aldrete, 1999: 164-165: male-female association by error). (Figs. 27-41).</p> <p> <b>Diagnosis:</b> Forewing veins R₂₊₃ to Cu1a with a brown spot at wing margin, from M1 to anterior end of wing, the vein spots connected to form a slender marginal band; other brown areas as illustrated (Figs. 28-29); setae of the forewing veins arising from brown areolae; vein Rs notably longer than R₂₊₃, R₄₊₅ and M stem, this concave before its first bifurcation. Hypandrium with a large central sclerite, anteriorly convex, with mesal processes directed outwards; posterior process stout; distally cleft in the middle, with projections directed outwards. Phallosome with side struts fused posteriorly to external parameres. Ninth sternum broad, anteriorly with two blunt projections, leaving between them a membranous concave area; a mesal transverse sclerotized band in the middle; two almost elliptic areas, well defined, near posterior border, with a pigmented band, almost rectangular between them.</p> <p> <b> Male: <i>Color:</i></b> Compound eyes black, ocelli hyaline, with ochre centripetal crescents; head pattern (Fig. 27). Scape and pedicel yellow. Femora pale yellow; tibiae pale yellow with distal ends yellow; tarsomeres 1-3 yellow. Forewings (Figs. 28-29); pterostigma almost entirely pigmented, with a central hyaline area; veins. Hindwing almost hyaline, with brown spots distally on R₂₊₃, R₄₊₅ and M; veins brown.</p> <p> <b>Morphology:</b> Compound eyes without interommatidial setae. Outer cusp of lacinial tip broad, with three denticles (Fig. 31). Forewing pterostigma almost triangular, narrow basally; Rs sinuous, R₂₊₃ slightly convex, R₄₊₅ straight, M concave, M₁ slightly convex, M₂ and M₃ straight; areola postica tall, with round apex, 2A not reaching wing margin (Fig. 28); right forewing anomalous, having an additional crossvein from the proximal end of Rs to R₁ (Fig. 29). Hindwing Rs almost straight, R₂₊₃ straight, R₄₊₅ almost straight, M sinuous (Fig. 30). Hypandrium of three sclerites; central sclerite flanked anteriorly by stout, irregular side sclerites; setae as illustrated (Fig. 32). Phallosome (Fig. 33) with side struts independent, V-shaped, with a strong narrowing in its connection to external parameres, these basally wide, distally rounded, bearing pores; three pairs of endophallic sclerites, anterior pair with arms L-shaped, close to each other, distally narrowing to end; mesal pair with arms Y-shaped, proximal arms with small protuberances; distal arms bow-shaped, ending in a rounded, hyaline area; median arms curved, slender, directed posteriorly, acuminate; posterior pair proximally wide, membranous, distally sclerotized, curved inwards. Epiproct wide basally, with sides converging to rounded posterior border, three setae mesally, other setae as illustrated (Fig. 34). Paraprocts broad, rounded; sensory fields with 27 trichobothria on basal rosettes, setae as illustrated (Fig. 34).</p> <p> <b>Measurements (in microns):</b> FW:3079,HW:2142,F: 774, IO: 388, D: 311, d: 184, IO/d: 1.24, PO: 0.66.</p> <p> <b> Female: <i>Color:</i></b> Essentially as in the male.</p> <p> <b>Morphology:</b> Head as in the male (Fig. 35). Outer cusp of lacinial tip broad, with three denticles (Fig. 38). Fore- and hind- wings (Figs. 36, 37) as in the male. Subgenital plate broad, pigmented area widely concave, setae as illustrated (Fig. 39); Ninth sternum (Fig. 40). Gonapophyses: v1 long, slender, heavily sclerotized; v₂₊₃ stout, wider in the middle, with anterior margin almost straight, posterior margin concave, with three setae on v2, distal process slender, acuminate, basally with a field of microsetae (Fig. 79). Epiproct triangular, setae as illustrated (Fig. 41). Paraprocts broadly triangular, sensory fields with 32 trichobothria on basal rosettes, setae as illustrated (Fig. 41).</p> <p> <b>Measurements (in microns):</b> FW: 3332, HW: 2366, F: 1040, IO: 410, D: 330, d: 198, IO/d: 2.07, PO: 0.6.</p> <p> <b>Etymology:</b> The specific name refers to the similarity of this species to <i>T.umbrata.</i></p> <p> <b> Material examined: <i>Holotype male:</i></b> Peru. Madre de Dios. Río Tambopata Reserved Zone. 30 km (air) SW Puerto Maldonado, 290 m. 12°50’S, 69°20’W. 14.IX.1984. Smithsonian Institution Canopy Fogging Project. T.L. Erwin <i>et al.</i> (INPA). <i>Paratype:</i> 1 female, same data as the holotype, except for date, 10.IX.1984. (INPA).</p> <p> <b>Comments:</b> This species was erroneously identified by García Aldrete (1999) as <i>T. umbrata;</i> it has a similar pattern of pigmentation and wing venation as <i>T. umbrata,</i> but the ninth sternum is different (compare Fig. 40 in this paper with fig. 21 in New (1980). The phallosome of <i>T. umbrataoides</i> is similar to other six <i>Triplocania</i> species (<i>T. lucida</i> Roesler, <i>T. calori</i> Silva-Neto, García Aldrete & Rafael, <i>T. capixaba</i> Silva-Neto, García Aldrete & Rafael, <i>T. ecuatoriana</i> Silva-Neto, García Aldrete & Rafael, <i>T. ecuatorianaoides</i> Silva-Neto, García Aldrete & Rafael, and <i>T.asisensis</i> González,Carrejo & García Aldrete). <i>Triplocania umbrataoides</i> differs from all the other species with similar phallosomes in details of the hypandrium and phallosome (compare Figs. 71, 72 in this paper with figs. 5, 6, 20, 21, 34, 35, 41, 42 in Silva-Neto <i>et al.</i> (2016c),figs. 36, 37 in Roesler (1940) and figs. 42, 43 in González-Obando <i>et al.</i> (2017)).</p>Published as part of <i>Silva-Neto, Alberto Moreira da, Aldrete, Alfonso Neri García & Rafael, José Albertino, 2018, Triplocania Roesler: a new species, redescriptions, description of the female of Triplocania spinosa Mockford, and revalidation of the original combination of Belicania cervantesi (García Aldrete) (Psocodea: ' Psocoptera': Ptiloneuridae), pp. 1-11 in Papéis Avulsos de Zoologia 58</i> on pages 8-11, DOI: 10.11606/1807-0205/2018.58.21, <a href="http://zenodo.org/record/4614158">http://zenodo.org/record/4614158</a>
Triplocania lamasi Silva-Neto, Rafael & Garcia Aldrete
Triplocania lamasi Silva-Neto, Rafael & García Aldrete, Female (Figs 359–364) T. lamasi Silva-Neto, Rafael & García Aldrete (2014), p. 79. Diagnosis. Wings hyaline; ninth sternum of two areas, an anterior oval, with a narrow, anterior mid concavity, and a mid, distally rounded posterior process (Fig. 364); posterior area broadly trapeziform, concave posteriorly. Close to T. lamasoides Silva-Neto et al. , differing from it by having a process in the middle of the posterior border of the anterior half of the ninth sternum, and in lacking one pigmented, rounded area on each side of the longitudinal midline of the posterior half of the ninth sternum. Color (in 80% ethanol). Body, legs and wings as in the males (see Silva-Neto et al. 2015). Pigmented area of subgenital plate broadly V-shaped, with sides broad, connected by a slender arch (Fig. 357); IX sternum pale brown, gonapophyses dark brown; clunium brown; paraprocts and epiproct pale brown. Morphology. As in diagnosis, plus the following: Head (Fig. 361): H/MxW: 1.43; H/D: 2.59, MxW/IO: 2.16, IO/MxW: 0.63. Vertex slightly emarginate, well above the level of the upper border of the compound eyes. Outer cusp of lacinial tips broad, with five denticles. Forewings (Fig. 359): L/W: 2.57, pterostigma: lp/wp: 4.40; areola postica slanted posteriorly, la/ha: 2.58. Hindwings (Fig. 360): l/w: 2.96. Subgenital plate (Fig. 362) triangular, densely setose, with apex projected posteriorly, bearing a field of setae. Gonapophyses (Fig. 364): v1 elongate, slender, acuminate, about 2/3 the length of v2 +3; this proximally wide, with long, stout heel; a row of three macrosetae on v2; distal process stout, blunt ended, with microsetae. Paraprocts (Fig. 363) broadly triangular, with rounded posterior margin, setae as illustrated, a macrosetae near each sensory field; these with 28 trichobothria on basal rosettes. Epiproct wide, anteriorly concave in the middle, rounded posteriorly, a group of three macrosetae mesally, other setae as illustrated (Fig. 363). Measurements. FW: 3400, HW: 2512, f1: 557, f2: 307, IO: 417, D: 367, d: 242, IO/d: 1.72, PO: 0.65. Records. 1 female, COLOMBIA. Putumayo. National Natural Park La Paya, Viviano Hut, 0º7’S: 74º56’W, 320 m., 30.XI–15.XII.2001. E. Lozano. Malaise trap. 1 female. Puerto Asís, Huitoto trail, 0°23’21.01” N: 76°31’41.87” W, 264 m. 23.I.2015. MUSENUV slide code 28636. J. Panche & J. Hoyos. 5 males. Puerto Asís, Las Delicias, 18–19.X.2015. J. Panche. 3 males, same locality and collector, 13.II.2016, Led light trap. 1 female, NNP La Paya, Viviano Hut, 30.XI–1.XII.2001, E. Lozano. 1 male, Puerto Asís, El Horizonte, Huitoto trail, 0°23’21.01” N: 76°31’41.87” W, 264 m., 23.I.2015. J. Panche. MUSENUV slide code 28637. 1 male, 5.III.2014. Same locality and collector. 1 male, 22.X.2014. Same locality and collector. Led light trap on forest canopy. 11 males. Puerto Leguizamo, Resguardo Tukunare, buffer area on NNP La Paya, 0°07’24.65’’N: 74°55’38.11”W, 189 m., 9– 10.II.2016. J. Panche. Led light trap on forest canopy. 2 males, Caquetá, Solano, Jerico-Consayá, La Raya trail, 0°32’2.62” N: 75°0.5’7.9” W, 275 m., 28–29.IX.2016. J. Panche. Led light trap on forest canopy.Published as part of González-Obando, Ranulfo, Carrejo-Gironza, Nancy & García, Alfonso N., 2017, New species of Colombian Triplocania Roesler (Psocodea: ' Psocoptera': Ptiloneuridae), pp. 1-113 in Zootaxa 4336 (1) on pages 103-109, DOI: 10.11646/zootaxa.4336.1.1, http://zenodo.org/record/103526
Field dependence of the magnetic spectrum in anisotropic and Dzyaloshinskii-Moriya antiferromagnets. I. Theory
We consider theoretically the effects of an applied uniform magnetic field on the magnetic spectrum of anisotropic two-dimensional and Dzyaloshinskii-Moriya layered quantum Heisenberg antiferromagnets. The former case is relevant for systems such as the two-dimensional square lattice antiferromagnet Sr2CuO2Cl2, while the latter is known to be relevant to the physics of the layered orthorhombic antiferromagnet La2CuO4. We first establish the correspondence between the low-energy spectrum obtained within the anisotropic nonlinear sigma model and by means of the spin-wave approximation for a standard easy-axis antiferromagnet. Then, we focus on the field-theory approach to calculate the magnetic-field dependence of the magnon gaps and spectral intensities for magnetic fields applied along the three possible crystallographic directions. We discuss the various possible ground states and their evolution with temperature for the different field orientations, and the occurrence of spin-flop transitions for fields perpendicular to the layers (transverse fields) as well as for fields along the easy axis (longitudinal fields). Measurements of the one-magnon Raman spectrum in Sr2CuO2Cl2 and La2CuO4 and a comparison between the experimental results and the predictions of the present theory will be reported in paper II of this research work [L. Benfatto Phys. Rev. B 74, 024416 (2006)]. (c) 2006 American Institute of Physics
Field dependence of the magnetic spectrum in anisotropic and Dzyaloshinskii-Moriya antiferromagnets. II. Raman spectroscopy
We compare the theoretical predictions of the previous paper on the field dependence of the magnetic spectrum in anisotropic two-dimensional and Dzyaloshinskii-Moriya layered antiferromagnets [L. Benfatto and M. B. Silva Neto, Phys. Rev. B 74, 024415 (2006)], with Raman spectroscopy experiments in Sr2CuO2Cl2 and untwinned La2CuO4 single crystals. We start by discussing the crystal structure and constructing the magnetic point group for the magnetically ordered phase of the two compounds, Sr2CuO2Cl2 and La2CuO4. We find that the magnetic point group in the ordered phase is the m_mm_ orthorhombic group, in both cases. Furthermore, we classify all the Raman active one-magnon excitations according to the irreducible co-representations for the associated magnetic point group. We find that the in-plane (or Dzyaloshinskii-Moriya) mode belongs to the DA(g) co-representation while the out-of-plane (XY) mode belongs to the DBg co-representation. We then measure and fully characterize the evolution of the one-magnon Raman energies and intensities for low and moderate magnetic fields along the three crystallographic directions. In the case of La2CuO4, a weak-ferromagnetic transition is observed for a magnetic field perpendicular to the CuO2 layers. We demonstrate that from the jump of the Dzyaloshinskii-Moriya gap at the critical magnetic field H-c similar or equal to 6.6 T one can determine the value of the interlayer coupling J(perpendicular to)/J similar or equal to 3.2x10(-5), in good agreement with previous estimates. We furthermore determine the components of the anisotropic gyromagnetic tensor as g(s)(a)=2.0, g(s)(b)=2.08, and the upper bound g(s)(c)=2.65, also in very good agreement with earlier estimates from magnetic susceptibility. For the case of Sr2CuO2Cl2, we compare the Raman data obtained in an in-plane magnetic field with previous magnon-gap measurements done by electron spin resonance (ESR). Using the very low magnon gap estimated by ESR (similar to 0.05 meV), the data for the one-magnon Raman energies agree reasonably well with the theoretical predictions for the case of a transverse field (only hardening of the gap). On the other hand, an independent fit of the Raman data provides an estimate for g(s)similar or equal to 1.98 and gives a value for the in-plane gap larger than the one measured by ESR. Finally, because of the absence of the Dzyaloshinskii-Moriya interaction in Sr2CuO2Cl2, no field-induced modes are observed for magnetic fields parallel to the CuO2 layers in the Raman geometries used, in contrast to the situation in La2CuO4. (c) 2006 American Institute of Physics
Impurity susceptibility and the fate of spin-flop transitions in lightly doped La2CuO4
We investigate the occurrence of a two-step spin-flop transition and spin reorientation when a longitudinal magnetic field is applied to lightly hole doped La2CuO4. We find that for large and strongly frustrating impurities, such as Sr in La2-xSrxCuO4, the huge enhancement of the longitudinal susceptibility suppresses the intermediate flop and the reorientation of spins is smooth and continuous. Contrarily, for small and weakly frustrating impurities, such as O in La2CuO4+y, a discontinuous spin reorientation (two-step spin-flop transition) takes place. Furthermore, we show that for La2-xSrxCuO4 the field dependence of the magnon gaps differs qualitatively from the La2CuO4 case, a prediction to be verified with Raman spectroscopy or neutron scattering
One-magnon Raman scattering in La2CuO4: The origin of the field-induced mode
We investigate the one-magnon Raman scattering in the layered antiferromagnetic La2CuO4 compound. We find that the Raman signal is composed by two one-magnon peaks: one in the B1g channel, corresponding to the Dzyaloshinskii-Moryia mode, and another in the B3g channel, corresponding to the XY mode. Furthermore, we show that a peak corresponding to the XY mode can be induced in the planar (RR) geometry when a magnetic field is applied along the easy axis for the sublattice magnetization. The appearance of such a field-induced mode signals the existence of a magnetic state above the Néel temperature TN, where the direction of the weak-ferromagnetic moment lies within the CuO2 planes. © 2005 The American Physical Society
Leituras críticas da obra de João Simões Lopes Neto: Província de São Pedro e Caderno de Sábado
Dissertação (mestrado) - Universidade Federal de Santa Catarina, Centro de Comunicação e Expressão. Programa de Pós-graduação em LiteraturaEste trabalho tem como objetivo reunir e recuperar leituras críticas esparsas da obra de João Simões Lopes Neto publicadas na revista Província de São Pedro e no suplemento literário Caderno de Sábado, facilitando a pesquisa de outros estudiosos interessados em sua obra. O trabalho de transcrição foi realizado seguindo as normas padronizadas pela Filologia contemporânea, a fim de determinar os critérios adotados para a transcrição dos textos. Num primeiro momento, apresenta-se a apreciação da obra simoniana por parte dos críticos e, num segundo momento, são apresentados os vinte e oito textos selecionados para a transcrição
Listroscelis cyanotibiatus Mendes & Silva-Neto 2023, sp. nov.
<i>Listroscelis cyanotibiatus</i> Mendes & Silva-Neto sp. nov. <p>Figures 1–7</p> <p> <b>Diagnosis.</b> The turquoise blue coloring of tibiae and part of tegmina makes this katydid unique and easily differentiated from other species of <i>Listroscelis</i> (Fig. 6). Tegmina long, surpassing apex of cercus and subgenital plate, in lateral view (Fig. 1A). Cercus fang-shaped, apically with inward curved tip; apex of cercus not exceeding base of stylus (Figs. 1I–K).</p> <p> <b>Description. Holotype Male.</b></p> <p> <i>Head</i>. Head laterally wide, with frons and gena rough, in frontal view (Figs. 1B–C); fastigium-vertex small and laterally compressed, in frontal view (Fig. 1B); Globular eyes (Figs. 1B and 1D). Scape and pedicel wide and cylindrical, in lateral view (Fig. 1D). Mandibles asymmetrical; left mandible very elongate, ensiform, acuminate and projecting forward; right mandible curved and not elongated (Figs. 1A–C).</p> <p> <i>Thorax</i>. Pronotal disc rectangular, without carina, anteriorly slightly concave and posteriorly straight, in dorsal view (Fig. 1E); dorsal margin of pronotal disc with undulations, in lateral view (Fig. 1E); Dorsal-lateral suture curved and bifurcate (Figs. 1D–E). Furcal suture curved and concolorous with pronotal disc (Fig. 1E). Mesobasisternum triangular-shaped, anteriorly slightly concave and posteriorly narrow (Fig. 1E). Lateral lobes of mesobasisternum anterolaterally and laterally convex and posteriorly straight (Fig. 1E). Metabasisternum trapezoidal (Fig. 1E). Lateral lobes of mesobasisternum laterally slightly convex and posteriorly rounded (Fig. 1E). Mesobasisternum and metabasisternum with two rounded projections on each (Fig. 1E).</p> <p> <i>Wings</i>. Tegmina narrow with rounded apex, with about 1/3 of the tegmina surpassing the apex of the cerci (Figs. 1A, 2A–B). Left stridulatory file sinuous; teeth apical minor in relation to middle teeth (Fig. 3A). Total length of left stridulatory file 4 mm, greater vein width of 0.2 mm and a total of 178 teeth (Fig. 3A). Right stridulatory file sinuous; teeth basal and apical shorter than middle teeth (Fig. 3B). Total length file of 2 mm, widest vein of 0.1 mm and total of 156 teeth (Figs. 3B).</p> <p> <i>Legs</i>. Fore femur straight, with apex narrower than the base, presence of four ventral spines, a pair of apical spines and numerous small ventral spines, in lateral view (Fig. 1F). Fore tibia sinuous with six pairs of long spines in ventral region, in lateral view (Fig. 1F). Mid femur curved, with four pairs of large spines and numerous small spines on ventral margin, in lateral view (Fig. 1G). Mid tibia with enlarged basal half with six pairs of ventral spines and three dorsal spines, in lateral view (Fig. 1G). Hind femur enlarged at basal half, with several large ventral spines (Figs. 1A). Hind tibia straight, narrow, with several small ventral and dorsal spines (Figs. 1A). All legs with short bristles (Figs. 1A, F–G).</p> <p> <i>Abdomen</i>. Cercus fang-shaped, apically with inward curved tip; apex of cercus not exceeding base of stylus (Figs. 1I–K). Subgenital plate trapezoidal and posteriorly bifurcated (Figs. 1I–K). Space concave between the base of stylus (Figs. 1I–K). Stylus long and narrow (Figs. 1I–K).</p> <p> <i>Internal male genitalia.</i> Upper fold of ventral lobe large, asymmetric; margins slightly sinuous (Figs. 4A–D). Titillator with two large sclerites, parallel, inward curved and anteriorly exceeding the dorsal lobe (Figs. 4A–D). Sclerite of ventral fold of dorsal lobe with one large sclerite, sinuous, narrow medially and wide distally; apex acuminate (Figs. 4A–D). Lower fold of ventral lobe small, bilobed, posteriorly not exceeding the upper fold of ventral lob (Figs. 4A–B). Dorsal lobe anteriorly with median projection large elongated, anterolaterally with two convex projections, laterally and posteriorly slightly rounded (Figs. 4A–D). Dorsal fold asymmetric, elongated and narrow (Figs. 4C–D).</p> <p> <i>Coloration.</i> Described based on photos of live specimens (Fig. 6). Scape, pedicel dark brown and antennal sclerite light brown. Eyes dark brown. Head, pronotal disc, fore leg and mid leg dark brown with some light brown areas. Jaws black. Tibiae with black brown base and apex and turquoise blue middle region, with black spines. Tarsi dark brown. Hind femur light brown with apex dark brown. Thorax light brown with some dark brown areas. Tegmina dark brown; basal region of the wing a large blue-white and posteriorly turquoise-blue spot slightly hyaline between the costal margin and the main branch of vein R. Stridulatory region of tegmina light brown. Abdominal segment dorsally dark brown with a turquoise blue lateral band. Cerci light green.</p> <p>Female: Similar to male, except for the following features (Fig. 5):</p> <p> <i>Wings.</i> Anal veins unmodified for sound production.</p> <p> <i>Abdomen</i>. Cercus slightly inward curved with acuminate and inward curved apex (Figs. 5H–J). Cercus with long white bristles (Fig. 5H). Subgenital plate triangular, anteriorly straight and posteriorly slightly bilobate (Fig. 5I). Ovipositor slightly curved, without teeth, with enlarged base and subsequently narrow to the apex; apex of ovipositor triangular (Fig. 5J).</p> <p> <i>Coloration</i>. Ovipositor with light brown base and other dark brown regions.</p> <p> <b>Etymology.</b> The epithet is from Latin, <i>cyano</i> (blue) + <i>tibia</i> (tibia, leg) + <i>atus</i> (provided with), meaning “provided with blue tibia”, in reference to the striking and diagnostic blue coloration of the legs of this katydid.</p> <p> <b>Geographical records.</b> Brazil: Bahia (Fig. 7).</p> <p> <b>Type material.</b> Holotype ♁. BRASIL, Bahia, Cachoeira, Fazenda Vila Rial, 19.v.2018, D.M.M. Mendes & A.M.S. Neto <i>leg</i>. (INPA). Paratypes: <i>Idem</i>, Itanagra, 19.ii.2021, A.M.S. Neto <i>leg</i>. (1♀ INPA); <i>Idem</i>, Santa Teresinha, Serra da Jiboia, Base Gambá, 12°52′19.8″S – 39°28′51.7″W, 08–10.v. 2018, 500 m de altitude, coleta manual, D.M.M. Mendes & A.M.S. Neto <i>leg</i>. (1♀ INPA).</p> <p> <b>Measurements (mm).</b> Holotype♁: TL: 52; TegL: 50; TegH: 8; WF: 4,5; PL: 5,3; PH: 3,2; FF: 10; FT: 10,5; MF: 6,7; MT: 7,5; HF: 16; HT: 18; Lplac: 3,5; LC: 2,8.</p> <p>Paratypes ♀: TL: 52; TegL: 50; TegH: 8; WF: 4,5; PL: 5,3; PH: 3,2; FF: 10; FT: 10,5; MF: 6,7; MT: 7,5; HF: 16; HT: 18; Lplac: 3,5; LC: 2,8; OV: 3.</p> <p> <b>Comments.</b> The state of Bahia currently has records of three species of <i>Listroscelis</i>: <i>Listroscelis magnomaculata</i> Fialho <i>et al.,</i> 2014, <i>Listroscelis monnei</i> Fialho <i>et al.,</i> 2014, <i>Listroscelis cohni</i> Fialho <i>et al.,</i> 2014. <i>L</i>. <i>cyanotibiatus</i> <b>sp. nov.</b> appears to be closer to <i>L</i>. <i>magnomaculata</i> (differentiating by long tegmina versus short tegmina, not exceeding the apex of cercus in <i>L</i>. <i>magnomaculata</i>).</p>Published as part of <i>Mendes, Diego Matheus De Mello & Neto, Alberto Moreira Da Silva, 2023, The Blue Legged Predatory Katydid-a new species of Listroscelis Serville, 1883 (Orthoptera: Tettigoniidae: Listroscelidinae: Listroscelidini) from the Atlantic Rainforest, pp. 425-433 in Zootaxa 5254 (3)</i> on pages 426-430, DOI: 10.11646/zootaxa.5254.3.8, <a href="http://zenodo.org/record/7727752">http://zenodo.org/record/7727752</a>
Avaliação do desempenho de produtos de cruzamentos entre Curraleiro Pé-duro e raças comerciais em sistemas silvipastoril e em pleno sol.
Autoria: FROTA, M. [i.e. N. L.] da, MARCILIO [i.e. NILTON LOPES ] DA FROTA; CARVALHO, G. [i.e. M. C.], GERALDO [i.e. MAGELA CORTES] CARVALHO; LIMA NETO, A. [i.e. F.], ANISIO [i.e. FERREIRA] LIMA NETO
sj-pdf-1-pms-10.1177_00315125211065312 – Supplemental Material for The Impact of Parkinson’s Disease on General and Specific Motor Aptitudes: A Study of Older Brazilian Adults
Supplemental Material, sj-pdf-1-pms-10.1177_00315125211065312 for Parkinson’s Disease Impact on the General and Specific Motor Aptitude of Brazilian Older Adults by Lucia M. Andreis, Marilia Mariano, Lorenna W. L. Silva, Claudia D. Bianco, and Francisco Rosa Neto in Perceptual and Motor Skills</p
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