Lema (Quasilema) apicalis Lacordaire, 1845

Groll, Elisa Von, 2021, Solving an old dilemma: are the two sympatric species Lema apicalis and L. reticulosa (Coleoptera, Chrysomelidae, Criocerinae) morphotypes of a single species?, Zootaxa 5048 (3), pp. 334-346 : 335-343

publication ID

https://doi.org/ 10.11646/zootaxa.5048.3.2

publication LSID

lsid:zoobank.org:pub:2F389ED0-6DD9-49E6-ADA2-D77F9E59585D

DOI

https://doi.org/10.5281/zenodo.5569420

persistent identifier

https://treatment.plazi.org/id/DC2C7323-1D39-E95E-6BD2-5164FC28FBE7

treatment provided by

Plazi

scientific name

Lema (Quasilema) apicalis Lacordaire, 1845
status

 

Lema (Quasilema) apicalis Lacordaire, 1845

( Figs 1–53 View FIGURES 1–14 View FIGURES 15–21 View FIGURES 22–32 View FIGURE 33 View FIGURES 34–42 View FIGURES 43–53 )

Lema apicalis Lacordaire, 1845: 388 ; Blackwelder 1946: 628 (catalogue); Monrós 1951: 468; Guérin 1953: 96 (morphology); Monrós 1960: 134, 214 (biology & distribution); Silva et al. 1968: 429 (biology, host plant); White 1993: 20 (revision); Jolivet 1997:144; Medeiros et al. 1994 (biology); Moura & Grazia 2011: 620 (biology); Santiago-Blay et al. 2012: 334, 336 (biology); Dury et al. 2014: 3 (biology).

Lema reticulosa Clark, 1866: 31 ; Gemminger & Harold 1874: 3259 (distribution); Jacoby & Clavareau 1904: 21 (distribution); Clavareau 1913: 76 (distribution); Blackwelder 1946: 631 (catalogue); Guérin 1953: 96 fig. 139: 108 (morphology); Monrós 1960 (distribution); Bertels 1962: 3 (host plant); Silva et al. 1968: 430 (biology, host plant); White 1987: 106 (distribution); Jolivet 1997: 144; Medeiros et al. 1994 (biology) Moura & Grazia 2011: 620 (biology); Santiago-Blay et al. 2012: 334, 336 (biology); Dury et al. 2014: 3 (biology) new synonym.

Material examined (n= 138, * = specimen dissected): Brazil. Paraná: 1, Três Barras do Paraná , 19-27.II.1993, A. Bonaldo (238.317); Rio Grande do Sul: 5, [no data provided], T. de Lema (26.044–26.047, 26.060) ; 2, Campo Bom , 25.II.1985, 18.III.1985, C. J. Becker (62.135, 62.273) GoogleMaps ; 1, Canela , 22.I.1984, M. Hoffmann col. (61.129) ; 4, ditto except 4.I.1962, 6.I.1962, P.C. Braun (26.048, 26.049, 26.064, 26.063) ; 2, Canguçú, Coxilha do Fogo, I.1998, C. N. Duckett (238.312, 238.313) ; 1, Canoas ( REFAP), 13.XII.1996, L. Moura (238.314) ; 1, Derrubadas, Parque Estadual do Turvo, 31.X.2003, L. Moura (227.992) ; 1, Eldorado do Sul, Faz. São José , 12.XI.1996, L. Moura (163.590) ; 2, 1♂ *, ditto except, 26.I.1999, L. Moura (161.397, 163.591) ; 2, ditto except, A. Bonaldo (161.400, 161.396, 161.478) ; 1♂ *, 1♀ *, Eldorado do Sul, Distrito Parque Eldorado, Parque das Acácias, 26.III.2016, J. Nunes ; 2, Frederico Westphalen, 9.X.2004, L. Massolino & G. Mansur (237.932, 237.933) ; 1, 17.IX.2005, L. Massolino (238.328) ; 1, Gramado, XII.1956, F. Meurer (26.051) ; 8, Gravataí, 11.X.1973, M. H. Galileo (26.052 –26.057, 26.059, 26.065) ; 1, Ijuí, 20.X.2001, M. Daronco (231.899) ; 1, Ijuí, Campus UNIJUÍ, 10.X.2001, F. L. Santos (231.905) ; 1, Maquiné, II.1998, C. N. Duckett (238.330) ; 1, Maquiné, E.E.A. FEPAGRO, 9-11.I.2006, coleta com fogging (237.158) ; 1, Montenegro, 07.VII.1977, H. A. Gastal (22.391) ; 10, ditto except, 20.XII.1977, A. Lise (26.901), 1.XII.1977, A. Lise (25.020, 25.076, 25.078), E. H. Buckup (25.075), V. L. Pitoni (25.077), 15.XII.1977, M. L. Tavares (25.860, 25.861), H. Bischoff (27.164), E. H. Buckup (25.756) GoogleMaps ; 5, Passo Fundo (238.305-238.309) ; 1, Porto Alegre, 8.XI.1961, E. Corseuil (238.553) ; 9, ditto except, 5.XII.1963 (238.554-238.558), IX.1953, E. Corseuil (238.559), 26.IV.1961, M. Amago (238.560), 25.XI.1959, P. Godoi (238.561), 27.IX.1985, T. Arigony (62.568) ; 10, Porto Alegre, Jardim Botânico, 29.X.1990, M.A. Santos (124.671), 25.III.1998, L. Moura ( MCNZ 238.302 View Materials 238.304 View Materials , 238.319 View Materials 238.321 View Materials ), C. Duckett ( MCNZ 238.300 View Materials , 238.301 View Materials , 238.322 View Materials ) ; 3, 1♂ *, 2♀ *, ditto except, 4.X.2013, L. Moura (238.310, 238.311, 238.323–238.226) ; 1♂ *, 3♀ *, ditto except, 29.XII.2015, E. von Groll (238.331–238.334) ; 1♂ *, 1♀ *, ditto except, 2.VI.2016, E. von Groll ( MCNZ 238.546 View Materials , 238.547 View Materials ) ; 2, Rio Pardo, 5.IX.1961, 6.IX.1961, A. Lise (26.061, 26.062) GoogleMaps ; 1, Rolante, 18.XII.1979, J. C. Becker (238.329) ; 5, Rosário do Sul, X.1955, A. C. Duarte ; 1, São Francisco de Assis, Cerro Sul , 29°31’12”S 55°07’35”W, 24.XI.2009, R. Ott & I. Heydrich (237.694) GoogleMaps ; 1, São Francisco de Paula, II.1956, L. & E. Buckup (26.050) ; 2, São Francisco de Paula   GoogleMaps , Inst. Nac. Pinho , 23.I.1959, Pereira   GoogleMaps et al. (233.655, 233.656) ; 16, 1♀ *, São Francisco de Paula   GoogleMaps , Passo do Inferno   GoogleMaps , 4.XI.1996, L. Moura (161.255, 161.257, 161.258, 161.261–161.273) ; ditto except, 1, São Francisco de Paula   GoogleMaps , Barragem dos Bugres, 2.II.1999, A. Bonaldo (162.610) ; 1, São Francisco de Paula   GoogleMaps , Faz. 3 Cachoeiras   GoogleMaps , 3.II.1999, L. Moura (162.919) ; 6, São Francisco de Paula   GoogleMaps , Boca da Serra   GoogleMaps , 18-20.IV.2003, L. Moura & I. Heydrich (219.924, 219.925, 219.929, 219.930, 219.931 219.933) ; 1, São Francisco de Paula , Boca da Serra (29°26’38,4”S, 50°37’20”W), 24.I.2009, L. Moura (238.327) GoogleMaps ; 1, Triunfo, 15.IX.1977, A. Lise (24.086) ; 1, ditto except, 12.I.989, M. H. Galileo (238.315) ; 8, Triunfo   GoogleMaps , Copesul   GoogleMaps , 8.X.1988, M. Hoffmann (216.064), 8.XI.1988, H. A. Gastal (216.066), 21.IX.1989, M. Hoffmann (216.060, 216.062), 24.X.1989, M. A. Marques (216.063), 28.XI.1989, E. H. Buckup (216.059), 11.IX.1992, E. H. Buckup (216.067), 14.II.2008, M. Pasolius (238.316) ; Santa Catarina: 2, Três Barras , 11.VI.1994 (238.318), 12.III.1995 (167.087) .

Redescription. Length 8.0– 10.7 mm, width (humeral region) = 3.0– 4.1 mm; males usually smaller than females, but with considerable overlap. Body oblong ( Figs 1, 3, 5 View FIGURES 1–14 ), sides parallel, somewhat convex in lateral view ( Figs 2, 4 View FIGURES 1–14 ). Color varying according to fixation of specimen; live specimens brighter and more vibrant. Head, pronotum, and mouthparts orange, maxillary and labial palpomere and apex of mandible black, scape pale orange, pedicel and antennomeres III–XI black. Scutellum entirely dark blue ( apicalis pattern; Fig. 1 View FIGURES 1–14 ) or with basal region orange, sometimes extending to central region ( reticulosa and intermediate patterns; Fig. 6 View FIGURES 1–14 ). Elytra metallic blue, apex with creamy white to yellow triangular mark only ( apicalis pattern: Figs 1, 2 View FIGURES 1–14 ), or two stripes of the same color as the apex dorsally and laterally ( reticulosa pattern; Figs 3, 4 View FIGURES 1–14 ), or rarely traces of these stripes, more ( Fig. 5 View FIGURES 1–14 ) or less marked ( Figs 6, 7 View FIGURES 1–14 ) (intermediate pattern). Meso- and metaventrie dark blue, except for yellowish mesoventrite and mesanepisterna. Pro- and mesocoxae and trochanters yellowish, metacoxae dark blue. Femora yellow with apex and a dorsal mark black, located posteriorly on the prefemur. Tibiae and tarsi black. Abdomen dark blue; ventrite V with two lateral yellow spots on each side. Leg and ventral pubescence white.

Head. Longer than wide, integument smooth and glossy ( Fig. 8 View FIGURES 1–14 ). Vertex with central fovea between the eyes. Frons with x-shaped groove, with long setae, sparsely distributed, more concentrated on inner superior margin of eyes ( Fig. 8 View FIGURES 1–14 ). Eyes emarginate, finely faceted, and strongly projecting ( Fig. 8 View FIGURES 1–14 ). Antennae inserted next to inner margin of the eyes ( Fig. 9 View FIGURES 1–14 ). Scape and pedicel globose, almost glabrous ( Fig. 8 View FIGURES 1–14 ); antennomere III slightly shorter than IV, V somewhat longer than VI, and VI and XI subequal; antennomeres III–XI covered with white, short and dense pubescence and with long setae at apex of each segment; apex of antennomere VII with small projecting tubercle ( Fig. 9 View FIGURES 1–14 ). Gena with length subequal to length of eyes, with pubescence next to inferior margin of the eyes. Clypeus subtriangular, smooth and glossy, with long setae sparsely distributed laterally ( Fig. 8 View FIGURES 1–14 ). Labrum glossy and sub-rectangular, apical margin slightly emarginate at center; long setae sparsely distributed ( Fig. 10 View FIGURES 1–14 ). Mandible with three teeth: two anterior prominent and posterior short and thick ( Figs 11, 12 View FIGURES 1–14 ). Maxillae with galea and lacinia somewhat broad ( Fig. 13 View FIGURES 1–14 ). Labial palp 3-articulated ( Fig. 14 View FIGURES 1–14 ).

Thorax. Pronotum laterally constricted, widest in anterior half; angles rounded ( Fig. 15, 16 View FIGURES 15–21 ). Integument glabrous, smooth and glossy, punctation shallow, restricted to center and lateral areas; central fovea slightly above anterior margin; long setae next to each anterior and posterior angle. Coxal cavities closed ( Fig. 16 View FIGURES 15–21 ). Profurca long and divergent, distal region dilated and rounded ( Fig. 17 View FIGURES 15–21 ). Scutellum smooth, somewhat longer than wide, posterior margin rounded ( Fig. 18 View FIGURES 15–21 ). Mesoventrite with posterior margin sub-rectangular and with sparse pubescence, denser laterally ( Figs 2, 4 View FIGURES 1–14 , 19 View FIGURES 15–21 ); mesanepisterna, mesepimeron, and metanepisternum densely pubescent ( Figs 2, 4 View FIGURES 1–14 , 19 View FIGURES 15–21 ).

Metendosternite with furcal arms (fa) truncated and divergent; anterior lamina (al) short, projected along the whole furcal arm; anterior tendon (at) inserted at 1/3 of the anterior lamina; ventral lamina (vl) slender; ventral tendon (vt) lobular, at the distal region of the furcal arm ( Fig. 20 View FIGURES 15–21 ).

Elytra with lateral margins subparallel, surface glabrous, smooth and glossy at basal area and next to suture; other parts of elytra with integument irregularly rugose, usually shiny, but some mounted specimens matt ( Figs 1–5 View FIGURES 1–14 ). Hind wings fully developed; Subcosta separated from Costa (C), Radius (R) distally enlarged, Radial cell evident; Cubitus (Cu) 1 divided into two evident arms: Cu1a, simple and isolated, and Cu1B; Pos cubital (Pcu) narrow, disappearing after Cub1; first cubital cell (1Cuc) fusiform; J1 sclerotized and short ( Fig. 21 View FIGURES 15–21 ).

Male. Abdomen. Ventrite I subequal in length to II + III; apical margin of ventrite V rounded. Tergite VIII slightly bilobed at apex.

Genitalia ( Figs 22–24 View FIGURES 22–32 ). Median lobe elongated and slightly curved in lateral view ( Fig. 24 View FIGURES 22–32 ); basal region concave, spoon-shaped ( Figs 22–24 View FIGURES 22–32 ); apical region subacuminate ( Fig. 23 View FIGURES 22–32 ). Tegmen ( Fig. 22 View FIGURES 22–32 ) hastate, dorsally flat at apical portion, near center forking into two arms that partially surround median lobe. Internal sac bearing sclerites ( Fig. 24 View FIGURES 22–32 ).

Female. Genitalia ( Figs 25–32 View FIGURES 22–32 ). Tergite VII ( Fig. 25 View FIGURES 22–32 ) slightly sclerotized, apex medially emarginate, pubescent. Tergite VIII rounded ( Fig. 26 View FIGURES 22–32 ). Sternite VIII emarginate apically, with sparse long setae, apodeme well developed ( Fig. 27 View FIGURES 22–32 ). Vaginal palpi subquadrangular, sclerotized apically, bearing long setae ( Fig. 28 View FIGURES 22–32 ). Bursa copulatrix saccular, membranous, and smooth ( Fig. 26 View FIGURES 22–32 ). Spermatheca sclerotized, anterior region divided into an elongated and cylindrical portion where it is inserted in the spermathecal duct and a coiled portion, which varies independent of elytral pattern ( Figs 25, 26, 29–32 View FIGURES 22–32 ); distal region divided into rounded base, bearing the spermathecal gland, and projected form, hook-shaped ( Fig. 29 View FIGURES 22–32 ).

Distribution. Lema apicalis is known from southern Brazil, Paraguay, Argentina, and Uruguay ( Blackwelder, 1946; Guérin, 1953, Medeiros et al., 1996) ( Fig. 33 View FIGURE 33 ). Lacordaire (1845) notes L. apicalis in the “surroundings of” Rio de Janeiro (southeast Brazil) ( Fig. 33 View FIGURE 33 ). Blackwelder (1946) mentions the reticulosa pattern in Mexico, which is almost certainly a mistake, as pointed out by White (1987). This record was based on confusion of the Rio Grande River in Mexico with the Rio Grande do Sul in Brazil.

Biology. Eggs, larvae, and adults were most abundant during spring (23 September–21 December), in association with their host plant ( Fig. 34 View FIGURES 34–42 ). In early September, adults started to emerge, with larger host plants carrying more beetles, and by October, specimens were dense on all host plants. During the following months the population slowly decreased, until autumn (May), when beetles were absent at the field site. However, specimens have been collected in autumn and winter months at other sites (see Material Examined). The apicalis pattern was much more common than the reticulosa pattern, and the intermediate pattern was rarely found.

The only observed hostplant in this study was Vassobia breviflora (Sendtn.) Hunz (Solanaceae) ( Figs 35, 36 View FIGURES 34–42 ), with distribution in Brazil (São Paulo to Rio Grande do Sul), Bolivia, Paraguay, Argentina and Uruguay ( Hunziker, 1984). According to Bertls (1962), specimens identified as L. reticulosa also fed on Cestrum parqui L’Herit (Solanaceae) , but this may be a mistake: the host plant or beetle could have been misidentified, especially because the reticulosa pattern is found in other Lema species. Vassobia consists of two species in the small subtribe Iochrominae of tribe Physaleae ( Olmstead et al. 2008) . Adults and larvae feed on the entire leaf, except the large central vein, often defoliating the entire plant, which makes it easy to find the beetles. Copulations both ex situ and in situ were often observed ( Figs 37–41 View FIGURES 34–42 ). All four possible pairings of the two major colour forms occurred: male and female apicalis pattern ( Fig. 37 View FIGURES 34–42 ), male and female reticulosa pattern ( Fig. 38 View FIGURES 34–42 ), male reticulosa pattern + female apicalis pattern ( Fig. 39 View FIGURES 34–42 ), and male apicalis pattern + female reticulosa pattern ( Fig. 40 View FIGURES 34–42 ). In the field, males and females copulated with more than one individual, regardless of the color pattern and without obvious preference. All the following observations related to copulation were noted for all four pairs above.

Males often competed to mate with females, even in dense populations. Single males used their mandibles to pull the antennae of the mating male off the female. The behavior was often so aggressive that the copulating male stayed connected to the female only by the terminalia. During these attempts, there was audible stridulation but it was not possible to determine which individual was stridulating.

Mate guarding was common. Often it was initiated by refusal of the female to copulate. First, a male climbed on the same female many times in a short period, trying unsuccessfully to connect terminalia. Sometimes it managed to connect the terminalia but briefly, apparently without release of sperm. After a few failed attempts, the male climbed on the female and stayed there for 1–15 minutes, with its body positioned in the opposite direction to the female ( Fig. 41 View FIGURES 34–42 ). Then the male tried to copulate again, often successfully. If the attempt was again unsuccessful, the male usually went away and tried to copulate with another female; males rarely repeated this behavior with the same female.

Predatory bugs of the genus Podisus Herrich-Schaeffer, 1851 ( Pentatomidae : Asopinae ) were frequently observed feeding on larvae of L. apicalis and this pentatomid was commonly seen on the host plant. An unidentified eulophid wasp was frequently observed parasitising egg masses.

Sometimes, when disturbed, adults ejected a brown liquid from their mouth ( Fig. 42 View FIGURES 34–42 ). Other observed defense mechanisms were: stridulation, flight, biting, and hiding under the leaves.

Females laid about 200 eggs in a batchon the under surface of leaves ( Fig. 43 View FIGURES 43–53 ). The egg batch formed a circular mass about 9 mm in diameter and 0.5 mm in height ( Figs 44, 45 View FIGURES 43–53 ). At first, the eggs were light yellow ( Fig. 43 View FIGURES 43–53 ), but they became translucent caramel yellow ( Fig. 44 View FIGURES 43–53 ) due to the change in colour of the sticky paste coating them ( Fig. 45 View FIGURES 43–53 ). Hatching occurred after five days on average ( Fig. 46 View FIGURES 43–53 ). Only wasps emerged from parasitized eggs.

First-instar larvae were pale-yellow ( Fig. 46 View FIGURES 43–53 ), with black head and gray legs; as they developed, they became more yellow-gray.After hatching they instantly formed a large cycloalexic group ( Fig. 47 View FIGURES 43–53 ). After the second instar, a variety of formations was observed: some of them had many individuals, but others were small, possibly due to the space on the leaf ( Figs 47–50 View FIGURES 43–53 ). The fourth instar only occured in small groups, but solitary larvae were not observed ( Fig. 51 View FIGURES 43–53 ).

Four larval defense behaviors were observed: (1) fecal shield, (2) cycloalexy, (3) up and down movements of the anterior part of the body, and (4) regurgitation of a dark fluid ( Fig. 49 View FIGURES 43–53 ). This fluid was released as a drop that the larvae kept holding with their mouth; when the disturbance ended, the fluid was swallowed. The up and down movements occurred before and while the larvae were holding their fluid.

While migrating to the soil for pupation, mature larvae defecated copiously, which caused a change in their color, becoming yellow ( Figs 51, 52 View FIGURES 43–53 ). After reaching the soil, they went underground and produced isolated white cocoons from an oral foamy substance that solidified into a case ( Fig. 53 View FIGURES 43–53 ).

V

Royal British Columbia Museum - Herbarium

T

Tavera, Department of Geology and Geophysics

R

Departamento de Geologia, Universidad de Chile

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Coleoptera

Family

Chrysomelidae

SubFamily

Criocerinae

Genus

Lema

Loc

Lema (Quasilema) apicalis Lacordaire, 1845

Groll, Elisa Von 2021
2021
Loc

Lema reticulosa

Dury, G. J. & Bede, J. C. & Windsor, D. M. 2014: 3
Santiago-Blay, J. A. & Jolivet, P & Verma, K. K. 2012: 334
Moura, L. de & Grazia, J. 2011: 620
Jolivet, P. 1997: 144
White, R. E. 1987: 106
Silva, A. G. A. & Goncalves, C. R. & Galvao, D. M. & Goncalves, A. J. L. & Gomes, J. & Silva, M. do & Simoni, L. De 1968: 430
Bertels, A. 1962: 3
Guerin, J. 1953: 96
Blackwelder, R. E. 1946: 631
Clavareau, H. 1913: 76
Jacoby, M. & Clavareau, H. 1904: 21
Gemminger, H. & Harold, E. 1874: 3259
Clark, H. 1866: 31
1866
Loc

Lema apicalis

Dury, G. J. & Bede, J. C. & Windsor, D. M. 2014: 3
Santiago-Blay, J. A. & Jolivet, P & Verma, K. K. 2012: 334
Moura, L. de & Grazia, J. 2011: 620
Jolivet, P. 1997: 144
White, R. E. 1993: 20
Silva, A. G. A. & Goncalves, C. R. & Galvao, D. M. & Goncalves, A. J. L. & Gomes, J. & Silva, M. do & Simoni, L. De 1968: 429
Monros, F. 1960: 134
Guerin, J. 1953: 96
Monros, F. 1951: 468
Blackwelder, R. E. 1946: 628
Lacordaire, T. 1845: 388
1845
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