Open access journal: http://periodicos.uefs.br/ojs/index.php/sociobiology
ISSN: 0361-6525

DOI: 10.13102/sociobiology.v68i3.5778Sociobiology 68(3): e5778 (September, 2021)

Introduction

A significant important number of cases of phenotypic 
anomalies have been reported among bees. Specimens with 
intersex phenotypes are the majority of these cases. These 
anomalies consist of the manifestation of primary and 
secondary characteristics of both sexes in the same individual, 
a phenomenon called gynandromorphism (Michez et al., 2009).

The origin of gynandromorphy has been attributed to 
genetic anomalies. Though different hypotheses have been 
raised to explain it, the mechanisms that generate these 
abnormal individuals remain unclear.  The phenomenon is 
presented in many groups within Hymenoptera (see Wcislo et 
al., 2004; Michez et al., 2009). The gynandromorphs have been 
categorized in three accepted patterns: transversal or antero-
posterior, mixed or mosaic, and bilateral, of which mixed 

Abstract  
The discovery of the first case of gynandromorphism in Eulaema 
meriana (Olivier) is described and illustrated. A specimen from 
Los Ríos, western Ecuador, discovered in the Instituto Nacional de 
Biodiversidad (MECN) collection, exhibits mostly male features 
on the left and female features on the right, except for the jugal 
comb of the hind wing and terminalia. This finding is compared to 
other reported cases in orchid bees.

Sociobiology
An international journal on social insects

Alex Pazmiño-Palomino1, Marcio L. Oliveira2

Article History

Edited by
Solange Augusto, UFU, Brazil
Received                                07 August 2020
Initial acceptance                 28 October 2020
Final acceptance                   27 May 2021
Publication date                    13 August 2021

Keywords 
Gynander, deviant phenotypes, Euglossini, 
Ecuador.

Corresponding author 
Alex Pazmiño-Palomino
División de Entomología
Instituto Nacional de Biodiversidad
Rumipamba 341 y Av. de los Shyris,
Quito, Ecuador. 
E-Mail: alex.pazmino@biodiversidad.gob.ec

and transverse appear to be the most common (Dalla Torre & 
Friese, 1899; Wcislo et al., 2004; Hinojosa-Díaz et al., 2012).

Gynandromorphy has been reported in all families of 
Anthophila and all biogeographical regions. However, most 
cases have been documented from species of the Holarctic 
region (Hinojosa-Díaz et al., 2012). Fewer cases have been 
reported in the Neotropics, despite containing one of the most 
diverse bee faunas, with many endemic taxa.

Neotropical orchid-bees (tribe Euglossini) are conspicuous 
members of the corbiculate bees due to their long 
labiomaxillary complex, metallic coloration, and the male 
behavior of collecting fragrances from orchid flowers (hence 
their name). Some cases of gynandromorphism in orchid bees 
have been reported in the last decade. The first was in Euglossa 
iopoecila Dressler (Giangarelli & Sofia, 2011), and several 
cases have been reported since: Euglossa tridentata Moure 

1 - División de Entomología, Instituto Nacional de Biodiversidad, Quito, Ecuador
2 - Laboratório de Hymenoptera, Coordenação de Biodiversidade, Instituto Nacional de Pesquisas da Amazônia, Manaus, Brazil

RESEARCH ARTICLE - BEES

First Case of Gynandromorphism in the Orchid-Bee Eulaema meriana (Olivier) 
(Hymenoptera:  Apidae)



Alex Pazmiño-Palomino, Marcio L. Oliveira – First case of gynandromorphism in Eulaema meriana2

(Hinojosa-Díaz et al., 2012), Eulaema atleticana Nemésio 
(Silveira et al., 2012), Euglossa pleosticta Dressler (Camargo & 
Gonçalves, 2013), Euglossa gorgonensis Cheesman (González, 
2014) and Euglossa melanotricha Moure (Suzuki et al., 2015).

This article describes the first recorded gynandromorph 
of the orchid-bee species Eulaema meriana (Olivier) coming 
from western Ecuador. This is the seventh case within the 
Euglossini and the first gynander bee from Ecuador.

Material and Methods

Dr. Marcio de Oliveira visited the entomological 
collection of the Instituto Nacional de Biodiversidad (Quito, 
Ecuador) in July 2019, intending to review and identify bee 
specimens. Along with the work, we found an individual of El. 
meriana exhibiting male and female-specific features on its 
body. We described the specimen according to morphological 
terminology used in Michener (2007); description of the 
genitalia follows Ospina-Torres (1998). Morphological 
measures and photographic records of characters were made 
using a stereomicroscope (Olympus SZ61R) adapted with a 
digital camera (The Imaging Source DFK23UX236) installed 
with the IC Measure v. 2.0.0.161 software. All measures were 
performed three times with IC Measure; the means of these 
measures are presented here and are given in millimeters 
(mm). Images were then focus stacked in Helicon Focus and 
edited in Adobe Photoshop CS5.

The genitalia of the specimen was dissected. Before 
dissection, the individual was placed in a sealed plastic container 
with water-soaked tissue paper for about 72 hours. Next, 
the terminalia were excised using an insect pin (size 0) and 
fine forceps to punch holes and pull apart the conjunctival 
membrane, separating the fifth and sixth metasomal terga and 
sterna. Excised terminalia were placed in a solution containing 
10% potassium hydroxide (KOH) and water, boiled for about 
5 minutes, and then put in acetic acid to neutralize the KOH. 
Finally, the genitals were transferred to a glass vial containing 
a small amount of glycerin for indefinite storage. The vial 
containing the genitals remains stored together with the 
specimen, pinned under it through the rubber cap. The gynander 
genitals were compared with those of a congeneric female, 
Eulaema cingulata (Fabricius), and the descriptions of male 
genitals were taken from the literature (Ospina-Torres, 1998).

Results

Gynandromorph description. The specimen is in good 
condition, except that most of the left antenna flagellomeres 
are missing. General measurements (mm): total body length 
25.01, head width 7.64, upper interocular distance 3.07, 
lower interocular distance 4.43, intertegular distance 6.41, 
mesoscutellum length 3.06, right forewing length 21.06, left 
forewing length 21.39, right hind wing 14.01, left hind wing 
13.99, maximum metasomal width 10.3, metasomal length 13.45. 

Overall coloration black in head, mesosoma, and legs, metasoma 
with integument of the first tergum with a green metallic 
luster, or blue to golden green. Marginal stripes of yellow hairs 
in the distal section of each tergum. Terga 4-7 covered with 
ferruginous hairs. Integument densely punctuate in head and 
legs. Long face, malar area clearly longer than the diameter 
of the third flagellomere; distance between the lower corner 
of the clypeus and the orbit greater than the diameter of the 
middle ocellus. Tongue elongate, nearly as long as the body. 
These general features match those of normal specimens of 
both sexes and the descriptions of the species (Moure, 2000; 
Oliveira, 2007).

Head. Bilaterally asymmetric, right side with mainly 
female features, left side with only male features, as follows 
(Fig 1a): right section of the labrum more developed with 
hairs twice as large as on the left side. Right mandible (3.98), 
noticeably larger and broader, with three well-developed 
teeth; external part of the mandible with long hairs uniformly 
distributed along its surface. Left mandible smaller (2.64) 
with no differentiable teeth and only a row of long hairs on 
the external margin, directed ventrally. Smooth and shiny 
spot on the right malar area (at the intersection of the clypeus, 
mandible, and compound eye) are more developed and with 
a patch of yellow hairs longer than those on the left side. The 
ventral part of the mandibular insertion of the left side with 
a conspicuous bifurcated lobe, stouter on the external side 
and broader but weaker on the internal side, with a medial 
concavity. Right side uniformly descending to the mandibular 
articulation, without lobes (Fig 1b). Right antenna with 12 
segments with 10 flagellomeres, left antenna with the last 
flagellomeres missing. The dimensions of the head show little 
difference between right and left, the right side being slightly 
bulkier than the left one.

Mesosoma. The central thoracic axis presents 
slight differences in symmetry, the right side being more 
voluminous than the left. In addition, mesoscutelum with 
a small tuft is found, a character showed only by Eulaema 
females. The most notable differences are those of the legs. 
The right legs largely correspond to those of a normal female: 
foreleg without chemical gathering tufts (Fig 1c), without 
velvety area or tufts in mesotibia (Fig 1e), metatibia with a 
well-developed concave corbicula (Fig 1g).

The left legs were very similar to those of a normal 
male: foreleg with well-developed chemical gathering tufts 
on second through fourth protarsomeres (Fig 1d), an incipient 
velvety area, and tufts on the outer surface of mesotibia (Fig 
1f). In the hind leg, a flattened metatibia with the appearance 
of a deformed corbicula can be observed. In addition, there is 
a slit with a very irregular shape in its lower portion, widened 
in its initial and final parts, while in the middle portion it 
becomes a thin line. In normal male specimens, the slit has a 
regular width throughout (Fig 1h).

Wings without notable difference in size. Both hind 
wings with a jugal comb (typical of male euglossine bees), 



Sociobiology 68(3): e5778 (September, 2021) 3

left wing with 20 blades, the right with only 15. Both wings 
differ in the number of hamuli, the left having 37, and the 
right 35. However, this is not a sex-related character. Based 
on our observations in specimens of both sexes and several 
species of Eulaema, the number of hamuli can vary in the 
wings of the same individual.

Metasoma. Abdomen with five visible terga and six 
sterna (tergite six is naturally lacking), which would be the 

number of visible terga for a normal female. It also appears 
to be bilaterally asymmetric, with slight differentiation in size 
between the right and left sides of the terga and sterna. The 
right side is slightly coarser than normal females, the left one 
being less bulky (Fig 1i). A well-developed stinger (7.15), as 
in normal females, emerges from the final segments (Fig 1j).

Terminalia. The genital parts, although slightly 
modified, match those of a female of the same species (Fig 2a).  

Fig 1. Eulaema meriana gynander: a. Front view of the head, b. Ventral part of the mandibular insertion (left side with a 
conspicuous bifurcated lobe), c. Right foreleg, d. Left foreleg, e. Right middle leg, f. Left middle leg, g. Right hind leg, h. Left 
hind leg (with malformation), i. Ventral view of the abdomen (bilaterally asymmetric), j. Final tergites of the abdomen with a 
well-developed sting. Scale bars = 2 mm. 



Alex Pazmiño-Palomino, Marcio L. Oliveira – First case of gynandromorphism in Eulaema meriana4

A normal female has two rami of valvulae that converge to 
form the stinger; however, one of the rami of valvulae (the 
lower) is not connected to the sting in the gynander specimen 
and is ending freely in the genital capsule. The longer one 
emerged from the upper part of the capsule, appearing as a 
longer and thinner ramus. Sternite 6 similar to that of a normal 
female (Fig 2b).

Material examined. Ecuador, Los Ríos, Buena 
Fé, Patricia Pilar, Centro Científico Río Palenque, 140m, 
00°34’55” S, 79°22’01” W; 12 Feb 1987; Calaway Dodson 
leg. (Collection method is not mentioned). Deposited in 
Instituto Nacional de Biodiversidad – INABIO [MECN]. 
Catalog number: MECN-EN-HYM-1626. M. L. Oliveira det.

Fig 2. Terminalia of El. meriana gynander: a. Genitalia of gynander (in lateral view), sting emerges from the upper part of 
the genital capsule and not the lower one, b. Sternum 6 in dorsal view. Scale bars = 1 mm.

Discussion

Eulaema meriana (Olivier) is one of the most widely 
distributed orchid bee species in the Neotropical region, 
from Guatemala to Bolivia (Oliveira, 2007). Despite being 
a relatively common species, this is the first record of a 
specimen with morphological characteristics of both sexes 
and the seventh documented case in the tribe Euglossini.

In this specimen, most of the secondary sexual 
characters are distributed bilaterally, half male left and half 
female right. However, the hind wing jugal comb on both 
sides (male feature) and female terminalia would classify this 
case as mixed or mosaic gynandromorphy. The other known 
case within the genus, Eulaema atleticana Nemésio (Silveira 
et al., 2012), is also classified as mixed. Still, it differs from 
the case presented here because it does not present bilateral 
sexual secondary characteristics. On the contrary, each tagma 
has characteristics of one sex or another. Furthermore, the 
head and mesosoma have characteristics of male and the 
metasoma of female, while there is an alternation of characters 
on the legs.

The mixed or mosaic pattern of this case in El. Meriana 
corresponds with all reports of orchid-bee gynanders, where 
male and female structures were distributed in patches 
throughout the body. However, the distribution of characters 
was irregular among body sections in prior cases (Giangarelli 
& Sofia, 2011; Hinojosa-Díaz et al., 2012; Silveira et al., 
2012; Camargo & Gonçalves, 2013; González, 2014; Suzuki 
et al., 2015) (see Table 1), establishing a pattern of phenotypic 
intersexual anomalies in Euglossini. This aligns with the trend 
of most known cases of gynandromorph bees worldwide that 
present this gynandromorph type (Wcislo et al., 2004; Michez 
et al., 2009; Hinojosa-Díaz et al., 2012).

Detection of gynandromorphism in orchid bees should 
be facilitated by the marked sexual dimorphism between 
males and females, a situation that does not occur in other 
groups of bees (Hinojosa-Díaz et al., 2012). Males have 
specialized morphological structures to collect fragrances for 
reproductive purposes, while females are morphologically 
homogeneous, to the point that many are not possible to 
identify species without an associated male (Roubik & Hanson, 
2004; Rasmussen et al., 2015).



Sociobiology 68(3): e5778 (September, 2021) 5

On the other hand, the methodology with which the 
specimen described here was collected has not been written 
on the original label. But we presume that it could be collected 
with attractants for a male orchid bee. Since our observations, 
most of the orchid bee specimens donated by C. Dodson to 
INABIO were collected with attractive fragrances such as 
eucalyptus oil, methyl salicylate, among others that only the 
males of this group collect for reproductive purposes.

Despite the notable morphological differences between 
the sexes and the anomalies that this specimen presents, it has 
taken more than 33 years since it was collected for a specialist 

to determine it as a case of gynandromorphism. This is due to 
the notable lack of knowledge of the Ecuadorian bee fauna. 
Although, in recent years, euglossines have been the relatively 
most studied group of this fauna, to the point that they are the 
only group that currently has a species checklist and several 
recent revisions (Botsch et al., 2017; Padrón et al., 2018; López, 
2018; Yanouch et al., 2018; Suárez-Torres, 2019; Roubik, 2019).

The case published here follows this trend of increasing 
melittological research and a positive outlook for greater 
knowledge of this fantastic pollinator group in Ecuador and 
the Neotropical region.

Species Gynandromorph type Deviant phenotypic characters Reference

Euglossa iopoecila Dressler Mixed
Head right half ♀, left half ♂; mesosoma: left half ♂, 
right half ♀, (mesoscutellum, ♀-like); metasoma ♀,
 except left half of the second sternum ♂

Giangarelli & 
Sofia, 2011

Euglossa tridentata Moure Mixed

Head and mesosoma: right half ♀, left half ♂, 
but labrum with reversed sides, mesoscutellum ♀-like, 
legs mixed; metasoma: right half ♀, left half ♂ basally 
(distal segment lost)

Hinojosa-Díaz et 
al., 2012

Eulaema atleticana Nemésio Mixed head and mesosoma ♂, metasoma ♀, legs mixed
Silveira et al., 
2012

Euglossa pleosticta Dressler Mixed
Head right half ♂, left half ♀; legs mixed; mesosoma ♀; 
metasoma ♀

Camargo & 
Gonçalves, 2013

Euglossa melanotricha Moure Mixed
Head, mesosoma, and metasoma ♀; right legs ♀, 
left legs ♂

Suzuki et al., 
2015

Euglossa gorgonensis Cheesman Mixed Head and mesosoma ♂; legs mixed. González, 2014

Eulaema meriana (Olivier) Mixed
Head and mesosoma left half ♂; Right 
half ♀ (mesoscutellum ♀-like); genitalia ♀.

This work

Table 1. Comparison of characters among orchid bee gynanders recorded until today.

Acknowledgments

We thank the Trilateral Cooperation Program Germany-
Brazil-Ecuador, which made collaboration between INABIO 
(EC) and INPA (BR) possible. Thanks to Roberto Andreocci 
for help with the photographic material, terminalia dissections, 
and important corrections in the text. Special thanks to John 
Christopher Brown and Mario E. Cohn-Haft for the English 
revision. MLO thanks to productivity grant No. 305150/2020-
0 awarded by CNPq.

Author’s Contribution: 

MLO: conceptualization, writing-original draft, writing-
review and editing, supervision.

APP: conceptualization, methodology, writing-original 
draft, writing-review and editing, supervision.

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