Mysmenidae, Petrunkevitch, 1928

Mysmenidae View in CoL

As currently circumscribed, Mysmenidae comprises 158 described species in 14 genera (World Spider Catalog, WSC, 2020, see Lopardo & Hormiga, 2015 for the removal of the genus Phricotelus from the family and its placement as Araneoidea incertae sedis). The respiratory system has been studied and described (or only reported) by a small number of arachnologists but for a relatively large number of species, encompassing six genera: Mysmena ( Marples, 1955; Levi, 1956, 1967; Forster, 1959; Lopardo & Michalik, 2013; Lopardo & Hormiga, 2015), Microdipoena ( Levi, 1956, 1967; Forster, 1959; Lopardo & Hormiga, 2015), Mysmenopsis ( Forster, 1959; Lopardo & Hormiga, 2015), Maymena ( Gertsch, 1960; Lopardo & Hormiga, 2015), Isela ( Griswold, 1985; Lopardo & Hormiga, 2015), and Trogloneta ( T. cantareira ; Brescovit & Lopardo, 2008; Lopardo & Hormiga, 2015). There is a large diversity of respiratory arrangements within Mysmenidae (see Table 1 and supplementary material). Contrary to other symphytognathoid families (see below), and except for a few species, a different and peculiar arrangement can consistently be found on each particular genus or subfamily, which are described below. The ancestral mysmenid respiratory system based on the total evidence phylogenetic hypothesis of Lopardo et al. (2011) is as follows: anterior tracheal system extending into the prosoma and connected by a transverse duct; posterior tracheal system comprising a single narrow spiracle adjacent to the spinnerets and internally consisting of a small atrium, median entapophyses and lateral tracheae restricted to the opisthosoma, and arranged separately, most likely resulting in four trunks usually arising independently from the posterior spiracle, via a small atrium (Figs. 5 and 6). No extant mysmenid species, however, is known to have this hypothetical ancestral tracheal system. The mysmenid ancestral reconstruction based on the phylogenetic hypothesis of Kulkarni et al. (2021) renders a similar anterior respiratory arrangement; but due to the placement of Synaphridae as sister to Mysmenidae , the reconstruction of the posterior respiratory system is rendered ambiguous (median tracheae as third entapophyses, but either a simple or a complex lateral tracheal system) (not shown, refer to Figs. 5 and 7). The respiratory system for Brasilionata , Chanea , Gaoligonga , Mosu , Mysmeniola , Phricotelus , Simaoa , and Yamaneta remains unknown.

Maymena View in CoL The anterior respiratory system of Maymena View in CoL has been studied in Maymena mayana View in CoL by Gertsch (1960), and its respiratory arrangement (“Book lungs present and tracheal tubes arising from spiracle located immediately in front of spinnerets”; Gertsch, 1960:31) was assumed to be similar in the additional Maymena species described in that study (i.e., M. chica View in CoL , M. misteca View in CoL , M. calcarata View in CoL , and M. ambita View in CoL ). The respiratory system of Maymena View in CoL was also briefly reported in Lopardo and Hormiga (2015:778). Anteriorly, M. mayana View in CoL and M. ambita View in CoL possess book lungs consisting of about 20 leaves and connected by a rigid transverse duct, in M. rica View in CoL the book lungs are reduced ( Fig. 1a, c, d View Fig ). In addition, one tracheal tube arises from the reduced book lungs in M. rica View in CoL ( Fig. 1d View Fig ; see discussion below). Posteriorly, all Maymena species studied have two long single lateral tracheal tubes (seemingly confined to the opisthosoma) and two short (seemingly) median entapophyses arising from a small atrium connected to a narrow posterior single spiracle ( Fig. 1b View Fig ), an arrangement identical to what can be regarded as the ancestral reconstruction of the mysmenid posterior respiratory system (Fig. 5). Concurrently, although characteristic of Maymena View in CoL within Mysmenidae View in CoL , the same respiratory arrangement of Maymena View in CoL is also present in theridiosomatids as well as other members of Araneoidea (e.g., Steatoda View in CoL ), suggesting that this arrangement may have evolved independently within the family.

Trogloneta View in CoL The respiratory system of Trogloneta View in CoL has been described in detail for Trogloneta cantareira ( Brescovit & Lopardo, 2008) View in CoL and also reported in Lopardo and Hormiga (2015:779). Anteriorly, two reduced book lungs with seven leaves each, connected by a rigid intertracheal transverse duct ( Fig. 1e, g View Fig ). Posteriorly, a tracheal system with one narrow spiracular opening located adjacent to the spinnerets, small atrium connected to two unbranched single lateral tracheae confined to the abdomen and one single unbranched (i.e., fused) seemingly median entapophysis. This distinct respiratory arrangement is also found in T. granulum View in CoL ( Fig. 1e, f View Fig ), and it may be widespread within the genus.

Mysmenopsinae Each of the genera comprising the kleptoparasitic subfamily Mysmenopsinae is characterized by a different respiratory arrangement. The respiratory system of Isela View in CoL was first described in detail by Griswold (1985) for I. okuncana View in CoL . Posteriorly, one narrow spiracle located adjacent to the spinnerets, atrium connected to four long unbranching tracheal tubes (corresponding to a pair of single median tubes and a pair of single lateral tubes) confined to the abdomen. Anteriorly, the respiratory arrangement was described as “…atria giving rise to 13–14 short trachea-like lamellae…” ( Griswold, 1985:208) also restricted to the abdomen. The respiratory system of another Isela View in CoL representative was examined ( Isela sp. – “ Kilifina- MYSM-002- KENYA ”; Lopardo & Hormiga, 2015:780). Posteriorly, it is identical to the respiratory system described for I. okuncana View in CoL ( Fig. 2a, c View Fig ); anteriorly, it has reduced book lungs of about 14–15 leaves, but it also has a cluster of about six tracheae arising dorsally from the most dorsal leaf of the lungs ( Fig. 2a, b View Fig ; see discussion below). This could have been the confusing mixed condition observed in I. okuncana View in CoL under light microscopy. The anterior system of Isela sp. is connected by a rigid intertracheal transverse duct, as it is presumably also in I. okuncana View in CoL .

The respiratory system of Mysmenopsis View in CoL was first reported for M. palpalis View in CoL by Forster (1959), who discussed the details, diversity, and evolution of the respiratory system in many genera representing different families within symphytognathoids. Remarkably, the anterior system of this species consists of tracheae (not book lungs). The anterior tracheae extend to both prosoma and opisthosoma. Posteriorly, one wide spiracle (reported by Forster as two close spiracles) located adjacent to the spinnerets leads to two long tracheal tubes (most likely the lateral pair). The respiratory system of Mysmenopsis View in CoL was described in Lopardo and Hormiga (2015:781, based on M. dipluramigo View in CoL and M. penai View in CoL ): anterior tracheal system composed of several tracheoles extending to the abdomen as well as the prosoma, connected by a membranous intertracheal transverse duct ( Fig. 2d View Fig ). In addition to sharing the same anterior tracheal arrangement, all Mysmenopsis species have a wide posterior spiracle adjacent to the spinnerets. However, the posterior tracheal system of the two species examined in Lopardo and Hormiga (2015) differs from the one described by Forster (1959) in that it consists of two bundles of lateral branching tracheae arising from the atrium at each end of the posterior spiracle, seemingly restricted to the abdomen ( Fig. 2d, f View Fig ). The posterior median structures are presumed absent, or are alternatively functional tracheae intercalated with and identical to the lateral tracheal bundles.

Mysmeninae Each of the four characteristic respiratory arrangements mentioned above are typical of four different but closely related genera ( Maymena View in CoL , Trogloneta View in CoL , Isela View in CoL , and Mysmenopsis View in CoL ). The subfamily Mysmeninae , comprising the remaining investigated mysmenid genera (i.e., Microdipoena View in CoL and Mysmena View in CoL , and the several undescribed taxa examined herein and in Lopardo and Hormiga (2015); see Table 1 and supplementary material), have a remarkably different, although quite conserved, fifth type of respiratory arrangement, which is typical and unique for this subfamily (but see below). This respiratory system has been previously described ( Marples, 1955; Levi, 1956, 1967; Forster, 1959), although these descriptions were understandably superficial in the absence of SEM examination (but see a detailed description of the respiratory system of Mysmena leichhardti View in CoL in Lopardo and Michalik (2013) and of Mysmeninae in Lopardo and Hormiga (2015:783)). Anteriorly, several tracheal tubes seemingly restricted to the abdomen arise on each atrium, which are connected by a rigid intertracheal transverse duct ( Fig. 3c View Fig ). The posterior tracheal system opens through a wide and advanced tracheal spiracle located halfway between the spinnerets and the epigastric furrow. The shape of this wide spiracle is similar to that described for synaphrids (Lopardo & Hormiga, 2007; Lopardo et al., 2007; see discussion below), consisting of two distant openings connected by a thin furrow ( Fig. 3a View Fig ). The thin furrow is almost imperceptible under light microscopy, and therefore it has been described as two separate spiracles in previous mysmenid studies. Internally, mysmenines have a common M-shaped atrium, where two bundles of branching lateral tracheae arise on each side, most of them extending into the prosoma ( Fig. 3b–d View Fig ). Two-minute seemingly median entapophyses, each arising from the two most anterior locations of the M-shaped atrium, are each surrounded by a bundle of lateral tracheae ( Fig. 3e View Fig ). These apodemes are only visible by SEM and had been consequently overlooked in the original descriptions. Given that so far all examined Mysmeninae species seem to have this remarkable tracheal system (but see below), it seems reasonable to predict that this tracheal pattern is widespread in this subfamily.

The anterior respiratory system of Microdipoena guttata View in CoL was described by Levi (1956; also 1967) as being an intermediate stage between tracheae and book lungs: “… structures between the seminal receptacles and the body wall which may be remains of book lungs but do not seem to be trachea” ( Levi, 1956:3). The internal respiratory system of M. guttata View in CoL (examined here and in Lopardo & Hormiga, 2015), consists of a posterior system as described above (and also identical to that reported by Levi, 1956:3 “…trachea extending from the spiracles between spinnerets and genital groove, but these are bunched for a shorter distance and seem connected at their base”). Anteriorly, nevertheless, the extremely large, membranous and convoluted copulatory ducts of this species (also common within Mysmeninae ) might have been misinterpreted as the “intermediate” structures (see e.g., Fig. 3b View Fig ).

Two Mysmena species have each been reported as having a unique respiratory arrangement. Mysmena phyllicola View in CoL has been described to have anterior book lungs of about five elongate lamellae ( Marples, 1955), which was considered similar to the “intermediate stage” reported for Microdipoena guttata View in CoL (see above; Forster, 1959), and a posterior respiratory system consisting of one single relatively advanced tracheal spiracle (located halfway between the spinnerets and the epigastric furrow) connected to four tracheal tubes restricted to the abdomen. Mysmena vitiensis View in CoL , on the other hand, has two anterior unconnected tracheae, and one single and advanced posterior spiracle also connected to four tracheal tubes restricted to the abdomen ( Forster, 1959). The holotype and only specimen of M. vitiensis View in CoL was not available for study. The type material and only specimens of M. phyllicola View in CoL were examined here, but no detailed observation was possible. Given the limited observations of the respiratory system of these two species and the peculiarity of their arrangements, more specimens are required to confirm the available data. Finally, we expect that the closely related genera Brasilionata View in CoL and Mysmeniola View in CoL as well as the three-dimensional spherical web builder genera Simaoa View in CoL and Gaoligonga View in CoL might also have a respiratory arrangement similar to those described here.