Spotted males , uniform females and the lowest chromosome number in Tettigoniids recorded : Review of the genus Gonatoxia Karsch ( Orthoptera , Phaneropterinae )

The genus Gonatoxia Karsch, which was synonymized with Dapanera Karsch by Massa (2015), is re-established. Data on habitat, biology, ecology, the acoustics and on chromosomes are provided as well as a key to the species. The male of G. immaculata Karsch and the female of G. maculata Karsch are described. G. furcata sp. n. from the Udzungwa Mountains of Tanzania and G. helleri sp. n. inhabiting coastal and lowland wet forest are newly described. All species have calling songs consisting of very short, resonant syllables, produced in species specific intervals, and with peak carrier frequencies between 13 and 24 kHz. In respect to chromosome numbers Gonatoxia species showed extreme differences (from 29 to 7) suggesting rapid evolutionary changes. G. helleri sp. n. so far is the tettigoniid species with the lowest number of chromosomes at present. Gonatoxia species may be used as bioindicators, their presence suggesting valuable habitats that are vanishing rapidly in East Africa.


Introduction
Lowland and coastal forests in East Africa are diminishing rapidly although their importance as hotspots of biodiversity and endemism are acknowledged (Burgess and Clarke 2000;Burgess et al. 2007).Coastal and lowland wet forests also harbor a high biodiversity of Orthoptera.Many Orthoptera species have a narrow ecological niche and are restricted to well defined plant assemblages (e.g.Hemp andHemp 2003, Hemp 2005a, b) and can thus be used as bioindicators (Hemp et al. 2014), useful tools to identify habitats deserving protection.The presence of e.g.Tropidonotacris grandis indicates dry deciduous forest or "Obstgartensteppe", two habitat types highly endangered by habitat destruction in Tanzania (Hemp et al. 2014).The Phaneropterinae Parapyrrhicia acutilobata on the other hand indicates lowland wet forest, a forest type of which only few patches remained in East Africa (Hemp et al. 2016).If coastal forest is opened up or converted to grasslands the faunistic composition changes completely, mostly endemic and often flightless forest species are replaced by wide-spread and mainly fully mobile taxa (Hemp 2005b).
Until recently species of the genus Gonatoxia were poorly collected and little or no data were available on their biology, habitat or chromosomes.Karsch (1889) erected the genus Gonatoxia and described two species on two specimens, G. immaculata on a female from the Usambara Mountains, and G. maculata on a male from Somalia.In naming the species he referred to the maculae on the tegmina, present in the male of G. maculata, absent in the female G. immaculata.Very few specimens were collected of G. maculata since its description and stored in various entomological collections.For G. maculata a larger distribution area is suggested since the few known specimens were collected from Somalia, Kenya and Tanzania.For G. immaculata only the female holotype was known.When screening savanna habitats around Kilimanjaro at night larger numbers of G. maculata specimens could be collected in the past couple of years.When focusing on Tanzanian coastal and lowland wet forests specimens of G. immaculata were found.Only the study of a larger series of individuals clarified the status of the species which is now presented in this study.G. furcata sp.n. and G. helleri sp.n. are newly described and data on morphology, ecology, acoustics and chromosomes provided.

Material and methods
Measurements.The total body length refers to the body length of the insect without tegmina.In females the ovipositor is not included in the body length, its length is taken from the tip to the base of the subgenital plate not considering the curvature.Length of tegmina are taken from above.
Acoustics.Songs were recorded in the laboratory using a digital bat detector (Pettersson D1000X) with sampling rates between 100 and 192 kHz and, additionally, a Sony ECM-121 microphone (frequency response relatively flat up to 30 kHz; own tests) connected to a personal computer through an external soundcard (Transit USB, "M-Audio"; 64-kHz sampling rate).
Song measurements and sonograms were obtained using AMADEUS II and AMADEUS Pro (Martin Hairer; http://www.hairersoft.com).Oscillograms of the songs were prepared using TURBOLAB (Bressner Technology, Germany).All recordings were made at temperatures between 20 and 27 °C.The singers were caged in plastic tubes, wire mesh cages or gauze cages with microphone fixed or hand held at distances between 5 and 60 cm.Data are presented as mean ± standard deviation.
Terminology.Syllable: sound produced during one cycle of movements (opening and closing of the tegmina), in Gonatoxia equivalent to a pulse; echeme: first order assemblage of syllables; pulse: undivided train of sound waves increasing in amplitude at the beginning and containing many similarly sized wave maxima and minima (cricket-like song structure; example see Fig. 20).
Chromosomes.G. maculata (еleven males and one female), G. immaculata (two males and two females), G. furcata sp.n. (one male) and G. helleri sp.n. (twelve males and seven females) were used for classical cytotaxonomic analyses.Chromosome preparation was obtained from adult gonads and gastric caeca.Testes, ovaries and gastric caeca were excised, incubated in a hypotonic solution (0.9% sodium citrate), fixed in ethanol -acetic acid (3:1, v/v) and stored at 2 °C until use.The fixed material was squashed in 45% acetic acid.Cover slips were removed by the dry ice procedure and then preparations were air dried.Constitutive heterochromatin was revealed by the technique as described by Sumner (1972).Chromosomes were classified on the basis of the criteria proposed by Levan et al. (1964).At least ten spermatogonial and/or oogonial metaphase and/or 20 meiotic divisions (diakinesis and metaphase I) per male, were analyzed.
Remarks.Massa (2015) synonymized Gonatoxia with Dapanera since the males of Dapanera and Gonatoxia maculata have a similar outer appearance and genitalic morphology.Massa discussed that morphological differences between the genera Dapanera and Gonatoxia given by Karsch (1889) are too small to rectify genus status.Differences between the both genera referred to the fastigium of vertex not being sulcate in Gonatoxia, sulcate in Dapanera, the tegmina wider in Gonatoxia compared to Dapanera and the genicular lobes of the hind femora wearing a spine in Gonatoxia and are unarmed in Dapanera.Massa (2015) discussed that also Gonatoxia has a sulcate fastigium verticis and Dapanera species may have a small spine on the genicular lobes.The only distinguishing character between both genera remaining as given by Karsch (1889) was tegmina width.
Until recently little material was available in museum collections from the two known species of Gonatoxia.Now specimens of G. maculata were collected on Mt Kilimanjaro (Hemp 2013a), fair numbers of this species few months later in savanna habitats and deciduous dry forests around Mt Kilimanjaro and in the North Pare Mountains (Hemp 2013b).Since many more specimens were collected now from various Tanzanian localities and compared to the types and each other it became clear that the females of G. maculata and G. immaculata are very similar and the majority of collected specimens were without maculae on the tegmina.Males of G. maculata as well as of G. immaculata have maculae on the tegmina, but clearly differing in their genitalic morphology.Thus the name given by Karsch (1889) referring to the maculae on the tegmina is misleading since in both species males have well developed maculae.A third species, G. furcata sp.n. was detected in the Udzungwa Mountains clearly separated from the other species by a different colour pattern and the male genitalic system.G. helleri sp.n. is very similar to G. maculata and intensive studies on its acoustics were conducted to separate these two species which occupy different habitats.The four species exhibit a very uniform outer morphology, the females having stout, little serrated and strongly up-curved ovipositors while all species of the genus Dapanera also uniformely have a more elongated ovipositor (Fig. 1) strongly differing in shape from that in Gonatoxia.All Gonatoxia species are stout with a vivid yellow dorsal abdomen (Fig. 2B).The male genitalia of Gonatoxia are only superficially similar to those of the genus Dapanera.Thus genus status is justified by a very homogenous outer morphology of Gonatoxia species (Fig. 2) compared to Dapanera species.Therefore it is proposed to reinstate the genus Gonatoxia.Description.Male.Males are characterized by a median deeply incised subgenital plate.The styli are long and slender and about 1.5 times longer than the medi-an incision (Fig. 3C).The cerci are stout, the tips wear a sclerotized ridge with numerous teeth (Fig. 3A, B).On the tegmina 2-6 white to ivory white patches are usually present which vary in number and size between the individuals (compare Fig. 2A).Teeth of stridulatory file at underside of left tegmen increase gradually in size (Fig. 4A) towards the anal end.Mirror area as in Fig. 5A, B.

Gonatoxia maculata
Female.General habitus and colour.Predominantly green with broad oval tegmina and strongly up-curved ovipositor.Venation of tegmina often light green and often with tiny white dots scattered over tegmina, thus resembling a leaf perfectly.Whitish dots also on pronotum and legs.A pair of yellowish to whitish lines often present starting in upper part of compound eye and running over head and pronotum.Abdominal tergite bright yellow (2 B), tarsi whitish.Head and antennae.Antennae thin and whitish, surpassing tegmina.Eyes round, except for yellowish-whitish upper part green or brown-green.Thorax.Pronotal disc flat, longer posteriorly than pro-  notal lobes which are evenly rounded at lower part, with acute edge at insertion of tegmina and wings.Tegmina broad with leaf-like pattern of veins, truncate at tips, alae surpassing tegmina.Alae hyaline except for tips which are of same green colour than tegmina.Stridulatory teeth on the right tegmen for female response to male calling song as in Fig. 6A.Legs.As in male.Fore femora with 3-4 outer spines, mid femora with 1-2 outer spines.Hind femora with 6-8 inner spines long whole length, outer side with 4-5 smaller spines at distal end of femur.Hind tibiae about length of hind femora, stout, in diameter almost tri-angular, curved.Abdomen.Plump abdomen with ovipositor strongly up-curved, valves at posterior third weakly sclerotized and serrated (Fig. 7A).Bowllike structure lateral at base of ovipositor with strongly elevated lower margin, densely hairy in this region (Fig. 7A, 8A).Subgenital plate narrowly tri-angular (Fig. 9A).Cerci unmodified with stout base and slender elongated tip, strongly setose (Fig. 7A).
Since only data for the holotype male of G. maculata are available at present, we provide more measurement data.Biology.A pair from Kilimanjaro mated on the 19 th of November 2014.Mating only took a couple of minutes.A spermatophore containing a two-parted spermatophylax was transferred to the female (Fig. 13).Two days later the female laid 26 eggs into the tissue or on the margin of a broad leaf (Fig. 12A).When offered leaves and dried twigs, females usually laid eggs in series on twigs (Fig. 12B).First eggs from a further female (mating was not recorded) hatched on the 31 st of July 2015 (Fig. 11) and the first adult moulted on the 11 th of October 2015.Thus development of nymphs takes about 2.5 months (laboratory conditions).
In two matings (one male, two females; interval about two months) of culture-reared specimens the male weighed 1584 and 1590 mg and the females 1950 and 1830 mg (all before mating) and the two-parted spermatophores 214 and 169 mg (each value mean of male weight loss and female weight gain).
Habitat.Savanna woodlands and deciduous dry forest up to submontane elevations.
Distribution.Tanzania, Kenya, Somalia.Description.Male.Color dark and shiny green, with few ivory to orange patches on tegmina; tergites of abdomen vivid yellow, venter whitish to light green; fore femora dorsally light brown, same colour as tarsi (Fig. 14).Head and antennae.Antennae thin, green, surpassing tegmina by about 1/3.Eyes round, brown-red.Thorax.Pronotal disc flat with sharp lateral edges, anterior margin v-shaped incurved, posterior margin of disc broadly rounded as described for genus (Karsch 1889).Lower margin of pronotal lobes broadly rounded, deeper than long, with sharp edge where wings are inserted.Tegmina broad, posterior end broadly truncate.Stridulation area tri-angle shaped flat on same level as pronotal disc as typical for genus.Stridulatory file as in Fig. 4B.Alae surpassing tegmina, in this area of same dark green shiny colour; with acute tips.Femora ventrally with spines.Fore tibiae slightly inflated in area of tympana.Abdomen.Last abdominal tergite with straight posterior margin (Fig. 3D).Cerci stout and setose; at tips where serrated ridge starts slightly incurved (Fig. 3E), almost touching each other in alive insect.Subgenital plate with two short lobes, styli slightly inflated (Fig. 3F).

Gonatoxia immaculata
Female.Similar as male in habitus and colour.Stridulatory veins as in Fig. 6B.Ovipositor as in Fig. 7B.Bowllike structure laterally on ovipositor more shallow as in G. maculata (Fig. 8C).Subgenital plate as in Fig. 9B.
Nymphs.Nymphs similar to adults (Fig. 10 B).Generally with a more shiny integument than in G. maculata (Fig. 10A) and with dorsal abdomen brown.
Males (n = 2): Total length of body: 24-29; median length of pronotum: 6. Diagnosis.Females of G. maculata, G. immaculata and G. furcata sp.n. are very similar.Differences are seen in the general coloration especially when specimens are alive.G. maculata and G. helleri sp.n. females are of lighter green colour while those of G. immaculata and especially G. furcata sp.n. are darker green and the tegmina shiny (Fig. 2B, C, D).The subgenital plate in G. maculata is not as broad as those of G. helleri sp.n., G. immaculata and G. furcata sp.n. (Fig. 9A, B, C, D) but the differences are not very pronounced.Lateral at the base of the ovipositors a bowl-like structure is present in all Gonatoxia species (arrows Fig. 7).In G. maculata this bowl-like structure is large and more deeply excavated than in G. immaculata (Fig. 8A).In G. furcata sp.n. inside the "bowl" a hump is located at the upper part and the lower margin is not hairy as in the other two species.The bowllike structure in G. helleri sp.n. is very shallow and not as setose (Fig. 8B).Further G. immaculata females are smaller than those of G. maculata and G. helleri sp.n. while G. furcata sp.n. females are generally larger than those of the other three species.
Males are distinguished when comparing the outer genitalic morphology.In G. maculata the cerci are evenly tapering to their apices, the tips wearing a short and straight serrated ridge (Fig. 3B) while in G. immaculata the tips of the cerci wear a longer and curved serrated ridge (Fig. 3D,  E).G. helleri sp.n. has similar built cerci as G. maculata but instead of a serrated ridge (Fig. 3B) a smaller ridge or 1-4 closely clustered teeth are located at the tips.In G. furcata sp.n. the tips of the male cerci are elongated, scythe-shaped with a very long serrated ridge (Fig. 3G,  H, I).Males of all four species have maculae on the tegmina (Fig. 15).In G. maculata these white patches can be small or large and conspicuous, most specimens had 3-6 of these markings.In the known specimens of G. immaculata the patches were orange-brown (Fig. 14, 15C).The maculae of G. furcata sp.n. resemble those of G. immaculata, being orange-brown.G. helleri sp.n. usually has small longish white maculae and mostly not more than 2-4 (Fig. 15B, 16A).
Description.Male.Color dark and shiny green, with few ivory patches on tegmina; tergites of abdomen vivid yellow, venter whitish to light green; fore femora dorsally light brown, same colour as tarsi, thus similar to G. immaculata.Head and antennae.Antennae thin, green, surpassing tegmina by about 1/3.Eyes round, green, with light stripe beginning in eyes, running over the head getting yellow along lateral edges of the pro-  3G).Cerci stout and setose; tips scythe-shaped with long serrated ridge (Fig. 3G, H, I).Subgenital plate with very short lobes, styli slightly inflated (Fig. 3I).
Female.Similar as male in habitus and colour (Fig. 2D) but with broader tegmina.Stridulatory veins as in Fig. 6D.Ovipositor as in Fig. 7C, subgenital plate as in Fig. 9C.Diagnosis.G. helleri sp.n. is very similar to G. maculata.Both species have about the same size and colour and shape of tegmina and wings.However, G. helleri sp.n. usually have far less conspicuous maculae on the tegmina, being smaller and more longish and fewer in number.Mostly these maculae start about where the Rs vein branches off.Typical is also a dense net of white veins, especially in the costal area of the tegmen forming multiple small white dots.Also the costal margin is bordered white with veins branching off thick and very white in both sexes when alive (weakly expressed in the Udzungwa population of G. helleri sp.n.).The males of G. helleri sp.n. can also be distinguished from G. maculata by in the male cerci wearing a smaller sclerotized ridge or 1-4 single teeth clustered tightly together whereas G. maculata males wear a stouter and larger serrated ridge at the tips of the male cerci.Differences are also seen in the stridulatory file of the males.The stridulatory file of G. maculata evenly tapers in dent size from one side to the other (Fig. 4A) while in G. helleri sp.n. the stridulatory file is somewhat constricted and elevated midway with larger teeth following running to the margin of the left tegmen (Fig. 18; Fig. 4C, arrow) and thus dividing the whole structure into three parts.G. helleri sp.n. has a male subgenital plate which is not as deeply incised as in G. maculata and the styli are flattened and broad (Fig. 17C) while in G. maculata the subgenital plate is deeper incised and the cerci longer and more stout (Fig. 3C).G. immaculata and G. furcata sp.n. both are shiny dark green usually, G. immaculata males often have conspicuous white to orange patches on the tegmina.The cerci of male G. immaculata have a sclerotized curved ridge at their tips while G. furcata sp.n. males have scytheshaped cerci.The females are often difficult to identify since also more light green individuals of G. immaculata occur and the shiny colour vanishes in preserved specimens.Further G. helleri sp.n. was found syntopically with G. immaculata in the East Usambara Mountains.In the Udzungwa Mountains G. helleri sp.n. occurs syntopically with G. furcata sp.n.However, G. furcata sp.n. females are generally larger than G. helleri sp.n. females and of shiny dark green colour.G. immaculata females are difficult to distinguish from G. helleri sp.n. females and only the study of larger series comparing the bowllike structure laterally on the ovipositor may help to identify females of both species, especially in preserved specimens.
Description.Male.General habitus and colour.Predominantly green with oval tegmina and 2-4 small ivory  patches on tegmina (Fig. 16A).Whitish dots also on pronotum and legs.Pair of white lines often present starting in upper part of compound eye and running over head and pronotum.As in all Gonatoxia species abdominal tergite bright yellow, tarsi whitish.Head and antennae.Antennae thin and whitish, surpassing tegmina.Eyes round, except for whitish upper part green or light green.Thorax and wings.Pronotal disc flat, longer posteriorly than pronotal lobes which are evenly rounded at lower part, with acute edge at insertion of tegmina and wings.Tegmina broad with leaf-like pattern of the veins, slightly truncate at tips, alae surpassing tegmina.Alae hyaline except for tips which are of same green colour than tegmina.Tegmina with net of white veins, on veins often white dots are formed, especially in costal area (Fig. 15B).Costal margin white bordered with veins directly branching off at margin thick and white.Stridulatory file (Fig. 17D) separated into three parts with small teeth near tegmen base, an elevation midway (arrow Fig. 4C) and large teeth at outer part of file.Legs.Fore femora with one outer spine and 1-4 inner spines ventrally.Mid femora with 3 outer and inner ventral spines.Hind femora with double row of irregular set of 7-8 ventral spines.Fore tibiae in area of tympana slightly enlarged, with conchate inner tympanum and open oval tympanum on outer side; midway dorsal one spine, ventral several irregular set spinules.Mid tibiae with irregular set spinules in four rows.Hind tibiae dorsally two ridges densely covered by small spines, ventral side with few irregular set spines, curved.Abdomen.Venter white.Cerci slender and incurved (Fig. 17A, B), at tips with short ridge or 1-4 single sclerotized dents.Subgenital plate medially u-shaped incised, styli flat, roundish and somewhat inflated, touching each other medially when insect is alive (Fig. 17C).
Female.Similar to male in size but with more roundish tegmina and mostly without ivory patches on tegmina or 1-2 and very small ones, mostly where Rs branches off.Also with for this species typical costal margin bordered white with branching off veins thicker and white and net of white veins forming white dots.Stridulatory veins as in Fig. 6C.Ovipositor up-curved, serrated at tip (Fig. 7D).Bowl-like structure formed laterally on base of ovipositor as in Fig. 8B.Subgenital plate tri-angular (Fig. 9C).
Habitat.Lowland wet to submontane forest.Distribution.Tanzania and very likely Kenya.

Bioacoustics
Morphology of stridulatory organs: In the male, the slightly curved stridulatory file (Fig. 4) is found on the underside of the left tegmen, carrying between 50 and 60 teeth.
On the corresponding place of the right tegmen there is a similar sized (non-functional) file.At the anal end there is no trace of a lump or comparable structure.On the contrary, the file starts with a few weakly sclerotized teeth, which lead up to the elevated main part of the file.Here the steep side of the teeth is directed towards the anal end (Fig. 18; see Discussion).The inter-tooth intervals in G. maculata (n=2), G. immaculata (n=2) and G. furcata sp.n. (Holotype) decrease more or less continuously from 50 µm at anal end to 30 µm near the articulation (Fig. 19).In G. helleri sp.n. however, there is a discontinuity in the middle (see arrow in Fig. 4C), and the intervals in the basal part are around 55 µm (n=3).For function of this file part see Heller and Hemp, in prep.The mirror is relatively small and inconspicuous (Fig. 5), in G. helleri sp.n. a little bit more glossy than in G. maculata.
The females bear one distinct row of spines on each of several veins on the upper side of the right tegmen (Fig. 6; about eight in G. maculata) as it is typical for acoustically responding phaneropterine females (Heller et al. 2015).
Spectral composition of song: The frequency spectra of the male songs were relatively narrow-banded in all four species studied (for example see Fig. 20).In G. maculata the peak is between 12.6 and 17.4 kHz (n=17), in G. immaculata between 17.0 and 23.6 kHz (n=2), in G. fur-cata sp.n. 16.9 kHz (n=1) and in G. helleri sp.n. between 15.6 and 20.8 kHz (n=7).The bandwidth 10 dB below the peak was always between 1.3 and 3.9 kHz.All data refer to the first syllable of a pair of syllables (see below).
Song pattern.The calling songs of all studied species consisted of short (1-4 ms), resonant syllables (Fig. 21), often emitted in pairs.Comparing the grouping of these syllables or syllable pairs, the species can be separated into two groups.The first group consists of G. maculata and G. helleri sp.n.Isolated physically and acoustically, the males of these species produced long sequences of pulses.These series typically lasted 30 to 90 seconds and were separated by intervals of many minutes.Within a sequence, Gonatoxia maculata nearly always emitted pairs of pulses with intra pair intervals of about 70 ms and inter pair intervals of 2 s.In the song of G. helleri sp.n. pairs of pulses and single pulses were found, with intra pair intervals as in G. maculata and intervals between pairs/ single syllables ca.0.3-1 s.Additionally, in many recordings of both species stereotypic combinations of pulses were found, where an additional pulse (or a very dense pulse group) following after a pair (or in G. helleri sp.n. sometimes a single pulse) in an interval of about 250 ms.These combinations belong to the acoustical male-female-interactions and will be treated in a separate paper (Heller and Hemp, in prep).The males of the second group, consisting of G. immaculata and G. furcata sp.n., produced much shorter syllable series, lasting only a few seconds, and the intervals between the syllable pairs were also much shorter than in the first group.In G. immaculata the intra-pair interval was about the same as in the song of the members of the first group.However, both recorded males showed distinct differences concerning the inter-pair intervals and the frequency of single pulses.In G. furcata sp.n., the intra-pair interval was with about 120 ms distinctly larger than in the other three species.In this species, some of the short series followed each in relatively short intervals.

Cytotaxonomy
Comparison of the chromosomes of four Gonatoxia species revealed differences between their karyotypes, including the number of chromosomes (2n), the morphology of the chromosomes, the fundamental number of chromosome arms (FN) and C-banding patterns.All analyzed species show the same sex determining system: X0 (male) and XX (female) as well as the acrocentric X chromosome which is the largest element of the set.The standard karyotypes of G. maculata and G. immaculata were characterized by a chromosome number of 2n = 29 (males) and 30 (females).All chromosomes were acrocentric, consisting of three long, four medium and seven short pairs (Fig. 22A, B).In the single male investigated of G. furcata sp.n. (Fig. 22C) and one male of G. maculata from North Pare Mts, Lembeni the chromosomal number was reduced to 2n = 27; one medium pair was metacentric (FN = 29), whereas in second one probably acrocentric (not shown).One male of G. immaculata had mosaic cells with 29 and 27 chromosomes.C-banding revealed some differences in number and distribution of constitutive heterochromatin blocks (C-bands) between and within species (Fig. 22).
The study of spermatogonial, oogonial and somatic gastric caeca mitotic metaphase of G. helleri sp.n. showed in most cells 7 chromosomes, FN = 10, 11 in the male (Fig. 22D, F, G) and 8, FN = 11, 12 in the female (Fig. 22E).In all individuals the first long pair was meta/submetacentric, whereas the second long pair was polymorphic and characterized by three main karyomorphs (A, B, C) in respect to the morphology of homologous chromosomes and heterochromatin patterns of C-bands among analyzed specimens: (A) eight samples from the Udzungwa Mts and four from the Eastern Arc Mountains (Nilo forest reserve) presented meta-or submetacentric chromosomes in a homozygous or heterozygous state (Fig. 22D, E); (B) five individuals from the Udzungwa Mts and two coming from the Uluguru Mountains showed meta/submetacentric and acrocentric chromosomes (Fig. 22F); (C) one single male collected in the Uluguru Mts had homologous acrocentric chromosomes (Fig. 22G).After C-staining, chromosomes of this pair and in the third acrocentric pair showed quantitative variation in heterochromatin blocks among the analyzed individuals.

Taxonomy
Four species of Gonatoxia are known at present.However, further specimens stored in the entomological collection of the Natural History Museum in Vienna probably belong to new species of Gonatoxia.One male is labelled "Zanzibar", collected by A. Horn, showing cerci with only single sclerotized dents at their tips and an unlobed subgenital plate with short styli.Until further material gets available we decided not to describe this new species.
Another male specimen identified as "Arantia spinulosa" collected by A. Horn also belongs to Gonatoxia.This specimen is labelled "MKaffa", could thus come from Ethiopia.It is larger than G. maculata which it resembles in terms of male cerci, tegmina shape and maculation (Fig. 23).Since the locality is not clear further specimens have to be collected to clarify where this specimen is coming from and whether it belongs to a new species of Gonatoxia.
Further two specimens in Vienna were also studied, collected by Reimer labelled "DO Afrika" thus coming from Tanzania.Since the exact locality is unclear and the cerci could not be studied in detail without damaging the very old specimens a diagnosis to which species they belong is uncertain.One of the two males, however, could belong to G. immaculata since the subgenital plate agrees with males collected from the East Usambara Mountains and Kazimzumbwi Forest Reserve, the other to G. maculata.For the distribution of Gonatoxia species in East Africa see Fig. 24.
Studying a larger series of Gonatoxia specimens newly collected in Tanzania and from the entomological collections of Vienna and London showed that Gonatoxia is a very uniform genus and well separated from Dapanera which it superficially resembles.However, molecular studies on Dapanera and Gonatoxia are necessary to deepen our understanding about generic relationships, also on tribal level within Holochlorini.

Bioacoustics
The calling song of all four species of Gonatoxia consists of very short, cricket-like, resonant syllables, separated by large silent intervals, similar as in the genus Parapyrrhicia Brunner von Wattenwyl (Hemp et al. 2016).The duty cycle (percentage of time with actual sound emission) of these songs is obviously very low, and singing males are certainly difficult to detect by acoustically orienting predators or parasitoids (for a more detailed discussion of the advantages of this song type see Hemp et al. 2016).
However, the structure of the stridulatory file of Gonatoxia differs somewhat from that of Parapyrrhicia.The distribution of the inter-tooth intervals is similar, but from the anal end onwards the file runs on a slightly elevated bulge and the teeth are larger.In the larger teeth it is clearly visible that the steep side of the asymmetric teeth are directed to the anal side (Fig. 18).This structure has been observed only in species in which the sound is produced during the closing movement of the tegmina as in most tettigonioids (Heller 1988).According to a hypothesis of Montealegre-Z.( 2012) decreasing tooth intervals from anal to basal -as found in Gonatoxia maculata, G. immaculata, G. furcata and the anal part of G. hellericould indicate that sound is produced during the opening of the wings (called 'reversed' stridulation).However, the structure of the teeth strongly suggests a 'normal' sound production and questions the usability of inter-tooth intervals for documenting 'reversed' stridulation.

Chromosomes and evolution
The four species examined in this study revealed a remarkable variability in chromosome numbers and morphology.Patterns of chromosome evolution in this genus are very interesting and differ from the ancestral/model karyotype (2n = 31 in the male with acrocentric chromosomes) found in most tettigoniids (e.g.Warchałowska-Śliwa 1998) and most other African Phaneropterinae genera, e.g.Altihoratosphaga, Horatosphaga, Monticolaria, Lunidia, Parapyrrhicia or Tropidonotacris (Hemp et al. 2010a, b;2016).The ancestral chromosome number is reduced to 2n = 29 in G. maculata and G. immaculata, similar to Eurycorypha species (five species investigated so far; Hemp et al. 2013c) and Plangia (Hemp et al. 2015).This reduced chromosome number probably is the result of one tandem fusion.In G. furcata sp.n. the chromosome set is reduced to 2n = 27 (FN = 29) probably by Robertsonian translocation, whereas an unexpected karyotype with only 7 chromosomes (in males) was revealed for G. helleri sp.n.Up to now such an exceptionally low chromosome number was not found in any tettigoniid species.Typical for the karyotype and also for the different karyomorphs of this species are very large autosomes compared to all other species of this genus, obviously caused by multiple rear-  rangements.Such significant differences in chromosome numbers and the morphology very likely resulted from successive tandem and Robertsonian fusions in various combinations.Our cytotaxonomic studies indicate that dramatic chromosomal rearrangements took place during speciation of G. helleri sp.n. which is one of the most wide-spread species of the genus so far.Detailed karyotype analyses of Gonatoxia, especially for G. helleri sp.n. using classic and molecular cytogenetics methods will be given by Warchałowska-Śliwa et al. (in prep).

Conservation and bioindication
Gonatoxia species were rarely collected, partly because they are nocturnal species, well camouflaged in the tree layer of forests and seasonal.But they are rarely collected partly also because they occur in habitats that are vanishing rapidly and also never had a large extension formerly.Gonatoxia maculata was only caught in deciduous dry forests and a vegetation type which was called "Obstgartensteppe" = orchard steppe by the Germans, since the trees are scattered and resemble superficially fruit trees planted in an orchard.Both vegetation types are rapidly vanishing in East Africa.The North and South Pare Mountains for example still harbour deciduous dry forests especially at their northern slopes.However, a rapidly increasing human population impact these forests by cutting, burning and using also steepest slopes as range land for life stock these days.The same holds true for the vegetation type "Obstgartensteppe" which is almost lost e.g. on Mt Kilimanjaro.Thus the presence of species such as Gonatoxia maculata serve as information about the vegetation types they are bound to, and therefore this species can be used as a bioindicator.The same was suggested for Tropidonotacris grandis occurring in same habitat types as G. maculata (Hemp et al. 2014).Another type of habitat rich in biodiversity and endemics, lowland wet forest, is indicated by Gonatoxia immaculata, G. furcata sp.n. and G. helleri sp.n.Coastal and lowland forests, once a contiguous belt along the Kenyan and Tanzanian coasts and at the foothills of mountain ranges and mountains are almost entirely cleared away today.Only few patches, mostly protected as forest reserves, are left.With them an unique flora and fauna disappear replaced by scrub and grassland harbouring some wide-spread species at the most.Thus passing e.g. between Segera at the northern coastal strip to Chalinze near Dar es Salaam in Tanzania forest has been completely cleared away over hundreds of square kilometers and barren land supports meagerly brittle life stock today.Reforestation programmes for the production of timber and fire wood could take away the pressure from the remaining few patches of coastal and lowland forest and should urgently be initiated.
Species such as Gonatoxia, Parapyrrhicia and Tropidonotacris may be used as bioindicators allowing to follow land cover changes over time since early collections reach back as far as the 18 th century.Thus the evaluation of old collections are precious archives providing multiple data to e.g.model scenarios of how land cover changed over time and to identify areas which once harboured habitats rich in biodiversity, e.g. for restauration programmes.Thus even few specimens of certain species as shown above for the Vienna collection holding a couple of specimens of different Gonatoxia species provides insight of the vegetation covering the area more than 100 years ago.

Figure 5 .
Figure 5. Pronotum and mirror area of male G. maculata (A, B) and male G. helleri sp.n. (C, D).Differences are small, the mirror of G. helleri sp.n. being more shiny and translucent.Scale bars 5 mm.

Figure 12 .
Figure 12.Freshly laid eggs of Gonatoxia maculata (A).26 eggs were laid two days after mating and hatched 7 months later.(B) Eggs glued on a twig.

Figure 13 .
Figure 13.Pair of Gonatoxia maculata shortly after mating.Note the white spermatophore at the abdomen of the female.

Figure 15 .
Figure 15.Left wings of male G. maculata (A), G. helleri sp.n. (B), G. immaculata (C) and female G. furcata sp.n. (D).Morphological differences beteen G. maculata and G. helleri sp.n. are small.However, usually G. maculata (A) have more and larger maculae on the tegmina while G. helleri sp.n. (B) have fewer maculae that are smaller and longish and usually start where Rs branches off (right arrow).Also G. helleri sp.n. has a white borderd costal margin with veins branching off white and thickened (left arrow).

Figure 17 .
Figure 17.Morphological details of male Gonatoxia helleri sp.n. A. Semilateral view on abdominal apex.Scale bar 1 mm B. Dorsal view on abdominal apex with sclerotized ridge of cercus.Scale bar 1 mm C. Subgenital plate.Scale bar 1 mm D. Stridulatory file.Scale bar 500 µm.

Figure 18 .
Figure 18.Detail of stridulatory file of Gonatoxia immaculata with teeth directed towards the anal end.

Figure 19 .
Figure19.Inter-tooth spacing in stridulatory files of male Gonatoxia species (most intervals between small teeth at the anal end not measured).

Figure 20 .
Figure 20.Oscillograms of single syllables of the male calling song and corresponding spectral composition (power spectra).

Figure 21 .
Figure 21.Oscillograms of the male calling song of Gonatoxia species.In G. maculata and G. helleri only part of a much longer sequence is shown, in G. immaculata and G. furcata complete series.

Figure 23 .
Figure 23.Comparison of G. maculata male from Mt Kilimanjaro with specimen in the collection of Vienna labeled Arantia spinulosa.

Figure 24 .
Figure 24.Map of East Africa with distribution of Gonatoxia species.G. maculata in Somalia is not indicated since locality information is insufficient.

Gonatoxia furcata C. Hemp, sp. n.
When first males of G. immaculata were collected it became clear that specimens coming from Kazimzumbwi Forest Reserve belonged to G. immaculata.Thus the specimens from the spirit collection of the Zoological Museum Copenhagen listed as G. maculata from Kazimzumbwi Forest Reserve in Hemp (2013b) belong to G. immaculata.
Habitat.Lowland wet forest to submontane wet forest.Distribution.Coastal Tanzania, East and West Usambara Mountains.