Twenty species of Tettigoniidae are recorded from Jordan, 13 of them for the first time. Two new species are described, Uvarovistia rammei and Parapholidoptera willemsei. New status is proposed for Paradrymadusa philbyi Uvarov (= Scotodrymadusa philbyi) and for Platycleis (Incertana) erecta Uvarov (= Platycleis (Decorana) erecta).
Jordan lies in the Middle Eastern transition area, among three different biota: Mediterranean, Irano-Turanian and Saharo-Arabian. This zone is characterized by the Dead Sea depression, which is part of the Pliocene Afro-Syrian Rift Valley, extending from East Africa to Turkey and including Tiberias Lake and the Red Sea. The interchange between the Eurasian and African faunas and the particular isolation produced a remarkable species richness and a high degree of endemism in many groups of animals and plants; this is the main reason for its inclusion as one of the biodiversity hotspots of the Mediterranean basin (cf. Médail & Quézel 1999).
Orthoptera are rich in species in this region with many endemic species. However, this group has not received the required attention, particularly the Ensifera. The distribution and systematics of Jordan Ensifera are little known and their data scattered. The first orthopterologist who contributed to the knowledge of this geographical area was Giglio-Tos (1893, 1894). He published a list of species collected by E. Festa in Lebanon, Syria and Palestine (see also Festa 1894, Griffini 1893). Later authors, Krauss (1909), Buxton & Uvarov (1923), Uvarov (1922, 1923a, 1923b, 1927, 1933, 1934, 1939), Bodenheimer (1935), and Jannone (1936) recorded some new and less known species of Orthoptera (including Tettigoniidae) from Palestine and neighboring countries. Recently, a new species of Anadrymadusa was described from Al Mujeb Reserve in Jordan (Katbeh Bader & Massa 2000). However, the overall knowledge of this group of insects is currently limited, and its study may result in interesting and undescribed species.
A total of 296 specimens of Tettigoniidae were examined. They were collected by the following researchers: 1) J. and S. Klapperich between 1956 and 1969 (material not listed by Massa & Fontana 1998); 2) A. Katbeh Bader, as part of the activities conducted in the Animal Biodiversity Project in Jordan, sponsored by Higher Council for Science and Technology, and the Insect Fauna of Jordan Project, sponsored by the Deanship of Scientific research in the University of Jordan; 3) B. Massa, who collected specimens in May–June, October–November 1999 and April–May 2000, within the purview of the Project Artropodi della Vegetazione Spontanea funded by Ministero dell'Università e Ricerca Scientifica, Italy; 4) Paolo Audisio, Marco Bologna, Stefano De Felici, Teresa De Micco, Augusto Vigna Taglianti and Marzio Zapparoli (Roma and Viterbo Universities, Italy) (material not listed in the previous paper of Massa & Fontana 1998).
Species account.— The following 20 species of Tettigoniidae are recorded, 13 of them previously unrecorded from Jordan, and two new species are described: Uvarovistia rammei and Parapholidoptera willemsei. The number of specimens examined is reported in parentheses after the locality (male/female). The co-ordinates of the localities are in Table 1.
Acrometopa syriaca Brunner von Wattenwyl 1878
Material examined.— 14 specimens. Al Aridah 4.V.81 (7/3); Al Aridah Road 4.V.81(1/0); Amman (1/1); Ar Rumman 4.VI.88 (1/0).
Distribution.— From Greece through Turkey and Cyprus to Iraq, Syria, Lebanon, Palestine and Egypt (Giglio-Tos 1893 as A. festae; Bodenheimer 1935; Naskrecki & Unal 1995). This species is recorded from Jordan for the first time.
Isophya savignyi Brunner von Wattenwyl 1878
Material examined.— 79 specimens. Ajloun 7.V.87 (0/2), V.98 (0/1); Al Aridah 3.IV.79 (2/1); 3.IV.95 (1/0); Al Fuhays 19.IV.89 (1/1); Al Jubayhah 6.IV.94 (1/0); 17.IV.94 (1/1); 6.V.96 (1/0); Amman 5.IV.90 (5/3); 22.IV.00 (10/10); As Salt 3.III.93 (0/1); Birayn 1.V.93 (1/0); Dair Abi Said 30.IV.00 (3/3); Ghawr Kabid 10.IV.93 (1/0); Jarash 3.IV.96 (1/0); 14.IV.94 (2/0); 7.V.98 (1/0); Jordan Valley 12.I.96 (1/0); Judayta (Ajloun) 29.IV.00 (3/0); Muzayrib 25.IV.94 (0/1); 10.IV.93 (0/1); 22.III.98 (1/0); Suwaylih 28.III.93 (0/1); Wadi as Sir 15.III.86 (0/1); Wadi Kafrein (10 Km SW Naur) 30.III.87 (6/1); Wadi Shu'ayb 25.V.85 (0/1); Zabdah 11.IV.95 (4/2); Zarqa River (10 Km N of Amman) 28.IV.00 (1/1).
Distribution.— Turkey, Lebanon, Palestine and Jordan (Griffini 1893 as I. festae; Giglio-Tos 1893 as I. festae; Bodenheimer 1935; Ramme 1951; Naskrecki & Unal 1995). Isophya savignyi is common on Compositae flowers in early spring.
Ruspolia nitidula (Scopoli 1786)
Material examined.— 11 specimens. Al Jubayhah 20.IV.98 (1/0); 25.XI.92 (1 nymph); Al Mashari'a 4.X.95 (1/0, 1 nymph); Dayr Alla 5.X.95 (0/1); Jordan Valley 1.V.98 (0/1); 20.XI.96 (0/1); Kurayyimah 21.X.95 (1/0); 22.X.95 (1/0, 1 nymph); Waqqas 23.X.95 (1 nymph).
Distribution.— Europe, N Africa and Macaronesian Is. (Chopard 1943; Bailey 1975; Massa 1999), Middle East (Lebanon: Giglio-Tos 1893 as Conocephalus mandibularis; Massa & Fontana 1998; Palestine: Bodenheimer 1935; Jannone 1936 as Homorocoryphus eurostratus), and Saudi Arabia (Popov 1981).
Diogena fausta (Burmeister 1838)
Material examined.— 5 specimens. Shunit Nimrin (Dead Sea) 12.VII.94 (0/1); 4.IX.94 (0/1); Ghawr Kabid 27.IV.92 (1/0); 6.X.97 (0/1); 23.X.94 (1/0); 20.XI.92 (0/1).
Phaneroptera nana Fieber 1853
Material examined.— 13 specimens. Al Bahhath 11.XI.92 (0/4); Al Bunayyat 27.XII.96 (1/0); Al Jubayhah 22.IV.98 (0/1); VIII.93 (0/1); 19.X.96 (1/0); As Salt XII.98 (1/0); Ghawr Kabid 23.10.97 (1/0); Jordan Valley 20.XI.96 (1/0); Madaba 9.X.84 (1/0); Wadi as Sir 14.X.93 (1/0).
Distribution.— Widespread in Europe, Middle East and N Africa, overlapping partially with P. sparsa (Ragge 1980). Phaneroptera nana is present in Jordan throughout the year, overwintering as imago or nymph. It was recently recorded by Massa & Fontana (1998) from Karak (7.XI.66) and Wadi Schu'ayb (9.II.68). It is common on grasses.
Phaneroptera sparsa Stål 1856
Material examined.— 1 specimen. As Salt 10.X.95 (1/0).
Distribution.— Most of Africa south of the Sahara, extending NW to Morocco, Canaries and Spain, and NE through Arabia to Levant and eastern Anatolia (Ragge 1980; Popov 1981). It was reinstated as valid species by Ragge (1980). Recently, it was recorded by Massa & Fontana (1998) from Jordan (Jarash 15.X.68, Amman 23.IX.67).
Tylopsis lilifolia (Fabricius 1793)
Material examined.— 42 specimens. Al Jubayhah 8.V.98 (1/0); Amman 5.V.98 (0/1); 7.IX.98 (1/1, 21 nymphs); 10 Km N Amman 23.V.99 (1/0); As Salt 24.V.93 (0/1); 8.VIII.93 (2/3); Irbid 19.VII.75 (1/0); Jarash 29.V.64 (1 nymph); 28.VI.68 (1/0); 1.VI.80 (1/0); Jordan Valley 27.III.94 (1/0); 25.IV.96 (1/0); 4.X.97 (0/1); 17.X.91 (0/1); Umm Qays 24.V.99 (1/0).
Distribution.— It has a southern Mediterranean distribution, in S Europe, N Africa, and W Asia. In the Middle East, it has been recorded from Turkey, Lebanon, Syria, Iran, Palestine, Jordan, and Arabia (Giglio-Tos 1893; Uvarov 1934; Ragge 1964; Popov 1981; Naskrecki & Unal 1995; Massa & Fontana 1998, who record it from Jarash). Specimens from Jordan belong to the deserticolous form. This form is characterized by male cerci more attenuate at the tip, female subgenital plate lacking lateral lobes, and lateral pronotal lobes more angular than the typical form (Ragge 1964).
Tettigonia caudata (Charpentier 1845)
Material examined.— 4 specimens. Amman 12.VI.80 (1/1); Marw 18.V.87 (1/1).
Tettigonia viridissima L. 1758
Material examined.— 7 specimens. Kerak 23.IV.00 (1 nymph, reared in laboratory; ad.: 20.V); Jordan Valley 12.VI.87 (0/1); Judayta (Ajloun) 29.IV.00 (2/2); Zabdah 11.IV.95 (0/1).
Distribution.— Whole Palearctic region. In the Middle East, it was recorded from Palestine by Bodenheimer (1935), Iraq by Uvarov (1938), and Turkey by Naskrecki & Unal (1995). This species is recorded from Jordan for the first time. It was collected within grasses and bushes.
Scotodrymadusa philbyi (Uvarov 1927) n. stat.
Material examined.— 2 specimens. Amman, University of Jordan 29.XI.85 (1/0); 21.V.95 (0/1).
The genus Scotodrymadusa Ramme is characterized by: pronotum short and wide, ventral surface of femurs armed, genicular lobes of mid- and hind femurs armed on both sides, hind tibiae bearing 4 apical spurs ventrally, apical spine on upper inner side of fore tibiae, male cerci bearing an apical spine, tegmina overlapping and shorter than 3rd abdominal segment, and ovipositor gently upcurved and shorter than body length (Ramme 1951). This genus, as well as its related genera, needs a revision. It was not treated in the analysis of Rentz & Colless (1990) because of unavailability of specimens. Consequently the relations to other genera of Tettigoniinae remained unclear. We believe that some species belonging to this genus are actually erroneously listed within the genus Paradrymadusa Herman. The female of the latter genus, stated for P. sordida Herman, has lateral squamipterous tegmina, ovipositor as long as body length, gently downcurved, the male cerci bearing an internal spine (Brunner 1882; Harz 1969). Probably it is related to Drymadusa Stein and its allied genera more than to Scotodrymadusa.
Uvarov (1934) provided a key to three species, namely P. rammei Uvarov, P. anatolica Werner and P. satunini Uvarov. The same author in 1939 discussed the affinities of three other species: P. philbyi Uvarov, P. palaestina Uvarov and P. annulicornis Uvarov (including the ssp. crenulata Uvarov). These three species have a pattern of male and female genitalia similar to the previous three species. Only the female is known of the two other species, P. maculata Ebner and P. syriaca Pictet. Uvarov (1934) considered the first species related to the P. anatolica group. The second is known only from the Pictet (1888) description.
Ramme (1951) transferred P. rammei, P. anatolica, and P. maculata to the genus Scotodrymadusa. These species are characterized by the 10th abdominal tergite in males, which is much excised and provided with two acute lobes, by the male cercus with a strongly pointed apical spine, and ovipositor upcurved and shorter than body length. This does not match the characteristics of the genus Paradrymadusa, but instead, those of the genus Scotodrymadusa. The characters listed by Uvarov (1939) for P. philbyi, P. palaestina, P. annulicornis allow us to include these species also in Scotodrymadusa. Thanks to the kindness of Peter Schwendinger (Geneva Museum), who examined the female type of P. syriaca, we are now able to include it too in the genus Scotodrymadusa.
Figs 1–3 show the shape of the subgenital plate, ovipositor, pronotum, and tegmina (characters hitherto unrecorded) of this Syrian species. It is interesting to observe that even if it shows a pair of small spines on the prosternum, other characters are typical of Scotodrymadusa, namely, the ovipositor shape and overlapped tegmina. The specimen recorded by Giglio-Tos (1893) as P. syriaca from Lebanon, as supposed by Ramme (1951), is not a Paradrymadusa. Thus apart from the type species P. sordida, 16 other species are actually known to belong to Paradrymadusa, distributed through Georgia, Caucasus, Kurdistan, Daghestan, Tadzhikistan, Iran, Turkey to Syria.
The genus Scotodrymadusa should include 15 species. Seven occur in Turkey (S. anatolica, S. maculata, S. rammei, S. satunini, S. turcica Ramme, S. kozana Ramme, S. amani Ramme), three occur in Iran (S. persa (Uvarov), S. cincta Bey-Bienko, and S. gedrosica Bey-Bienko), one occurs in Lebanon (S. ebneri Ramme), three are found in Palestine (S. philbyi, S. palaestina, P. annulicornis, including the ssp. crenulata), and finally, S. syriaca occurs in Syria.
Description.— The male of Scotodrymadusa philbyi collected in Jordan, matches very well the redescription of Uvarov (1939). The female, hitherto unknown, is characterized below.
Male: vertex narrow, just wider than first antennal segment (Fig. 4). Eyes oval, as long as subocular grooves. Pronotum wide and flat, shorter than fore tarsus, 1.5 times longer than high (Fig. 5); seen from above, large with lateral lobes obliquely sloping, such that the maximum width measures the same as their length. Tegmina overlapping and reaching the middle of the 2nd abdominal tergite, half as long as pronotum (Fig. 4); wings shorter than tegmina. Prosternum without spines.
Speculum wide, visible behind pronotum. Apex of inner lower knee lobes of fore femurs with two spines, apex of outer lobes unarmed; apex of inner lower knee lobes of intermediate femurs with one spine, apex of outer lobes with two spines; apex of both lower knee lobes of hind femurs with a very small spine. Inner and outer lower fore tibiae bearing 6 spines, outer upper tibiae 3 spines; hind tibiae with two apical spurs on upper, four on lower surface. Fore femurs with 3–4 spines on inner lower side, 0–1 on outer lower. Fore coxae armed. Plantulae of the metatarsus half the length of the metatarsus. Hind femurs and tibiae very long, more than 3 times the length of pronotum.
Last abdominal tergite of male broad, hairy, with two small pointed lobes, cerci hairy, with a long and pointed apical tooth on inner side, inserted at 90° on the cercus, conical in lateral view (Figs 6, 7). Subgenital plate with a small apical excision and a wide concavity (Fig. 8), styli conical, short, long c. 1/3 of the subgenital plate. Titillators very small and denticulate (Fig. 9).
Body surface greyish marbled, with brown lines and spots.
Female: similar characteristics as male (Figs 10, 11); cerci conical, hairy, ovipositor slender, gently upcurved, twice as long as pronotum (Fig. 12). Subgenital plate (which is damaged by Anthrenus) as long as wide, showing a very small apical excision and a central concavity; arcuate in lateral view (Figs 12, 13).
Measurements (in mm).— Total length: 23 (♂), 24 (♀); pronotum length: 7.5 (♂), 8.2 (♀); pronotum height: 4.5 (♂), 5.4 (♀); pronotum width: 7.3 (♂), 8.2 (♀); tegmina (from the hind border of pronotum): 3.4 (♂), 4.0 (♀); length of hind femurs: 23 (♂), 25.5 (♀); ovipositor length: 17.5.
Platycleis (Platycleis) intermedia (Serville 1839)
Material examined.— 21 specimens. Ajloun 24.V.99 (6/0); Al Jubayhah 32.III.99 (0/1); 9.VIII.89 (0/1); Al Muwaqqar 26.VIII. 95 (2/0); 22.VII.95 (0/1); Amman 16.VI.63 (0/1); 5.V.98 (0/1); As Salt 22.IV.00 (0/2); Dair Abi Said 30.IV.00 (0/2); Ghawr Kabid 30.V.92 (0/1); Ash Schawbak 17.V.68 (1 nymph); Tabarbawr 29.V.98 (0/1); Wadi as Sir 3.X.85 (0/1).
Distribution.— It is widespread and common all over the Mediterranean region, Central Europe, and as far as China to the east. In Jordan it is common on grasses.
Platycleis (Platycleis) escalerai Bolivar 1899
Material examined.— 1 specimen. Irbid 25.IV.94 (0/1).
Platycleis (Decorana) erecta (Uvarov 1939) n. stat.
Material examined.— 17 specimens. Ajloun 24.V.99 (5/8, 1 nymph); Dair Abi Said 30.IV.00 (1/1 nymphs); Jarash 15.V.98 (0/1); Zarqa River (10 Km N of Amman) 23.V.99 (0/1).
Distribution.— This species was described from one male from Palestine by Uvarov (1939), (as Metrioptera erecta). He excluded a possible synonymy with Platycleis (Decorana) buxtoni (Uvarov 192334 sub Metrioptera buxtoni) which was described from a single female from Palestine (Uvarov 1923a). The male of the latter species, which was depicted by Popov (1981), shows features which permit one to distinguish it from P. erecta. According to Zeuner (1941), Ramme (1951) and Harz (1969), the differences between Decorana and Incertana lie in the presence/absence of a median keel in the pronotum and in the shape of the ovipositor. The latter in Decorana is slender, elongate, with lamella thickened, somewhat downcurved, while in Incertana it is rather curved upward at the base, similar to that of Tessellana. According to the shape of the ovipositor we propose to include P. erecta in the subgenus Decorana, leaving for Incertana only the following species: incerta Brunner, persica (Uvarov) and chopardi (Jannone). The last taxon is similar to P. incerta and was considered a synonym by Ramme (1951, with some doubt), Harz (1969) and Willemse (1984), listed as valid species by Ragge (1990) and Otte (1997). Some characters of P. erecta are illustrated in Figs 14–19. It occurs within grasses and bushes.
Festella festae (Giglio-Tos 1893)
Material examined.— 3 specimens. Ajloun 9.X.97 (0/1); Al Jubayhah (Amman) 31.X.99 (1/0); Ba'un (Ajloun) 29.X.99 (1/0).
Distribution.— This species was recorded from Palestine and Syria (at the eastern side of Tiberias Lake) by Giglio-Tos (1893, 1894). It was listed from Palestine by Bodenheimer (1935). Ramme (1951) recorded it from Turkey, depicting the titillators of one Turkish specimen. Males collected in Jordan show the titillators very different from Ramme's figure (Fig. 20), but the general characters agree with the description given by Giglio-Tos (1893, 1894). Thus we consider Jordanian specimens as belonging to this species. Turkish specimens need further investigation.
Medecticus assimilis (Fieber 1853)
Material examined.— 3 specimens. Ar Rubbah (near Kerak) 19.VI.83 (0/1); As Salt 22.IV.00 (0/1, nymph, reared in laboratory; ad: 10.VI.00); Zarqa River (30 Km N of Amman) 29.V.99 (1 nymph).
Distribution.— Known from Caucasus and neighbouring countries, Turkey, Middle East, including Syria, Lebanon, Iran, Iraq and Palestine (Giglio-Tos 1893; Uvarov 1934; Bodenheimer 1935; Harz 1969; Kaltenbach 1974). This is a new record for Jordan.
Decticus albifrons (Fabricius 1775)
Material examined.— 1 specimen. Kerak 23.IV.00 (0/1 nymph, reared in laboratory; ad.: 2.VI.00).
Distribution.— Mediterranean region and SW Asia (Naskrecki & Unal 1995).
Eupholidoptera palaestinensis (Ramme 1939)
Material examined.— 4 specimens. As Salt 22.IV.00 (2/0); Judayta (Ajloun) 29.IV.00 (2/0). This species, together with its synonym, E. ledereri hebraea (Uvarov 1939) (cf. Uvarov 1942; Ramme 1951; Kaltenbach 1969), is only known from Tiberias and Zerqa (Palestine). E. palaestinensis is very close to E. ledereri (Fieber). Ramme (1951) uses differences in the position of cercal teeth in the male to differentiate E. ledereri from the other six species, including E. palaestinensis. One male from Banias (Palestine) and another male from Aleih (Lebanon) were erroneously identified as E. smyrnensis (Brunner) by Giglio-Tos (1893) and later considered to be E. ledereri by Massa (1999), following Ramme's key. Series of specimens from different localities of Palestine, Syria, Jordan and Lebanon are needed to decide if the two taxa are really different species.
Parapholidoptera willemsei n. sp.
Material examined.— 34 specimens. Judayta (Ajloun) 29.IV.00 (holotype ♂, 6 paratype ♂ ♂ and 3 paratype ♀ ♀, housed at the University of Palermo; 1 paratype ♀ in coll. F. Willemse, Eygelshoven; 2 paratype ♀ ♀ in coll. P. Fontana, Padua; 7 nymphs); Al Muzayrib (Irbid) 25.IV.94 (1/4 nymphs); As Salt 22.IV.00 (1/1 nymphs); Dair Abi Said 30.IV.00 (2/5 nymphs).
The genus Parapholidoptera was introduced by Ramme (1951) for species related to Pholidoptera which have the pronotum much prolonged behind, the tegmina almost covered by the pronotum, and the ovipositor straight or gently upcurved. Following the key of Ramme (1951), we found our specimens to be similar to P. syriaca (Ramme), known from Syria, Palestine and Turkey (Brunner 1882; Bodenheimer 1935; Ramme 1930, 1939, 1951; Naskrecki & Unal 1995), and P. punctifrons (Burmeister) distributed in Syria, Lebanon and Palestine (Kaltenbach 1969). However, some characters, such as the shape of titillators and the shape and length of ovipositor, differ. Thus, we consider the Jordanian Parapholidoptera to belong to a new species that we name P. willemsei.
Description.— Male: very large species; pronotum flat and long, anterior margin rather straight, posterior margin rounded, first sulcus evident, main sulcus at the center of pronotum length. Lower and posterior borders of pronotum thickened. Tegmina not reaching end of first tergite. Last tergite provided with 2 appendices pointed and parallel, about 1/3 the tergite length, obviously downcurved (Figs 21, 22), cerci hairy, long and slender, with a tooth at the middle curved forwards (Fig. 22). Subgenital plate in lateral view with a keel ending at stylus (Fig. 21); from below as long as wide and with a small excision between the styli; styli hairy and slender, about 0.7 times as long as subgenital plate (Fig. 23). Hind femurs about 3 times longer than pronotum. Titillators thick along their entire length except the apical part, slender and provided with small tubercles; in lateral view upcurved (Figs 24, 25).
Female: larger than male. Tegmina fully covered by pronotum. Cerci conical, ovipositor thick along entire length, height 2/3 that of hind femur, 2 times longer than pronotum and 3/4 as long as hind femur (Fig. 26). Subgenital plate roughly triangular, apically excised and provided with two central concavities (Fig. 27).
Coloration.— Pronotum with a wide white stripe bordered by black, tegmina black with lateral bands white, abdomen grey with two black stripes on sides, appendices of last tergite of male black. Male subgenital plate laterally and ovipositor dorsally with a black stripe.
Measurements (in mm).— Total length: 26–29.8 (♂), 27.7–31.9 (♀); pronotum length: 9.7–10 (♂), 11.5–12.1 (♀); max width of pronotum: 6.9–7.4 (♂), 7.5–8.1 (♀); length of hind femurs: 27–31.3 (♂), 31–34.8 (♀); height of hind femurs: 4.5–4.7 (♂), 5.1–5.4 (♀); ovipositor length: 24.8–25.2; ovipositor height: 3.5–3.6; ovipositor width: at base 3.5–3.6, at center 1.4–1.5.
Derivatio nominis.— Parapholidoptera willemsei is dedicated to the Dutch orthopterologist Fer Willemse, who worked on the Orthoptera of the east Mediterranean area, contributing very much to our knowledge.
Habitat.— Specimens were collected within grasses and bushes, where they live in small colonies.
Affinities.— When Ramme (1951) described the genus Parapholidoptera, only six species belonged to it, all found in the Middle East. Currently, it includes 16 species, mostly found in Turkey. Species related to P. willemsei are P. punctifrons and P. syriaca. The last tergite of males of the latter two species has the appendices obviously diverging (Fig. 1 of Ramme 1930; Fig. 31 of Ramme 1939; Fig. 53 of Ramme 1951). The male subgenital plate of P. willemsei is more excised than that of P. punctifrons and P. syriaca (see Fig. 3 in Ramme 1930). The ovipositor is thick, high and short in P. willemsei, while it is slender in P. punctifrons and P. syriaca, being in the former 1.5 times longer than the pronotum and 2.5 mm wide and in the latter 2 times longer than the pronotum and 1.5 mm wide. The female subgenital plate is more excised in P. willemsei than in the other two species (see Fig. 4 in Ramme 1930). The titillators of P. punctifrons are slender and moderately curved in lateral view, but those of P. syriaca are enlarged only in the center: in the lateral view they are curved as those of P. willemsei, but more slender (see Fig. 30 in Ramme 1939; Fig. 52 in Ramme 1951). We also noticed differences in coloration in P. willemsei. There is a continuous white stripe on the lateral margins of the pronotum, black lateral stripes on the hind femurs, and along the sides of the abdomen. Such characters are lacking in the other two species.
Uvarovistia rammei n. sp.
Material examined.— 1 specimen. Ajloun 12.VII.87 (holotype female, deposited at Museo Civico di Storia Naturale, Genua).
The genus Uvarovistia Ramme is related to Eupholidoptera Ramme. Both have the 10th abdominal tergite black, but Uvarovistia is characterized by the 9th abdominal tergite brownish-black only at the sides with a transverse series of brown spots along the anterior margin; the tegmina are covered by the pronotum; the female subgenital plate is unicolored, and the ovipositor short and weakly upcurved. The specimen listed above has the 9th abdominal tergite brown at the center with two brown spots at the sides. Other characteristics lie within those of Uvarovistia. There are five species belonging to this genus, U. bakhtiara (Uvarov) from Iran, U. iraqa (Uvarov) from Kurdistan (Iraq), U. satunini (Uvarov) from Armenia and Iran, U. zebra (Uvarov) from the border of Syria-Iraq, and U. uvarovi (Karabag) from Karpathos Is. (Greece) (Uvarov 1934; Ramme 1951; Harz 1969; Willemse 1984, 1985). The subgenital plate and the shape of the ovipositor of Jordanian specimens are different from those of the species listed above (cf. Uvarov 1934, Fig. 10; Harz 1969, Figs 1185–86). We thus consider it as belonging to a new species, that we name Uvarovistia rammei.
Description.— Female: fastigium of vertex about 2 times wider than scapus. Pronotum long and rather convex, its posterior margin broadly rounded, main sulcus at the center of pronotum length, first sulcus indistinct, shoulder excision indistinct, in lateral view with a small depression (Figs 28–29). Elytra covered by pronotum. Cerci hairy, long and pointed. Last tergite with a small excision (Fig. 30). Subgenital plate longer than wide, triangular with a deep apical excision (Fig. 31). Fore and middle femurs unarmed; fore tibiae with 3 spines on outer upper margin and 6 on inner and outer lower margins; middle tibiae with 2 spines on outer and 4 on inner upper borders and 6 on outer and inner lower borders; hind femurs 2 times longer than pronotum, armed with 4 small black spines on inner and outer lower borders; hind tibiae with 5 inner lower (+ 2 apical), 6 outer lower (+ 2 apical), 24 inner upper and 20 outer upper spines. Ovipositor short, gently upcurved, longer than pronotum (Fig. 32).
Coloration.— Yellow testaceous; face uniformly cream with black spots beside eyes, 9th abdominal tergite black in center and with one black spot at each side, 10th abdominal tergite and ovipositor black.
Measurements (in mm).— Total length: 20.8; pronotum length: 9.7; pronotum height: 5.0; length of hind femurs: 19.0; ovipositor length: 11.5.
Derivatio nominis.— Uvarovistia rammei is dedicated to Willy Ramme, the late German orthopterologist who greatly contributed to knowledge of the orthopterofauna of the Middle East.
Saga ephippigera Fischer 1846
Material examined.— 31 specimens. Al Jubayhah 1.VII.79 (1/0); 20.V.82 (0/1); 20.VI.86 (0/1); 2.VII.92 (0/1); 14.VIII.85 (0/1); Al Walah 20.VI.99 (0/1); Ar Rumman 4.VI.88 (0/1); As Salt 23.VII.74 (1/0); 17.VII.95 (0/1); 22.IV.00 (1 nymph); Amman 3.V.79 (1/0); 8.VI.76 (1/0); Ghawr Kabid 3.XII.?? (0/1); Jarash 18.V.98 (1/0); 29.V.98 (1/0); 31.V.98 (1/0); 1.VI.80 (1/0); 6.IX.92 (0/1); Judayta (Ajloun) 29.IV.00 (0/4 nymphs, one reared in laboratory; ad: 10.VI.00); Nahlah 8.VII.74 (1/0); Rajib 18.IV.00 (1 nymph); Tila' Al Ali 11.V.92 (1 nymph); Wadi Shu'ayb 4.V.90 (1/0); unlabeled (1/4).
Distribution.— Turkey, Palestine, Transjordan, Syria, Armenia, Caucasus, Iran and Iraq (in NW Syria and Iraq the subspecies syriaca Lucas) (Kaltenbach 1969, 1990; Naskrecki & Unal 1995). S. uvarovi Ramme is considered a doubtful synonym of S. ephippigera by Kaltenbach (1990). S. uvarovi was described by Ramme (1951) from a single male from Palestine, on the basis of small differences in the shape of tegmina and cerci. The series of the Jordanian specimens allow us to definitely establish the synonymy proposed by Kaltenbach (1990). Figs 33–34 show the extremes of variability of the male cerci.
We thank very much Peter Schwendinger (Geneva Museum), who examined and made some drawings of the holotype of Scotodrymadusa syriaca (Pictet); Roberto Poggi (Genua Museum), who sent us some bibliographic references; Marcello Arnone and Haralabos Tsolakis for the drawings; Paolo Audisio, Marco Bologna, Stefano De Felici, Teresa De Micco, Paolo Fontana, Augusto Vigna Taglianti and Marzio Zapparoli, who provided some specimens. We also thank Attilio Carapezza and his wife Maria Grazia Tornabene, for their agreeable collaboration during the field work. This paper was written within the scope of an Animal Biodiversity Project in Jordan sponsored by the Higher Council for Science and Technology and within the Insect Fauna of Jordan Project sponsored by the Deanship of Scientific Research of the University of Jordan, and within the Project “Artropodi della vegetazione spontanea” funded by Ministero dell'Università e della Ricerca Scientifica, Italy.
- W. J. Bailey 1975. A revision of the African species of the genus Ruspolia Shulthess (Orthoptera Tettigonoidea). Bulletin Institut Français Afrique Noire 37:171–226. Google Scholar
- F. S. Bodenheimer 1935. Ökologisch-zoogeographische Untersuchungen uber die Orthopterenfauna Palästinas. Archiv Naturgeschichte 4:88–142.145–216. Google Scholar
- C. Brunner von Wattenwyl 1882. Prodromus der Europäischer Orthopteren. W. Engelmann, Leipzig. Google Scholar
- P. A. Buxton and B. P. Uvarov . 1923. A contribution to our knowledge of Orthoptera in Palestine. Bulletin Royal entomological Society Egypte. 167–214. Google Scholar
- L. Chopard 1943. Orthoptéroïdes de l'Afrique du Nord. Faune de l'Empire Français. I. Librairie Larose, Paris. Google Scholar
- E. Festa 1894. Viaggio del Dr. E. Festa in Palestina, nel Libano e regioni vicine. Parte narrativa. Bollettino Museo Zoologia e Anatomia comparata Reale Università Torino 9:1721–38. Google Scholar
- E. Giglio-Tos 1893. Viaggio del Dr. E. Festa in Palestina, nel Libano e regioni vicine. V. Ortotteri. Bollettino Museo Zoologia e Anatomia comparata Reale Università Torino 8:1641–18. Google Scholar
- E. Giglio-Tos 1894. Viaggio del Dr. E. Festa in Palestina, nel Libano e regioni vicine. XII. Ortotteri. Seconda comunicazione. Bollettino Museo Zoologia e Anatomia comparata Reale Università Torino 9:1911–4. Google Scholar
- A. Griffini 1893. Viaggio del Dr. E. Festa in Palestina e nel Libano. I. Nuova specie di Fanerottide del genere Isophya Br. Bollettino Museo Zoologia e Anatomia comparata Reale Università Torino 8:1571–2. Google Scholar
- K. Harz 1969. The Orthoptera of Europe. I. Junk Ed., The Hague. Google Scholar
- G. Jannone 1936. Su alcuni Ortotteri della Palestina con descrizione di una nuova specie del Gen. Homorocoryphus Karny. Bollettino Società entomologica italiana 14:78–92. Google Scholar
- A. P. Kaltenbach 1969. Saginae und Decticinae aus Israel. I. Annalen Naturhistorisches Museum Wien 73:333–338. Google Scholar
- A. P. Kaltenbach 1974. Decticinae aus Israel (Saginae und Decticinae aus Israel. II). Annalen Naturhistorisches Museum Wien 78:291–302. Google Scholar
- A. P. Kaltenbach 1990. The predatory Saginae. Pp. 280–302. In: Bailey W.J., Rentz D.C.F. (Eds) The Tettigoniidae: Biology, Systematics and Evolution. Springer-Verlag, Berlin. Google Scholar
- A. Katbeh Bader and B. Massa . 2000. A new species of Anadrymadusa Karabag (Orthoptera Tettigoniidae) from Al Mujeb Nature Reserve, Jordan. Zoology in the Middle East 20:91–94. Google Scholar
- H. A. Krauss 1909. Dermaptera und Orthoptera aus Agypten, der Halbinsel Sinai, Palästina und Syrien. Pp. 23–43. In: Kneucker A. (Ed.), Verhandlungen des Naturwissenschaftlichen Vereins Karlsruhe 21. Google Scholar
- B. Massa 1998. Attuali conoscenze sugli Ortotteri della Libia (Insecta Orthoptera). Naturalista siciliano 21:235–320. Google Scholar
- B. Massa 1999. Ortotteri dell'area mediterranea e delle Isole Azzorre nuovi o poco noti (Insecta). Atti Accademia roveretana Agiati 9B:57–80. Google Scholar
- B. Massa and P. Fontana . 1998. Middle Eastern Orthoptera (Tettigoniidae and Acridoidea) preserved in Italian Museums. Bollettino Museo civico Storia naturale Verona 22:65–104. Google Scholar
- F. Médail and P. Quézel . 1999. Biodiversity Hotspots in the Mediterranean Basin: setting global Conservation Priorities. Conservation Biology 13:1510–1513. Google Scholar
- P. Naskrecki and M. Ünal . 1995. The Orthoptera of Hatay Province, S. Turkey. Beitrage zur Entomologie 45:393–412. Google Scholar
- D. Otte 1997. Orthoptera Species File. 7. Tettigonioidea. Orthopterists's Society at The Academy of Natural Sciences of Philadelphia. Google Scholar
- A. Pictet 1888. Locustides nouveaux ou peu connus du Musée de Genève. Memoirs Societé Physique et Histoire naturelle Genève 30:1–84. 3 pl. Google Scholar
- G. B. Popov 1981. Insects of Saudi Arabia. Orthoptera: Fam. Tettigoniidae (Bush Crickets). Pp. 114–148. In: Wittmer W., Buttiker W. (Eds). Fauna of Saudi Arabia vol. 3.Ciba-Geigy Ltd., Basle. Google Scholar
- D. R. Ragge 1964. A revision of the genus Tylopsis Fieber (Orthoptera: Tettigoniidae). Bulletin British Museum Natural History, (Entomology) 15:297–322. Google Scholar
- D. R. Ragge 1980. A review of the African Phaneropterinae with open tympana (Orthoptera: Tettigoniidae). Bulletin British Museum Natural History (Entomology) 40:67–192. Google Scholar
- D. R. Ragge 1990. The songs of the western European bush-crickets of the genus Platycleis in relation to their taxonomy (Orthoptera: Tettigoniidae). Bulletin British Museum Natural History (Entomology) 59:1–35. Google Scholar
- W. Ramme 1930. Revisionen und Neubeschreibungen in der Gattung Pholidoptera Wesm. (Orth., Tettigon.). Mitteilungen aus dem Zoologischen Museum Berlin 16:798–821. Google Scholar
- W. Ramme 1939. Beiträge zur Kenntnis der palaearktischen Orthopterenfauna (Tettig. u. Acrid.). III. Mitteilungen aus dem Zoologischen Museum Berlin 24:41–150. 3 pl. Google Scholar
- W. Ramme 1951. Zur Systematik Faunistik und Biologie der Orthopteren von südost-Europa und Vorderasien. Mitteilungen aus dem Zoologischen Museum Berlin 27:1–431. 29 pl. Google Scholar
- D. C. F. Rentz and D. H. Colless . 1990. A classification of the Shield-backed Katydids (Tettigoniinae) of the world. Pp. 353–377. In: Bailey W.J., Rentz D.C.F. (Eds) The Tettigoniidae: Biology, Systematics and Evolution. Springer-Verlag, Berlin. Google Scholar
- B. P. Uvarov 1922. Three new Orthoptera from Palestine and N.W. Persia. Entomologists' Monthly Magazine 8:83–89. Google Scholar
- B. P. Uvarov 1923a. Some new Orthoptera from Palestine. Entomologists' Monthly Magazine 9:32–35. Google Scholar
- B. P. Uvarov 1923b. Some new or little known grasshoppers from Palestine. Entomologists' Monthly Magazine 9:81–86. Google Scholar
- B. P. Uvarov 1927. Metrioptera bodenheimeri, sp.n. from Palestine (Orthoptera, Tettigoniidae). Konowia 6:2120–121. Google Scholar
- B. P. Uvarov 1933. Notes on new and little-known Orthoptera from Palestine. Annals and Magazine of Natural History ser 10:21663–672. Google Scholar
- B. P. Uvarov 1934. Studies in the Orthoptera of Turkey, Iraq and Syria. Eos 10:21–119. Google Scholar
- B. P. Uvarov 1938. Orthoptera from Iraq and Iran. Zoological Series Field Museum of Natural History 20:439–451. Google Scholar
- B. P. Uvarov 1939. New and less-known Palestinian Orthoptera. Annals and Magazine of Natural History 4:216–227. Google Scholar
- B. P. Uvarov 1942. New and less known southern Palaearctic Orthoptera. Transactions of the American Entomological Society 67:303–361. Google Scholar
- F. Willemse 1984. Fauna Greciae I. Hellenic Zoological Society, Athens. Google Scholar
- F. Willemse 1985. Fauna Greciae II. Hellenic Zoological Society, Athens. Google Scholar
- F. E. Zeuner 1941. The classification of the Decticinae hitherto included in Platycleis Fieb. or Metrioptera Wesm. (Orthoptera, Saltatoria). Transactions of the Royal Entomological Society of London 91:1–50. Google Scholar