Songs, genetics, and morphology: revealing the taxonomic units in the European Cicadetta cerdaniensis cicada group, with a description of new taxa (Hemiptera: Cicadidae) Hertach, Thomas Trilar, Tomi Wade, Elizabeth J. Simon, Chris Nagel, Peter Zoological Journal of the Linnean Society 2015 Zool. J. Linn. Soc. 2015-01-29 173 2 320 351 8K2PR Hertach & Trilar & Wade & Simon & Nagel, 2015 Hertach & Trilar & Wade & Simon & Nagel 2015 Insecta Cicadidae Cicadetta Animalia Hemiptera 15 351 Arthropoda subSpecies anapaistica subsp. nov. lucana V6Y7 Hertach & Nagel 2013 [1025,1322,215,236] Insecta Cicadidae Cicadetta Animalia Hemiptera 22 350 Arthropoda species cerdaniensis   Type material The type series consists of 16 malesand two females, representing southern, central, and northern populations. It is kept in the NHMB( holotype), ETHZ, NMBEand in one private collection.  Holotypemale  Verbatim label information: ‘nördl. Mezzana Torre, BASI, I/ 40.0054°/ 16.1681°,  1030 masl/  18.7.2013, leg. T. Hertach/ Collection Code No. 19.012’ (label rectangular, white, printed) and ‘HOLOTYPUS ♂/   Cicadetta anapaistica lucana ssp. nov./ Hertach2014’ (label rectangular, light red with dark-red margin, printed) ( NHMB).  Paratypes All paratypeswith labels ‘ PARATYPUSXX Y,  Cicadetta anapaistica lucana ssp. nov.Hertach 2014’ (label rectangular, white with red margin, printed), at which ‘XX’ is the number of the paratypeand ‘Y’ is the sex of the specimen. Number ‘12’ does not exist.   Paratypemales, dark morph: Timpa Falascoso, Viggianello, BASI, I, 40.0184°/16.1107°, 950 masl, 7.7.2010, leg. T. Hertach ( paratype2, coll. Hertach); Serra Alberigo, Viggianello, BASI, I, 40.0014°/16.1171°, 1020 masl, 7.7.2010, leg. T. Hertach ( paratype4, coll. Hertach); Timpone Rotondella, Morano Calabro, CALA, I, 39.8606°/16.0953°, 980 masl, 17.7.2013, leg. T. Hertach ( paratype6, coll. Hertach); Serra Alberigo, Viggianello, BASI, I, 40.0012°/16.1170°, 1040 masl, 17.7.2013, leg. T. Hertach ( paratype7, coll. Hertach); Serra Alberigo, Viggianello, BASI, I, 39.9980°/16.1218°, 1070 masl, 17.7.2013, leg. T. Hertach ( paratypes8, 9 and 10, coll. Hertach); N Mezzana Torre, BASI, I, 40.0054°/ 16.1681°,  1030 masl,  18.7.2013, leg. T. Hertach( paratype13, coll. NMBE); N Marsico Nuovo, BASI, I, 40.4659°/15.7380°, 1130 masl, 20.7.2013, leg. T. Hertach ( paratypes14 and 15, coll. Hertach); N Morra de Sanctis, CAMP, I, 40.9365°/15.2410°, 820 masl, 22.7.2013, leg. T. Hertach ( paratype17, coll. ETHZ).   Paratypemales, light morph: Timpa Falascoso, Viggianello, BASI, I, 40.0184°/16.1107°, 950 masl, 7.7.2010, leg. T. Hertach ( paratype1, coll. Hertach); Serra Alberigo, Viggianello, BASI, I, 40.0014°/16.1171°, 1020 masl, 7.7.2010, leg. T. Hertach ( paratype3, coll. ETHZ); W Acerno, Monti Picentini, CAMP, I, 40.7545°/ 15.0406°,  600 masl,  14.7.2010, leg. T. Hertach( paratype5, coll. NMBE); N Morra de Sanctis, CAMP, I, 40.9365°/15.2410°, 820 masl, 22.7.2013, leg. T. Hertach ( paratype18, coll. Hertach, putative hybrid with  C. sibillae sp. nov.).    Paratypefemales:Serra Alberigo, Viggianello, BASI, I, 39.9980°/16.1218°,  1070 masl,  17.7.2013, leg. T. Hertach( paratype11, coll. ETHZ); N Marsico Nuovo, BASI, I, 40.4659°/15.7380°, 1130 masl, 20.7.2013, leg. T. Hertach ( paratype16, coll. Hertach).   MORPHOLOGY  Diagnosis   Cicadetta anapaistica lucana ssp. nov.occurs in two differently coloured morphs present in the same local populations. The dark-coloured morph resembles all other described  C. montanacomplex species. The vast majority of C. a. lucana ssp. nov.specimens, like C. a. anapaistica, are separated from  C. cerdaniensis s.str.by the predominantly dark basal junction of the anal veins (100% for C. a. lucana ssp. nov.dark morph and C. a. anapaistica, 94.4% for C. a. lucana ssp. nov.versus 5.0% for  C. cerdaniensis s.str.). From  C. montana s.str., many specimens are distinguished by the outer rim of costa darker than the inner rim and the radial/subcostal veins (77.8 versus 9.5%, chisquare contingency test, χ 2= 27.9, P<0.001 for C. a. lucana ssp. nov.and 89.5% versus 9.5%, χ 2= 51.1,   Figure 8.Echemes of phrase 3 in  Cicadetta cerdaniensis s.str.(△) and   Cicadetta sibillae sp. nov.(◆). A, duration of echemes as a function of perch temperature, with linear regression trend lines and standard errors (grey areas). B, box plot of the number of syllables per echeme given as mean values of 20 echemes for each individual. C–F, oscillograms (time versus amplitude) close to the linear regression trend lines of (A): C,   C. sibillae sp. nov.at 23 °C perch temperature (with measured duration terms, Northern Apenninian metapopulation); D,   C. sibillae sp. nov.at 28 °C (Western Alpine metapopulation); E,  C. cerdaniensis s.str.at 23 °C (Eastern Pyrenees); F,  C. cerdaniensis s.str.at 28 °C (Eastern Pyrenees).   Table 4.Spatial variation of selected song variables in   Cicadetta sibillae sp. nov.as functions of the geographical latitude with linear regressions (23–28 °C)    Variable Slope R2  ED1+2 −0.457 0.527  IED1+2 −0.286 0.207  ED3 0.028 0.002  IED3 0.122 0.038  FPF2 (centre) 0.207 0.108  Syllables/E3 −0.055 0.007  Note: song variables were normalized and standardized for better comparability. Example: ED 1+2values clearly decrease with increasing latitude and form a well-correlated cline, whereas ED 3values are independent of latitude and are very constant between locations and metapopulations.  P<0.001 for  C. anapaistica).  Cicadetta anapaistica lucana ssp. nov.have on average a stockier habitus in comparison with  C. sibillae sp. nov., with significantly broader wings ( Fig. 5C, Wilcoxon–Mann–Whitney rank sum test, W= 270, P= 0.009) and broader abdomen ( Fig. 5D, Wilcoxon–Mann–Whitney rank sum test, W= 299, P= 0.002). Additionally, in  C. anapaisticathe pronotal collar is frontally often broader in relation to the head than in  C. sibillae sp. nov., caused by a more distinct convexity ( Fig. 5B, Wilcoxon–Mann–Whitney rank sum test, W= 586.5, P<0.001, for  C. anapaisticaversus  C. sibillae sp. nov., and W= 279.5, P= 0.010, for C. a. lucana ssp. nov.versus  C. sibillae sp. nov.). The lightcoloured morph is probably separated from any other described species. Closest to  C. fangoana, an endemic species of Corsica, it seems to be distinguishable by the more yellowish or ochre than reddish markings on the thorax, and by the ochre coloration of the central suture and the frontal margin of the pronotum.   Description Two colour morphs exist, with 78% dark (including holotypeand females) and 22% light. Dark morphs were captured in four local populations and light ones were captured in three populations. Measurements Body length: 18.3 mmin holotypespecimen; 17.7 ± 0.7 mm(mean ± SD) in male dark morph paratypes; 17.7 ± 1.0 mm in male light morph paratypes; 20.2 and 19.0 mm in female paratypes, respectively. Body width (abdomen, tergite 2): 6.5 mmin holotypespecimen; 5.9 ± 0.2 mmin male dark morph paratypes; 5.8 ± 0.3 mmin male light morph paratypes; 6.1 and 6.2 mmin female paratypes. Forewing length: 19.9 mmin holotypespecimen; 20.0 ± 0.8 mmin male dark morph paratypes; 19.4 ± 0.4 mmin male light morph paratypes; 22.5 and 20.3 mmin female paratypes. Forewing width: 8.7 mmin holotypespecimen, 8.2 ± 0.4 mmin male dark morph paratypes, 8.0 ± 0.3 mmin male light morph paratypes, 9.5 and 8.8 mmin female paratypes. Male holotype( Fig. 4B) The holotypespecimen of C. a. lucana ssp. nov.fits the detailed description of the holotypeof C. a.  anapaistica( Hertach, 2011), with the following differences. On the head, mentum dark brown (as in some paratypesof C. a. anapaistica). On the thorax, narrow brownish band at posterior margin (as in some paratypesof C. a. anapaistica) and lateral depressions of cruciform elevation posterior with an ochre spot, meracanthus directed caudally not laterally (as in some recently captured specimens of C. a. anapaistica). On the abdomen, sternites and caudal margins of tergites red brown (as in some paratypesof C. a. anapaistica). On forewings, basal median vein ochre up to the crossveins and the node (as in some paratypesof C. a. anapaistica). Basal junction of anal veins dark or black, as in C. a. anapaistica, but not reported there. In the genitalia, basal lobe of pygofer brown. Male paratypesof dark morph Dark male paratypesdiffer from the holotypeof C. a. lucana ssp. nov.and/or C. a. anapaistica(with holotypeand paratypes), as follows. On the head, postclypeus rarely almost completely black. On the thorax, lateral depressions of cruciform elevation posterior normally without an ochre spot, as in C. a. anapaistica, meracanthus variable in shape and size. Rarely, lateral margin of pronotal collar frontal to the angles scarcely convex in shape and not clearly recessed (compare Fig. 5B). On forewing, colour combinations of costal and radial/subcostal veins differ sporadically, especially the exterior rim of costa and radius/ subcosta of same colour. Rarely, cubitus anterior vein and cubitus posterior vein/first anal vein almost black. Pterostigma sometimes brownish. Median and cubitus anterior vein fused on both sides for approximately 1 mmin two paratypes. Distal veins rarely with seven or nine apical cells instead of eight. In genitalia, upper lobes of pygofer rarely more angled. Male paratypesof light morph ( Fig. 4B, G) Contrary to the dark morph several parts of the body are ochre or yellowish in colour, instead of black. On the head, postclypeus towards the frontoclypeal suture and the anteclypeus, as well as sometimes the surrounding of the compound eyes, ochre. On the pronotum, central suture, frontal margin, and pronotal collar appearing as broad ochre bands. On the mesonotum, two triangular, ochre markings central to the lateral sigilla (in one paratypemesonotum completely ochre except for the submedian and lateral sigillae, and the scutal depressions). Cruciform elevation and its lateral depressions predominantly ochre. Ventral side of thorax generally lighter (in one paratypealmost completely yellowish, including opercula). On the abdomen, variable ochre fasciae at the tergites in addition to the red brown margins. Legs with light portions more dominant. One paratypewith basal junction of anal veins ochre instead of dark at forewing.   Figure 9.Distribution map of the species of the  Cicadetta cerdaniensissong group (15 × 15-km 2grid cells). Notes: cells recently checked in the framework of the Swiss and Italian projects of the first author without detection of a taxon of this group are brownish. The  Cicadetta cantilatrixdistribution range is not completely visible. Published records of  Cicadetta cantilatrixby Sueur & Puissant (2007), Trilar & Holzinger (2004), Hertach (2007), Brua & Hugel (2008), Trilar & Gogala (2012), and Hertach & Nagel (2013). Female paratypes( Fig. 4B) Coloration does not differ from the dark morph described above, and is consequently slightly darker than the females of C. a. anapaistica. Ratio of body length to ovipositor length (including sheath) 3.1 and 2.9.  ACOUSTIC BEHAVIOUR  Diagnosis The calling song of C. a. lucana ssp. nov.is intermediate to the songs of  C. cerdaniensis s.str.and  C. sibillae sp. nov., on the one hand, and C. a. anapaisticaon the other hand. It is distinguished by the characteristicly grouped short echemes in the third phrase ( Fig. 6D).  Cicadetta sibillae sp. nov.and  C. cerdaniensis s.str.emit evenly distributed (ungrouped) single echemes with no exceptions. The calling song of C. a. anapaisticaalso contains grouped echemes, but normally with a longer faint echeme at the end ( Fig. 6E).  Composition of calling song Similar to  C. sibillae sp. nov., recordings of C. a. lucana ssp. nov.were analysed in detail for a perch temperature range from 23 to 28 °C (eight individuals, T mean= 24.1 °C), and for some song variables in a broader range (another 43 individuals). They were compared in detail with the data set presented for  C. sibillae sp. nov.and  C. cerdaniensis s.str., as well as with ten older recordings of C. a. anapaistica(that probably match the same temperature range; Appendix S1) and another 46 recordings in some variables (most of which included perch temperature measurements).   Figure 10.Habitats of   Cicadetta sibillae sp. nov.in Tiglieto (Liguria, A) and at the Monte San Giorgio (Ticino, B), and most important location of   Cicadetta anapaistica lucana ssp. nov.in the mountainous Pollino National Park (C). Threatened core population habitat of  Cicadetta anapaistica anapaisticain the Madonie Mountains as a result of overgrazing and soil erosion (D). A phrase 1 pattern as in  C. cerdaniensis s.str.( Puissant & Boulard, 2000) was never recorded, and similar to C. a.  anapaistica( Hertach, 2011), seems not to be prominent. Phrase 2 ( PH 2) consists of a longer series of echemes composed of a low intensity part (FP 2) and a completely connected loud short part (SP 2), which is comparable with the main slow phrases in  C. cantilatrix,  C. cerdaniensis s.str., C. a. anapaistica, and  C. sibillae sp. nov.Phrase 3 ( PH 3) is intermedi- ate to  C. sibillae sp. nov. / C. cerdaniensis s.str.and C. a. anapaistica.It consists of fast repetitions of grouped short echemes. The echemes are grouped normally in pairs of two (E 3_1and E 3_2) in C. a. lucana ssp. nov.(pattern ‘luca_norm’; Figs 6D, 11). Phrase 2 and phrase 3 are alternating, often for several minutes. The song never starts or ends with phrase 3. Measurements of the calling song characters in C. a. lucana ssp. nov.within the 23–28 °C temperature range are reported in Table 2. Phrase 2 echemes are longer on average in this subspecies than in  C. sibillae sp. nov.and C. a. anapaistica.ED 2and IED 2are positively correlated in some individuals, but not in others. G 3is slightly longer than in C. a. anapaistica, although the group does not contain a longer final echeme. Differences in the number of syllables forming the short echemes of phrase 3 are marginal between the two subspecies: 6.42 ± 1.10 (E 3_1) and 5.14 ± 0.74 (E 3_2) syllables in C. a. lucana ssp. nov.(mean values from 31 individuals) versus 6.05 ± 1.28 (E 3_1) and 5.35 ± 0.79 (E 3_2) in C. a. anapaistica(mean values of 36 individuals). The dependency on the perch temperature is less obvious in both subspecies of  C. anapaisticathan in  C. sibillae sp. nov.Interestingly, this effect seems mainly to be caused by the ability of C. a. lucana ssp. nov.and especially C. a. anapaisticato move the timbals faster than  C. sibillae sp. nov., mainly at low temperatures [ Fig. 12A, ANCOVA, slightly significant model with interaction for C. a. lucana ssp. nov.and  C. sibillae sp. nov., F species(1, 81) = 16.1, P species<0.001, F temp × species(1, 81) = 5.1, P temp × species= 0.026, model without interaction for C. a. anapaisticaand  C. sibillae sp. nov., F species(1, 76) = 35.3, P species<0.001]. Syllable rates are approximately 15–20% faster at a perch temperature of 20 °C, and form a geographical disruption between the two species ( Fig. 12B).   Figure 11.Relative portions from the northern simpler to the southern more complex song patterns in phrase 3, including the southern Italian contact zones from   Cicadetta sibillae sp. nov.to   Cicadetta anapaistica lucana ssp. nov., and from   Cicadetta anapaistica lucana ssp. nov.to  Cicadetta anapaistica anapaistica. The size of the circles is in proportion to the phrases counted ( n max= 111, n min= 5), with a maximum of ten per specimen. Sibi_norm (   C. sibillae sp. nov., no variability), 100% single (ungrouped) echemes; luca_simp (simplified  C. a. lucana ssp. nov.),>50% single (ungrouped) echemes, <50% grouped double short echemes; luca_norm (normal  C. a. lucana ssp. nov.),>50% grouped double short echemes; luca_comp (complicated  C. a. lucana ssp. nov.), more than two short echemes per group occurring; anap_simp (simplified C. a. anapaistica), <50% of groups with final longer faint echemes; anap_norm (normal C. a. anapaistica),>50% of groups with final longer faint echemes and double short echemes; anap_comp (complicated C. a. anapaistica),>50% of groups with more than two short echemes and final longer faint echemes. Note: all populations north of the illustrations have the typical   C. sibillae sp. nov.pattern, without exception (orange). Echeme power (EP) is clearly reduced from phrase 2 (SP 2) to phrase 3 (E 3) in both subspecies [2.3 ± 1.5 dB for C. a. lucana ssp. nov.(mean values of 27 individuals) and 3.6 ± 1.6 dB for C. a. anapaistica(mean values of 40 individuals, see also Hertach, 2011)]. This power reduction is significantly higher even for C. a. lucana ssp. nov.compared with  C. sibillae sp. nov.(Wilcoxon–Mann–Whitney rank sum test, W= 735, P= 0.006). The frequency domain (EF) is broad and not a suitable delimitation criteria for the taxa investigated here ( Table 2).   Figure 12.Duration of syllables measured at short echemes of phrase 3 in   Cicadetta sibillae sp. nov.(◆, continuous line),   Cicadetta anapaistica lucana ssp. nov.(□, dotted line), and  Cicadetta anapaistica anapaistica(○, broken line): A, dependency on temperature, with linear regression trend lines and standard errors (grey areas); B, visualization of the disruption between the two species along the geographical latitude after controlling for temperature (residuals from the global temperature/time trend line). The song of C. a. lucana ssp. nov.is variable in qualitative aspects. Two aberrations must be classified. ‘Luca_comp’ is a more complicated pattern, with three or even four short echemes instead of a pair in phrase 3, produced by a minority of individuals in almost all local populations ( Fig. 11). ‘Luca_simp’ tends to the other direction. In addition to some double echemes a majority of single, ungrouped echemes are emitted. One individual in the Morra de Santis population ( Campania) at the northern edge of the distribution area even sang ‘  sibillae’-typical ungrouped echemes for several sequences and one ‘luca_simp’ sequence. Simplified song structures are also known for C. a.  anapaistica( Hertach, 2011), and become more and more equal to the C. a. lucana ssp. nov.pattern (‘anap_simp’, ‘luca_comp’, and ‘luca_norm’). They are found in all C. a. anapaisticapopulations. The percentage of individuals simplifying the structure increases by trend from central Sicilyto northern Calabria; however, the transition of local populations capable of emitting the final longer faint echeme is abrupt, and correlated with topography. The gradient is consequently not a typical cline over the whole species range. Populations capable of producing a longer faint echeme in phrase 3 must be assigned to C. a. anapaistica, whereas populations capable of producing solely grouped short echemes are belonging to the new subspecies C. a. lucana ssp. nov.   ETYMOLOGY The majority of all observations of C. a. lucana ssp. nov.were made in the historical region ‘Lucania’, which is still vernacular in use and is mainly congruent with the current political region ‘Basilicata’. The specific epithet ‘lucana’ is the corresponding adjective in female declination and gives the name to this subspecies.   DISTRIBUTION AND ECOLOGY   Cicadetta anapaistica lucana ssp. nov.is a subspecies endemic to a southern Italian region of approximately 150 kmin length and, at most, 100 kmwide ( Fig. 9). Local populations reach the southern part of Pollino National Park in the south, the Picentini and Cilento mountains in the west, the Ofanto River drainage basin in the north, and the Difesa Grande Forest near Gravina in Pugliain the east. The distribution is mainly situated in the Basilicata region, but also touches Calabria, Apulia, and Campania. Pollino National Park (San Severino Lucano/Viggianello) contained the most important local population by far ( Fig. 10C). Additional significant populations were found at Monte Cupolicchio east of Potenza, at Monte Sirino, at Monticchio Lakes, at Morra de Sanctis, and at Acerno in the Picentini Mountains. The altitudinal range goes from 250 masl (Bosco di Monte Orsino, Potenza) to 1960 masl (Serra di Crispo, Pollino), with a peak of abundance between 800 and 1100 masl. The maximum altitude observed was exceptionally high for European cicadas. This subspecies was never found near the coast and we only detected very few individuals below 550 masl. Favourite habitats are mesophilous, extensively used pastures with various bushes, and forest edges or sparse woods [oak (  Quercusspp.) or beech (  Fagus sylvatica)], with a well-developed understory. In the first habitat type, the new subspecies was regularly observed singing in the herb layer, whereas in the second habitat typeit can sing high up in the canopy. Many habitats are fragmented by deforestation, especially in the lower north-eastern parts. Some populations at higher altitudes are threatened by overgrazing, for example in Cilento National Park.  SONG- BASED KEY FOR THE DETERMINATION OF TAXA BELONGING TO THE  CICADETTA CERDANIENSISGROUP   (SEE FIGS 6, 11)    1. Main song element composed by the repetition of echemes with a longer low-intensity part and a completely connected loud short part, all echeme typesshorter than 1.5 s.............................  Cicadetta cerdaniensisgroup 2  No echemes existing with a low- and connected high-intensity part or echeme duration longer than 1.5 s.......... ........................................................................... cicada not belonging to the  Cicadetta cerdaniensisgroup   2. No fast phrase existing in calling song (but in rarely emitted courtship song)....................  Cicadetta cantilatrix  Phrase with fast repetitions of echemes existing in calling song ................................................................ 3   3. Fast-repetition phrase composed by evenly distributed (ungrouped) single echemes.......................................4 Fast-repetition phrase characterized by echeme groups............................................................................ 5   4. Central part of fast-repetition phrase composed by echemes with fewer than 6.0 syllables (Pyrenees)................ ...................................................................................................................  Cicadetta cerdaniensis s.str.  Central part of fast-repetition phrase composed by echemes with more than 6.5 syllables (Apennine and Southern Alps)...........................................................................................................   Cicadetta sibillae sp. nov.   5. Fast-repetition phrase characterized by echeme groups of solely short echemes (valid at local population level only) .............................................................................................   Cicadetta anapaistica lucana ssp. nov.  Fast-repetition phrase characterized by echeme groups finished by a longer faint echeme (valid at local population level only) ............................................................................................  Cicadetta anapaistica anapaistica At lower altitudes, C. a. lucana ssp. nov.occurs syntopically with up to six different species, but not with any other  Cicadettaspecies.At higher altitudes, it is often the single representative of the Cicadidaefamily. Within the  C. montanacomplex only  C. montana s.str.shares the distribution area. This new subspecies was observed in full activity during the first half of July.   Cicadetta anapaistica anapaisticais not restricted to Sicily, as previously stated ( Hertach, 2011). Small and isolated local populations were recently found in the Aspromonte Mountains, in the Calabrian Serre, and in the Sila Mountains ( Fig. 9). They inhabit a narrow ecological niche of more mesophilous habitats than visited before 2013. Additional populations were also found in Sicily, such as in the eastern part of the Nebrodi Mountains and in the Peloritani Mountains. The distribution is significantly larger than expected.   (SEE FIGS 6, 11)    1. Main song element composed by the repetition of echemes with a longer low-intensity part and a completely connected loud short part, all echeme typesshorter than 1.5 s.............................  Cicadetta cerdaniensisgroup 2  No echemes existing with a low- and connected high-intensity part or echeme duration longer than 1.5 s.......... ........................................................................... cicada not belonging to the  Cicadetta cerdaniensisgroup   2. No fast phrase existing in calling song (but in rarely emitted courtship song)....................  Cicadetta cantilatrix  Phrase with fast repetitions of echemes existing in calling song ................................................................ 3   3. Fast-repetition phrase composed by evenly distributed (ungrouped) single echemes.......................................4 Fast-repetition phrase characterized by echeme groups............................................................................ 5   4. Central part of fast-repetition phrase composed by echemes with fewer than 6.0 syllables (Pyrenees)................ ...................................................................................................................  Cicadetta cerdaniensis s.str.  Central part of fast-repetition phrase composed by echemes with more than 6.5 syllables (Apennine and Southern Alps)...........................................................................................................   Cicadetta sibillae sp. nov.   5. Fast-repetition phrase characterized by echeme groups of solely short echemes (valid at local population level only) .............................................................................................   Cicadetta anapaistica lucana ssp. nov.  Fast-repetition phrase characterized by echeme groups finished by a longer faint echeme (valid at local population level only) ............................................................................................  Cicadetta anapaistica anapaistica Cicadetta anapaistica lucana ssp. nov. 2013-07-18 NHMB T. Hertach Hertach 1030 40.0054 Mezzana Torre 16.1681 15 335 1 holotype 15 335 paratype 15 335 paratype 15 335 paratype 15 335 paratype 15 335 paratype 2013-07-18 NMBE T. Hertach 1030 40.0054 Mezzana Torre 16.1681 15 335 1 paratype 15 335 paratype 15 335 paratype 15 335 paratype 15 335 paratype 2010-07-14 NMBE T. Hertach 600 40.7545 Monti Picentini 15.0406 Acerno 15 335 1 paratype 15 335 paratype 2013-07-17 ETHZ T. Hertach 1070 15 335 2 paratype 2013-07-17 ETHZ Hertach 1070 true 15 335 1 paratype