Cold cicadas and hot rocks: Thermal responses and thermoregulation in some New Zealand cicadas (Insecta: Hemiptera: Cicadidae: Cicadettinae: Cicadettini).

We determine the thermal responses for 11 species from four genera of New Zealand cicadas. Thermal responses are remarkably similar regardless of environment or elevation inhabited by the species. The thermal responses of New Zealand cicadas do not show the same variability as cicada species in similarly diverse environments in Africa, Australia, Europe, North America, and South America nor the correlation to elevation as seen in some North American cicadas. Behavioral thermoregulation appears to be the mechanism permitting the distribution of species into specific habitats so that diverging thermal adaptation was not necessary as speciation occurred. The first example of a cicada using conductive heat transfer to thermoregulate is provided. These data show an evolutionary divergence from what otherwise have been convergent thermal adaptation patterns in a variety of cicadas separated by large geographic distances and species phylogeny.

Thermal responses of some Australian cicadas (Insecta: Hemiptera: Cicadidae).

We determine the thermal responses for 22 species from 16 genera, nine tribes and two subfamilies of Australian cicadas. Thermal responses are related to habitat and possibly to behavior. The thermal responses of the Australian species show convergent patterns to the cicadas in similar environments in Africa, Europe, North America, and South America. The study illustrates that similar evolutionary pressures select for similar thermal adaptation regardless of geographic locality or species phylogeny.

Thermal adaptation in North American cicadas (Hemiptera: Cicadidae).

We determine and summarize the thermal responses for 118 species and subspecies of North American cicadas representing more than 50 years of fieldwork and experimentation. We investigate the role that habitat and behavior have on the thermal adaptation of the North American cicadas. There are general patterns of increasing thermal responses in warmer floristic provinces and increasing maximum potential temperature within a habitat. Altitude shows an inverse relationship with thermal responses. Comparison of thermal responses of species emerging early or late in the season within the same habitat show increases in the thermal responses along with the increasing environmental temperatures late in the summer. However, behavior, specifically the use of endothermy as a thermoregulatory strategy, can influence the values determined in a particular habitat. Subspecies generally do not differ in their thermal tolerances and thermal tolerances are consistent within a species over distances of more than 7600km.

Priority and synonymy of some North American cicada genera (Hemiptera: Cicadidae: Cicadinae: Cryptotympanini).

The status of several North American cicada genera is reconsidered based on the recent erection of new genera and historical evidence. Megatibicen Sanborn & Heath, 2016 is shown to have priority over Megatibicen Lee, 2016 (which was changed by the author to Gigatibicen Lee, 2016 prior to formal publication). Ameritibicen Lee, 2016 is shown to be a junior synonym of Megatibicen Sanborn & Heath, 2016 and both Ameritibicen n. syn. and and Gigatibicen Lee, 2016 n. syn. are synonymized here to Megatibicen Sanborn & Heath. The species placed in Gigatibicen are returned to Megatibicen to become Megatibicen auletes (Germar, 1834) n. comb., Megatibicen resh (Haldeman, 1852) n. comb., and Megatibicen resonans (Walker, 1850) n. comb. while the species placed in Ameritibicen remain in Megatibicen due to the junior synonym status of Ameritibicen. The monospecific Paratibicen Lee, 2016 n. syn. is shown to be a junior synonym of Neotibicen Hill & Marshall, 2015 and its species is reassigned to Neotibicen to become Neotibicen similaris (Smith & Grossbeck, 1907) n. comb.

Megatibicen n. gen., a new North American cicada genus (Hemiptera: Cicadidae: Cicadinae: Cryptotympanini).

The genus Tibicen has had a confusing history (see summary in Boulard and Puissant 2014; Marshall and Hill 2014; Sanborn 2014). Boulard and his colleague (Boulard 1984; 1988; 1997; 2001; 2003; Boulard and Puissant 2013; 2014; 2015) have argued for the suppression of Tibicen and the taxa derivatived from it in favor of Lyristes Horváth. Boulard's argument for suppression was first described in Melville and Sims (1984) who presented the case for suppression to the International Commission on Zoological Nomenclature with further comments made by Hamilton (1985), Boulard (1985), and Lauterer (1985). A lack of action resulted in additional comments being published in 2014 again supporting the retention (Sanborn 2014; Marshall and Hill 2014) or the suppression (Boulard and Puissant 2014) of Tibicen.

The cicadas of Argentina with new records, a new genus and fifteen new species (Hemiptera: Cicadoidea: Cicadidae).

The Argentine cicada fauna is determined. A total of 108 species belonging to 37 genera, eight tribes, and three subfamilies of cicadas are represented in the Argentine cicada fauna. One genus and 15 species are described as new to science: Torresia Sanborn & Heath gen. n., Fidicinoides ferruginosa Sanborn & Heath sp. n., Proarna alalonga Sanborn & Heath sp. n., Proarna parva Sanborn & Heath sp. n., Prasinosoma medialinea Sanborn & Heath sp. n., Dorisiana noriegai Sanborn & Heath sp. n., Guyalna platyrhina Sanborn & Heath sp. n., Herrera humilastrata Sanborn & Heath sp. n., Herrera umbraphila Sanborn & Heath sp. n., Parnisa lineaviridia Sanborn & Heath sp. n., Parnisa viridis Sanborn & Heath sp. n., Alarcta micromacula Sanborn & Heath sp. n., Torresia lariojaensis Sanborn & Heath sp. n., Torresia sanjuanensis Sanborn & Heath sp. n., Chonosia longiopercula Sanborn & Heath sp. n., and Chonosia septentrionala Sanborn & Heath sp. n. Adusella signata Haupt, 1918 rev. stat. is determined to be a valid species, removed as a junior synonym of Tettigades lebruni Distant, 1906 and reassigned to the genus Odopoea Distant to become Odopoea signata comb. n. Fidicina vinula Stål, 1854 rev. stat. is determined to be a valid species, removed as a junior synonym of Fidicinoides pronoe (Walker, 1850) and assigned to the genus Fidicinoides Boulard & Martinelli to become Fidicinoides vinula comb. n. Proarna capistrata Distant, 1885 rev. stat. is determined to be a valid species, removed as a junior synonym of Proarna montividensis Berg, 1882. Chonosia papa (Berg, 1882) rev. stat. is determined to be a valid species and removed as a junior synonym of Chonosia crassipennis (Walker, 1858). Chonosia crassipennis var. metequei nom. nud. Delétang, 1919 syn. n. is considered natural variation in C. crassipennis. Dorisia bonaerensis var. bergi nom. nud. Delétang, 1919 syn. n. and Dorisia bonaerensis var. dominiquei nom. nud. Delétang, 1919 syn. n. are considered to be natural variation within Guyalna bonaerensis (Berg, 1879). Derotettix proseni Torres, 1945 is determined to be a junior synonym of Derotettix wagneri Distant, 1905 syn. n. Dorisiana metcalfi nom. nov. pro Cicada viridis Olivier, 1790 nec Cicada viridis Linnaeus, 1758 is proposed. Tettigades lizeriana Delétang, 1919 is shown to be an invalid name for the purposes of zoological nomenclature. The first records for Argentina of Fidicinoides determinata (Walker, 1858), Fidicinoides vinula (Stål, 1854) comb. n., rev. stat., Prasinosoma fuembuenai Torres, 1963, Ariasa bilaqueata (Uhler, 1903), Ariasa colombiae (Distant, 1892), Carineta boliviana Distant, 1905, Carineta gemella Boulard, 1986, Calyria stigma (Walker, 1850), Selymbria pandora Distant, 1911, Taphura hastifera (Walker, 1858), Taphura misella (Stål, 1854), and Tettigades angularis Torres, 1958 are provided. Ten species are removed from the Argentine cicada fauna. The new records and new species represent a 36% increase in the known cicada fauna. Fifty-eight species (54%) and 10 genera (27%) are currently endemic to Argentina.

Thermal adaptation and diversity in tropical ecosystems: evidence from cicadas (Hemiptera, Cicadidae).

The latitudinal gradient in species diversity is a central problem in ecology. Expeditions covering approximately 16°54' of longitude and 21°4' of latitude and eight Argentine phytogeographic regions provided thermal adaptation data for 64 species of cicadas. We test whether species diversity relates to the diversity of thermal environments within a habitat. There are general patterns of the thermal response values decreasing in cooler floristic provinces and decreasing maximum potential temperature within a habitat except in tropical forest ecosystems. Vertical stratification of the plant communities leads to stratification in species using specific layers of the habitat. There is a decrease in thermal tolerances in species from the understory communities in comparison to middle level or canopy fauna. The understory Herrera umbraphila Sanborn & Heath is the first diurnally active cicada identified as a thermoconforming species. The body temperature for activity in H. umbraphila is less than and significantly different from active body temperatures of all other studied species regardless of habitat affiliation. These data suggest that variability in thermal niches within the heterogeneous plant community of the tropical forest environments permits species diversification as species adapt their physiology to function more efficiently at temperatures different from their potential competitors.