590 Tiere (Zoologie)
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A new monotypic genus of flatid planthoppers (Hemiptera: Fulgoromorpha: Flatidae), Medleria gen. nov., is described for Medleria caudata gen. et sp. nov. (type species) from the island of Socotra (Yemen). Habitus, male and female external and internal genital structures of the new species are illustrated and compared with similar taxa. Medleria caudata gen. et sp. nov. is probably endemic to Socotra where it is known to date from a small area of the Dixam mountain plateau only.
In the insect brain, the mushroom body is a higher order brain area that is key to memory formation and sensory processing. Mushroom body (MB) extrinsic neurons leaving the output region of the MB, the lobes and the peduncle, are thought to be especially important in these processes. In the honeybee brain, a distinct class of MB extrinsic neurons, A3 neurons, are implicated in playing a role in learning. Their MB arborisations are either restricted to the lobes and the peduncle, here called A3 lobe connecting neurons, or they provide feedback information from the lobes to the input region of the MB, the calyces, here called A3 feedback neurons. In this study, we analyzed the morphology of individual A3 lobe connecting and feedback neurons using confocal imaging. A3 feedback neurons were previously assumed to innervate each lip compartment homogenously. We demonstrate here that A3 feedback neurons do not innervate whole subcompartments, but rather innervate zones of varying sizes in the MB lip, collar, and basal ring. We describe for the first time the anatomical details of A3 lobe connecting neurons and show that their connection pattern in the lobes resemble those of A3 feedback cells. Previous studies showed that A3 feedback neurons mostly connect zones of the vertical lobe that receive input from Kenyon cells of distinct calycal subcompartments with the corresponding subcompartments of the calyces. We can show that this also applies to the neck of the peduncle and the medial lobe, where both types of A3 neurons arborize only in corresponding zones in the calycal subcompartments. Some A3 lobe connecting neurons however connect multiple vertical lobe areas. Contrarily, in the medial lobe, the A3 neurons only innervate one division. We found evidence for both input and output areas in the vertical lobe. Thus, A3 neurons are more diverse than previously thought. The understanding of their detailed anatomy might enable us to derive circuit models for learning and memory and test physiological data.
GTP cyclohydrolase (GCH1) governs de novo synthesis of the enzyme cofactor, tetrahydrobiopterin (BH4), which is essential for biogenic amine production, bioactive lipid metabolism and redox coupling of nitric oxide synthases. Overproduction of BH4 via upregulation of GCH1 in sensory neurons is associated with nociceptive hypersensitivity in rodents, and neuron‐specific GCH1 deletion normalizes nociception. The translational relevance is revealed by protective polymorphisms of GCH1 in humans, which are associated with a reduced chronic pain. Because myeloid cells constitute a major non‐neuronal source of BH4 that may contribute to BH4‐dependent phenotypes, we studied here the contribution of myeloid‐derived BH4 to pain and itch in lysozyme M Cre‐mediated GCH1 knockout (LysM‐GCH1−/−) and overexpressing mice (LysM‐GCH1‐HA). Unexpectedly, knockout or overexpression in myeloid cells had no effect on nociceptive behaviour, but LysM‐driven GCH1 knockout reduced, and its overexpression increased the scratching response in Compound 48/80 and hydroxychloroquine‐evoked itch models, which involve histamine and non‐histamine dependent signalling pathways. Mechanistically, GCH1 overexpression increased BH4, nitric oxide and hydrogen peroxide, and these changes were associated with increased release of histamine and serotonin and degranulation of mast cells. LysM‐driven GCH1 knockout had opposite effects, and pharmacologic inhibition of GCH1 provided even stronger itch suppression. Inversely, intradermal BH4 provoked scratching behaviour in vivo and BH4 evoked an influx of calcium in sensory neurons. Together, these loss‐ and gain‐of‐function experiments suggest that itch in mice is contributed by BH4 release plus BH4‐driven mediator release from myeloid immune cells, which leads to activation of itch‐responsive sensory neurons.
The genus Raveniola Zonstein, 1987 is found to be represented in Western Asia by 16 species: ♂♀ R. adjarica sp. nov. (Georgia), ♂ R. anadolu sp. nov. (Turkey), ♂ R. arthuri Kunt & Yağmur, 2010 (Turkey), ♂ R. birecikensis sp. nov. (Turkey), ♂♀ R. dunini sp. nov. (Armenia, Azerbaijan, Iran), ♂♀ R. hyrcanica Dunin, 1988 (Azerbaijan), ♂ R. marusiki sp. nov. (Iran), ♂ R. mazandaranica Marusik, Zamani & Mirshamsi, 2014 (Iran), ♂♀ R. micropa (Ausserer, 1871) (Turkey), ♀ R. nana sp. nov. (Turkey), ♂♀ R. niedermeyeri (Brignoli, 1972) (Iran), ♂♀ R. pontica (Spassky, 1937) (Russia, Georgia), ♀ R. sinani sp. nov. (Turkey), ♂♀ R. turcica sp. nov. (Turkey), ♂♀ R. vonwicki Zonstein, 2000 (Iran) and ♂♀ R. zaitzevi (Charitonov, 1948) (Azerbaijan, Georgia) = ♀ Brachythele recki Mcheidze, 1983, syn. nov. Eight species are described as new; others are redescribed from types and/or conspecific material. Males of R. micropa and R. zaitzevi, hitherto unknown, are described for the first time. Data on the variability, relationships, distribution and ecology of all considered species are also provided.
The Central Asian spider genus Anemesia Pocock, 1895 is rediagnosed and revised. The genus was found to contain 14 species: ♂♀ A. andreevae sp. nov. (Uzbekistan, Tajikistan); ♂♀ A. birulai (Spassky, 1937) (Turkmenistan); ♂♀ A. castanea sp. nov.; ♂♀ A. incana Zonstein, 2001, ♂♀ A. infumata sp. nov.; ♂♀ A. infuscata sp. nov.; ♂♀ A. karatauvi (Andreeva, 1968) (all Tajikistan); ♂ A. koponeni Marusik, Zamani & Mirshamsi, 2014 (Iran); ♂♀ A. oxiana sp. nov.; ♂♀ A. pallida sp. nov.; ♂ A. parvula sp. nov. (all Tajikistan); ♂♀ A. pococki sp. nov. (Turkmenistan); ♂♀ A. sogdiana sp. nov. (Uzbekistan, Tajikistan) and ♂♀ A. tubifex (Pocock, 1889), the type species (Afghanistan, Turkmenistan). Nine species are newly described; others are redescribed from types and/or conspecific material. Males of A. tubifex and females of A. birulai, hitherto unknown, are described for the first time. Data on the variability, relationships, distribution, and ecology of all considered species are provided.
Divergent selection between ecologically dissimilar habitats promotes local adaptation, which can lead to reproductive isolation (RI). Populations in the Poecilia mexicana species complex have independently adapted to toxic hydrogen sulfide and show varying degrees of RI. Here, we examined the variation in the mate choice component of prezygotic RI. Mate choice tests across drainages (with stimulus males from another drainage) suggest that specific features of the males coupled with a general female preference for yellow color patterns explain the observed variation. Analyses of male body coloration identified the intensity of yellow fin coloration as a strong candidate to explain this pattern, and common-garden rearing suggested heritable population differences. Male sexual ornamentation apparently evolved differently across sulfide-adapted populations, for example because of differences in natural counterselection via predation. The ubiquitous preference for yellow color ornaments in poeciliid females likely undermines the emergence of strong RI, as female discrimination in favor of own males becomes weaker when yellow fin coloration in the respective sulfide ecotype increases. Our study illustrates the complexity of the (partly non-parallel) pathways to divergence among replicated ecological gradients. We suggest that future work should identify the genomic loci involved in the pattern reported here, making use of the increasing genomic and transcriptomic datasets available for our study system.
The Scarabaeus subgenus Scarabaeolus Balthasar, 1965 (Scarabaeidae: Scarabaeinae: Scarabaeini) is defined and nine new species are described, six from the Republic of South Africa [S. (S.) fragilis sp. n., S. (S.) krugeri sp. n., S. (S.) lizleri sp. n., S. (S.) orientalis sp. n., S. (S.) rugosipennis sp. n., S. (S.) similis sp. n.] and one each from Angola [S. (S.) cunene sp. n.], Namibia [S. (S.) namibensis sp. n.] and Kenya [S. (S.) werneri sp. n.], bringing the number of recorded species up to 41. Species accounts listing original descriptions, subsequent accounts, type localities, type repositories, and geographic distributions are provided for all the species. The status of S. (S.) reichei Waterhouse, 1890 and of S. (S.) bohemani Harold, 1868, both formerly synonymized and reinstated, are discussed. It is concluded that S. (S.) reichei is synonymous with S. (S.) canaliculatus Fairmaire, 1888, whereas S. (S.) bohemani differs from S. (S.) palemo Olivier, 1789 in the color of antennal club and shape of paramere tips, and is upheld pending availability of molecular data.
A new species complex, the eparmata complex, is established within the subgenus Phortica s. str., based on eight known and five new species, all of which are endemic to the Oriental Region: P. bipartita (Toda & Peng, 1992), P. eparmata (Okada, 1977), P. lanuginosa Chen & Toda, 2007, P. latipenis Chen & Gao, 2005, P. pangi Chen & Wen, 2005, P. setitabula Chen & Gao, 2005, P. unipetala Chen & Wen, 2005 and P. zeta Chen & Toda, 2007; P. jadete sp. nov., P. kava sp. nov., P. mengda sp. nov., P. wongding sp. nov. and P. yena sp. nov. A key to all species of this complex is provided. Barcoding sequences (mitochondrial COI gene) were obtained for 22 specimens of five known and the five abovementioned new species. The intra- and inter-specific pairwise K-2P (Kimura’s two-parameter) distances of COI were determined. Phylogenetic analysis was performed using Bayesian inference based on COI sequences, confirming the monophyletic status of the eparmata complex, which is distinct from the species complexes of magna, omega, variegata and another two ungrouped species.
Conidera Rivalier, 1961 is a well-defined subgenus of tiger beetles (Coleoptera: Cicindelidae) hitherto only known from two species endemic to the island of Luzon. This paper describes the first species from Mindoro, with a doubtful record from Mindanao. Cylindera (Conidera) mindoroana Zettel and Wiesner, new species, differs strongly by an unusual shape of the female’s elytra. A diagnosis for Conidera and a key to the species of this subgenus is presented.