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1. Nitrogen stable isotope turnover and discrimination in lizards

   https://doi.org/10.1002/rcm.9030  

   Warne, Robin W. ; Wolf, Blair O. ( January 2021 , Rapid Communications in Mass Spectrometry)

   Nitrogen stable isotope ratio (δ¹⁵N) processes are not well described in reptiles, which limits reliable inference of trophic and nutrient dynamics. In this study we detailed δ¹⁵N turnover and discrimination (Δ¹⁵N) in diverse tissues of two lizard species, and compared these results with previously published carbon data (δ¹³C) to inform estimates of reptilian foraging ecology and nutrient physiology.

   We quantified¹⁵N incorporation and discrimination dynamics over 360 days in blood fractions, skin, muscle, and liver ofSceloporus undulatusandCrotaphytus collaristhat differed in body mass. Tissue samples were analyzed on a continuous flow isotope ratio mass spectrometer.

   Δ¹⁵N for plasma and red blood cells (RBCs) ranged between +2.7 and +3.5‰; however, skin, muscle, and liver did not equilibrate, hindering estimates for these somatic tissues.¹⁵N turnover in plasma and RBCs ranged from 20.7 ± 4 to 303 ± 166 days among both species. Comparison with previously published δ¹³C results for these same samples showed that¹⁵N and¹³C incorporation patterns were uncoupled, especially during winter when hibernation physiology could have played a role.

   Our results provide estimates of¹⁵N turnover rates and discrimination values that are essential to using and interpreting isotopes in studies of diet reconstruction, nutrient allocation, and trophic characterization in reptiles. These results also suggest that somatic tissues can be unreliable, while life history shifts in nutrient routing and metabolism potentially cause¹⁵N and¹³C dynamics to be decoupled.

    

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2. Life history changes in the eastern collared lizard in response to varying demographic phases and management policies

   https://doi.org/10.1002/1438-390X.12162  

   Templeton, Alan R. ; Neuwald, Jennifer L. ; Conley, Amy K. ( July 2023 , Population Ecology)

   By 1980 eastern collared lizards (Crotaphutus collaris collaris) had experienced massive local extinction on glades (open, rocky areas imbedded in a woodland matrix) in the Ozarks, a highland region in central North America. Lizards were translocated to the Peck Ranch Conservation Area in Missouri on three restored glades starting in 1984, and went through three demographic phases: (1) an isolate phase with initial growth followed by decline in population size and no colonization of nearby glades; (2) a colonizing phase of high dispersal and population growth that started with the onset of prescribed woodland burning, and (3) a stable metapopulation phase. We used mark/recapture information on over 1500 lizards with high sample coverage to estimate life history parameters. Life history was homogeneous within each phase, but differed significantly between phases. Changes occurred in less than a generation, indicating plasticity in life history. The isolate phase was characterized by low juvenile survivorship, high adult survivorship, long generation times, an old age structure, and almost no dispersal. The colonization phase had increased yearling survival, decreased adult survival, shorter generation times, a younger age structure, and much dispersal. The stable metapopulation phase was intermediate between these two extremes. These transitions indicated trade‐offs among different life history parameters. These plastic life history attributes show that species cannot be regarded as static units, resulting in not a life history, but rather a set of feasible life histories. Ignoring this set of feasible life histories can result in poor conservation decisions.

    

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3. New genera and new species of Western Australian cicadas (Hemiptera: Cicadidae)

   https://doi.org/10.11646/zootaxa.5174.5.1  

   MOULDS, MAX ; MARSHALL, DAVID C. ( August 2022 , Zootaxa)

   The cicada fauna of Western Australia is briefly reviewed. Six genera and 14 species are recorded from the State for the first time bringing the total of known species and subspecies to 105 and a list of all 105 is provided. Among the taxa here recorded are five new genera and 13 new species belonging to the tribes Macrotristriini (Illyria viridis sp. n.), Pictilini (Chrysocicada trophis sp. n.), and Cicadettini (Calipsalta gen. n., Calipsalta brunnea sp. n., C. fumosa sp. n., C. viridans sp. n., Kalarko gen. n., Kalarko ferruginosus sp. n., Ewartia adusta sp. n., Parvopsalta gen. n., Parvopsalta victoriae sp. n., Pedana gen. n., Pedana hesperia sp. n., Pegapsaltria gen. n., Pegapsaltria lutea sp. n., Pyropsalta amnica sp. n., Py. patula sp. n., and Py. rhythmica sp. n). In addition, Erempsalta hermannsburgensis (Distant, 1907) is redescribed and its presence in Western Australia (and four other States) documented for the first time. Songs are analysed for all species except two species of Pyropsalta where recordings were unavailable. 

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4. Review of the leafhopper genus Makilingia Baker (Hemiptera: Cicadellidae: Mileewinae)

   https://doi.org/10.11646/zootaxa.4559.3.3  

   DIETRICH, CHRISTOPHER H. ; ZAHNISER, JAMES N. ( February 2019 , Zootaxa)

   The taxonomy of the leafhopper genus Makilingia Baker is reviewed based on comparative morphological study of types and other specimens. Twenty-six species are recognized as valid including ten new species described and illustrated herein: M. davaoensis n. sp. M. lobata n. sp., M. maculamima n. sp., M. nigramima n. sp., M. paranigra n. sp., M. siamensis n. sp., M. tenebrifrons n. sp., M. uncinata n. sp., M. viraktamathi n. sp., and M. xanthopicta n. sp. Makilingia siamensis n. sp. represents the first known occurrence of the genus outside the Philippine Archipelago and the first record for Thailand. Makilingia simillima Baker, n. stat., formerly treated as a variety of M. variabilis Baker, is elevated to full species status based on distinctive differences in the male genitalia. Lectotypes are designated for several species described by Baker. The male genitalia of these species are described and illustrated for the first time and a key to all known species is provided. 

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5. Chewing lice of the Brueelia-complex (Phthiraptera: Ischnocera) parasitic on members of the Campephagidae (Aves: Passeriformes), with description of a new subgenus and 14 new species

   https://doi.org/10.11646/zootaxa.5165.1.1  

   GUSTAFSSON, DANIEL R. ; BUSH, SARAH E. ( July 2022 , Zootaxa)

   Fourteen new species of chewing lice in the Brueelia-complex are described, from hosts in the Campephagidae. In addition, Malardifax a new subgenus of Guimaraesiella Eichler, 1949 is described for the species occurring on minivets (Campephagidae: Pericrocotus). The new species and their hosts are: Guimaraesiella (Guimaraesiella) nouankaoensis n. sp. from Coracina caledonica seiuncta Mayr & Ripley, 1941 and C. caledonica thilenii (Neumann, 1915); Guimaraesiella (Guimaraesiella) sphagmotica n. sp. from Coracina caeruleogrisea strenua (Schlegel, 1871) and C. caeruleogrisea adamsoni Mayr & Rand, 1936; Indoceoplanetes (Capnodella) kamphaengphetensis n. sp. from Lalage melaschistos avensis (Blyth, 1852); Indoceoplanetes (Capnodella) saucia n. sp. from Edolisoma montanum montanum (Meyer, 1874); Indoceoplanetes (Capnodella) subarcens n. sp. from Edolisoma melas melas (Lesson, 1828); Indoceoplanetes (Indoceoplanetes) cinitemnina n. sp. from Edolisoma melas melas (Lesson, 1828); Indoceoplanetes (Indoceoplanetes) ephippiformis n. sp. from Edolisoma montanum montanum (Meyer, 1874); Indoceoplanetes (Indoceoplanetes) fodincana n. sp. from Coracina papuensis oriomo Mayr & Rand, 1936, C. papuensis angustifrons (Salvadori, 1876), and C. papuensis elegans (Ramsay, 1881); Indoceoplanetes (Indoceoplanetes) incisoma n. sp. from Coracina macei siamensis (Baker, 1918) and C. macei rexpineti (Swinhoe, 1863); Indoceoplanetes (Indoceoplanetes) microgenitalis n. sp. from Coracina caeruleogrisea strenua (Schlegel, 1871); Indoceoplanetes (Indoceoplanetes) pterophora n. sp. from Coracina macei nipalensis (Hodgson, 1836); Indoceoplanetes (Indoceoplanetes) saburrata n. sp. from Coracina lineata ombriosa (Rothschild & Hartert, 1905); Indoceoplanetes (Indoceoplanetes) wandoensis n. sp. from Coracina novaehollandiae melanops (Latham, 1802); and Indoceoplanetes (Indoceoplanetes) zambica n. sp. from Coracina pectoralis (Jardine & Selby, 1828). Checklists and keys to the louse species of the Brueelia-complex parasitic on campephagid hosts are provided. 

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