ABSTRACT
The converse Bergmann's rule is a pattern of body size variation observed in many ectothermic organisms that contradicts the classic Bergmann's rule and suggests that individuals inhabiting warmer climates tend to exhibit larger body sizes compared to those inhabiting colder environments. Due to the thermoregulatory nature of Bergmann's rule, its application among ectotherms might prove to be more complicated, given that these organisms obtain heat by absorbing it from their habitat. The existence of this inverse pattern therefore challenges the prevailing notion that larger body size is universally advantageous in colder climates. Ceroglossus chilensis is a native Chilean beetle that has the largest latitudinal range of any species in the genus, from 34.3° S to 47.8° S. Within Chile, it continuously inhabits regions extending from Maule to Aysen, thriving on both native and non-native forest species. Beyond their remarkable color variation, populations of C. chilensis show minimal morphological disparity, noticeable only through advanced morphological techniques (geometric morphometrics). Based on both (1) the "temperature-size rule", which suggests that body size decreases with increasing temperature, and (2) the reduced resource availability in high-latitude environments that may lead to smaller body sizes, we predict that C. chilensis populations will follow the converse Bergmann's rule. Our results show a clear converse pattern to the normal Bergmann rule, where smaller centroid sizes were found to be measured in the specimens inhabiting the southern areas of Chile. Understanding the prevalence of the converse Bergmann's rule for ectotherm animals and how often this rule is broken is of utmost importance to understand the underlying mechanisms allowing organisms to adapt to different environments and the selective pressures they face.
ABSTRACT
Ground beetles (Carabid beetles) may be found in virtually all of the world's habitats. They are one of the three most diverse families of extant beetles, with 34,275 species documented, and they serve as vital ecological markers in all environments. Edaphic living beetles catch and eat a wide variety of arthropods that live in the soil. In the case of weeds, most of the ground beetles eat their seeds and help regulate their populations. The findings of a field study in agrocenoses in South-East Kazakhstan from 2019 to 2020 are presented in this article. Twenty-seven ground beetle species from 9 genera were discovered as a consequence of the study. 670 soil traps yielded a total of 1012 beetles. Polytopic mesophilic beetles provide the foundation of the agrocenoses fauna. Hygrophils, mesophiles, and eurybionts are among the beetles found in irrigated areas, as are mixed and herbivorous species. The Carabidae family of beetles is the most numerous in fields and steppe settings. As a result, mixed-diet beetles can be found depending on the habitat and air temperature. The species of beetles in all fields in the investigation area are in accordance with the insects' complex. During the growth season, the diet of beetles shifts: predatory beetles take precedence initially, followed by mixed-diet beetles.
Os besouros terrestres (besouros carabídeos) podem ser encontrados em praticamente todos os hábitats do mundo. Eles são uma das três famílias mais diversas de besouros existentes, com 34.275 espécies documentadas, e servem como marcadores ecológicos vitais em todos os ambientes. Os besouros vivos edáficos capturam e comem uma grande variedade de artrópodes que vivem no solo. No caso de ervas daninhas, os besouros terrestres, em sua maioria, comem sementes delas e ajudam a regular suas populações. Os resultados do estudo de campo em agrocenoses no sudeste do Cazaquistão de 2019 a 2020 são apresentados neste artigo. Foram descobertas 27 espécies de besouros terrestres de 9 gêneros como consequência do estudo. As 670 armadilhas de solo renderam um total de 1.012 besouros. Besouros mesófilos politópicos fornecem a base para a fauna de agrocenoses. Higrófilos, mesófilos e euribiontes estão entre os besouros encontrados em áreas irrigadas, assim como espécies mistas e herbívoras. Em campos e estepes, a família Carabidae de besouros é a mais numerosa. Como resultado, dependendo do hábitat e da temperatura do ar, podem ser encontrados besouros de dieta mista. As espécies de besouros em todos os campos da área de investigação estão de acordo com o complexo dos insetos. Durante a estação de crescimento, a dieta dos besouros muda: os besouros predadores têm precedência, seguidos dos besouros de dieta mista.
Subject(s)
Animals , Population , Coleoptera , 24444 , Environment , Plant Weeds , BiodiversityABSTRACT
Coleopteran insects can produce toxic substances containing multiple components which have so far not been properly described. To report an unusual case of intoxication by excretion from Calosoma alternans Fabricius 1792 (Coleoptera: Carabidae) in a Venezuelan patient from a periurban neighborhood near the mesothermal raining forest. The toxic activity caused a clinical status characterized by digestive symptoms such as nausea, vomiting, epigastralgia, an increase in bowel movements and probable kidney inflammation with intense pain in both lumbar regions, which did not correspond to the classic dermal damage. In conclusion, a unique case is presented of intoxication by a coleopteran species, with a clinical description not previously reported(AU)
Los insectos coleópteros pueden producir sustancias tóxicas que contienen numerosos componentes que aún no han sido descritos adecuadamente. Presentar un caso inusual de intoxicación por excreciones de Calosoma alternans Fabricius 1792 (Coleoptera: Carabidae) en un paciente venezolano residente en un barrio periurbano cercano a la selva tropical mesotérmica. La actividad tóxica provocó un cuadro clínico caracterizado por síntomas digestivos como náuseas, vómitos, epigastralgia, aumento del número de deposiciones y probablemente inflamación renal, con dolor intenso en ambas regiones lumbares, lo que no se corresponde con el daño dérmico clásico. En resumen, se presenta un caso singular de intoxicación provocada por una especie de coleóptero, con una descripción clínica no reportada anteriormente(AU)
Subject(s)
Humans , Male , Signs and Symptoms , Coleoptera , Insecta , Poisoning , Venezuela , Vomiting , Toxic SubstancesABSTRACT
Wetlands are being increasingly affected by anthropogenic activities worldwide. The Lower Delta of the Paraná River, one of the most important wetlands in Argentina, has been profoundly altered because most of the natural environments were drained or diked to make them suitable for different agricultural activities. As a result, the landscape is characterized by a mosaic of Salicaceae afforestations of different ages interspersed with patches of secondary forests and grazing grasslands. The high susceptibility of Carabidae and Aphodiidae to natural and human-induced disturbances and management practices is reflected by changes in their spatiotemporal distribution. We performed a 1-year study to analyze and compare beetle's communities inhabiting different habitat types in this modified wetland landscape. A total of 58 beetle species were recorded, of which 48 were carabids and 10 aphodids. Although species richness and diversity were higher in productive habitats (afforestations and grasslands) than in secondary forests, hydrophilic species were only found in the latter. Community parameters varied seasonally. Our results indicate a close relationship between wetland beetle communities and vegetation cover in each habitat type. Human activity increases heterogeneity across this landscape, which favors the colonization of new species but causes the loss or displacement of autochthonous species. The secondary forests could serve as alternative habitats for beetles typical of humid environments. We propose the maintenance of the current heterogeneous mosaic to favor the diversity of ground beetles and the implementation of changes in water management for the benefit of hydrophilic beetle species.
Subject(s)
Coleoptera , Wetlands , Animals , Argentina , Forests , Rivers , WaterABSTRACT
The new species Ardistomis ferreirai sp. nov. is described and illustrated. Some specific characters are discussed together with a possible correlation to the species subterranean way of life. Available ecological data and recordings are provided by description of the caves and the specific threats to the caves are indicated.
Subject(s)
Caves , Coleoptera , Animals , Brazil , Ecology , EcosystemABSTRACT
Primarily a taxonomic review of the West Indian elements of the selenophorine Harpalini, this paper includes a classification, a key, descriptions and illustrations of taxa, re-rankings, and new synonymies. In total, 45 species and subspecies are treated, six of which are described as new. A new genus and new species are as follows, with type localities in parentheses: Paraulacoryssusgen. n., (type species Selenophorus puertoricensis Mutchler, 1934); Neodiachipteryx davidsonisp. n., (Zamba, Dominican Republic); Selenophorus spinosussp. n., seriatoporus species group (Benjamin Constant, state of Amazonas, Brazil); Selenophorus obtusoidessp. n., parumpunctatus species group (near Soroa, Pinar del Rio Province, Cuba); Selenophorus ivieisp. n., nonseriatus species group (Big River, Montserrat, 16°45.719N', 62°11.335W'); Selenophorus irecsp. n., nonseriatus species group (Vernou, Guadeloupe, Lesser Antilles); and Selenophorus fabriciisp. n., opalinus species group (Cabo Rojo, Pedernales Province, Dominican Republic). This last species was misidentified as Selenophorus integer (Fabricius). In turn, that species was misidentified as Selenophorus chalybeus Dejean. Selenophorus chalybeus Dejean is a junior synonym of Selenophorus integer Fabricius, syn. n.; and Isopleurus macleayi Kirby is a junior synonym of Selenophorus pyritosus Dejean, syn. n. Biogeographically, log of land area plotted against log of number of species shows that the equilibrium theory of biogeography applies to the West Indian selenophorine fauna. Taxonomically, the selenophorine taxa of the West Indies are arranged in eight genera. The 30 species/subspecies of Selenophorus (sensu stricto) are arranged in 10 species groups. Geographically, the major sources of the selenophorines are the Bahamas, the Greater Antilles and Lesser Antilles. The West Indian islands probably have been invaded by 26 taxa. Of the currently extant taxa, 11 are classified as immigrant, meaning that they are represented both in the islands and on the mainland (South America or Middle America and southern Florida). Thirty three taxa are classified as precinctive, meaning that they originated where they are now living, the implication being that they have descended from immigrants, thus older in the islands than the current-day immigrants. It is postulated that the West Indian taxa represent three age groups: oldest, ancestors having reached the proto-Antilles by a landspan known as GAARlandia; a middle-age group (Neogene period), their ancestors having reached the islands by dispersal over water, between islands; and a young group of extant taxa, no older than the Pleistocene, also having reached the islands over water.
ABSTRACT
Nine new Trechisibus species from South America (Peru and Patagonian Argentina) were recently described (Allegro & Giachino 2016). Five of them were based on material labelled "Argentina, Neuquen, Pen. Quetrihué" offered to the authors for study by its collector (Riccardo Sciaky). Shortly after publication, Martin Donabauer kindly communicated that a mistake probably had occurred, as they are five well known European Trechus species from Koralpe (Austria) living in low subalpine forests at 1200-1700 m a.s.l. As a subsequent control allowed us to ascertain that the collector had stayed in Koralpe collecting some material, a mistake evidently occurred in labelling, misleading a correct taxonomic interpretation of these species by the authors.
Subject(s)
Coleoptera , Animal Distribution , Animals , Argentina , Austria , Peru , South AmericaABSTRACT
A new carabid beetle genus, Balligratus gen. nov., belonging to the tribe Lachnophorini, is described. It is geographically restricted to the equatorial Andes, and ecologically linked to the montane pluvial forest ecosystem, at elevations ranging from 1,200 to 3,600 m. As other carabid lineages that have radiated in such environments, Balligratus gen. nov. is a wingless clade, characterized by the loss of flight wings associated with metathoracic reduction, constriction of the elytral base, and reduced eye size. This evolution is unique among Lachnophorini. Four new species are described, all of them from Ecuador: Balligratus brevis sp. nov., Balligratus globosus sp. nov., Balligratus gracilis sp. nov. and Balligratus humerangulus sp. nov.
Subject(s)
Coleoptera , Animals , Ecosystem , Ecuador , ForestsABSTRACT
Carabid beetle assemblages in three environments in the Araucaria humid forest of southern Brazil. Carabidae is composed mainly by ground-dwelling predator beetles. It is the fourth most diverse group within Coleoptera, but its diversity in the Neotropical region is understudied. Here we describe and analyze the diversity of carabid beetles in a region of subtropical rain forest dominated by Araucaria angustifolia with different landscapes. Three areas were chosen in an environmental integrity gradient: primary forests, secondary forests and old Pinus plantations. Pitfall traps were taken monthly, in a total of 14 samples per area. 1733 adult carabid beetles, belonging to 18 species, were sampled. There were differences in richness and abundance between the sampled areas. The total scores followed the same tendency: primary forests (14 species/747 individuals), secondary forests (13/631) and Pinus forests (10/355). An analysis of similarity shows differences in species composition, for both areas and seasons. Galerita lacordarei was the most abundant species for all samples and seasons. Carabid species show similar responses in accordance with habitat heterogeneity and disturbance. The abundance of Galerita lacordarei was influenced by temperature, for all sampled sites. Environmental changes affect the carabid assemblages and decrease diversity, possibly interfering in local dynamics. Seasonality patterns seem to indicate an increase in individual movement during summer, probably in search of resources. It is suggested that microhabitat patchiness is probably an important factor affecting carabid beetle diversity at small spatial scales.
ABSTRACT
Comparisons of structural features (principally mouthparts, elytral-abdominal locking mechanism, and female genitalia) of the ardistomine genera (Aspidoglossa Putzeys, Ardistomis Putzeys, and Semiardistomis Kult) with those features of members of the subtribe Clivinina (Clivina Latreille, Oxydrepanus Putzeys, Schizogenius Putzeys,Ancus Putzeys, Nyctosyles Putzeys, and Obadius Burmeister) confirm the taxonomic validity of the subtribe Ardistomina. Based on morphological features, the ardistomine genera are postulated to be related as follows: [Aspidoglossa [Ardistomis + Semiardistomis]]. Knowledge of this subtribe is further extended by taxonomic treatment of the genus Semiardistomis Kult. Of the 30 valid names of Semiardistomis previously recognized, four were proposed as variety names, and are listed as junior synonyms: Ardistomis labialis picipes Bates, 1881, Ardistomis labialis nanus Bates, 1881, and Ardistomis labialis dilatatus Bates, 1881; and Ardistomis pallipes caerulea Putzeys, 1846. Eight names, treated as specific epithets, are junior synonyms, as follows: Ardistomis (Semiardistomis) balthasari Kult, 1950 = Semiardistomis glabratus (Putzeys, 1866); Ardistomis (Semiardistomis) emdeni Kult, 1950 = Semiardistomis deletus (Putzeys, 1846); Ardistomis aenea Putzeys, 1866, Ardistomis (Semiardistomis) brittoni Kult, 1950, and Ardistomis (Semiardistomis) marani Kult, 1950 = Semiardistomis flavipes (Dejean, 1831); Ardistomis tuspanensis Putzeys, 1846 = Semiardistomis labialis (Chaudoir, 1837); Ardistomis (Semiardistomis) vlastae Kult, 1950 = Semiardistomis subglabra (van Emden, 1949); and Ardistomis striga Putzeys, 1866 = Semiardistomis pallipes (Dejean, 1831). Two new species described are Semiardistomis exspectatussp. n.(type locality PERU, Madre de Dios, Rio Manu, 11°56'47"S, 071°17'00"W), and Semiardistomis majorsp. n. (type locality PERU, Loreto, Rio Samiria, 05°12'S, 75°20'W). The 20 species of Semiardistomis are arranged intwo species-groups here proposed: the puncticollis group, including 12 species; and labialis group, including eight species. The species recognized are keyed, described or redescribed, and notes are provided about their Geographical distribution, habitat and activity. Distribution maps show known geographical ranges, from which are inferred patterns of speciation from a center of radiation in northern South America of both lineages.
ABSTRACT
All scientific names of Trachypachidae, Rhysodidae, and Carabidae (including cicindelines) recorded from America north of Mexico are catalogued. Available species-group names are listed in their original combinations with the author(s), year of publication, page citation, type locality, location of the name-bearing type, and etymology for many patronymic names. In addition, the reference in which a given species-group name is first synonymized is recorded for invalid taxa. Genus-group names are listed with the author(s), year of publication, page citation, type species with way of fixation, and etymology for most. The reference in which a given genus-group name is first synonymized is recorded for many invalid taxa. Family-group names are listed with the author(s), year of publication, page citation, and type genus. The geographical distribution of all species-group taxa is briefly summarized and their state and province records are indicated.One new genus-group taxon, Randallius new subgenus (type species: Chlaenius purpuricollis Randall, 1838), one new replacement name, Pterostichus amadeus new name for Pterostichus vexatus Bousquet, 1985, and three changes in precedence, Ellipsoptera rubicunda (Harris, 1911) for Ellipsoptera marutha (Dow, 1911), Badister micans LeConte, 1844 for Badister ocularis Casey, 1920, and Agonum deplanatum Ménétriés, 1843 for Agonum fallianum (Leng, 1919), are proposed. Five new genus-group synonymies and 65 new species-group synonymies, one new species-group status, and 12 new combinations (see Appendix 5) are established.The work also includes a discussion of the notable private North American carabid collections, a synopsis of all extant world geadephagan tribes and subfamilies, a brief faunistic assessment of the fauna, a list of valid species-group taxa, a list of North American fossil Geadephaga (Appendix 1), a list of North American Geadephaga larvae described or illustrated (Appendix 2), a list of Geadephaga species described from specimens mislabeled as from North America (Appendix 3), a list of unavailable Geadephaga names listed from North America (Appendix 4), a list of nomenclatural acts included in this catalogue (Appendix 5), a complete bibliography with indication of the dates of publication in addition to the year, and indices of personal names, supraspecific names, and species-group names.
ABSTRACT
Calleida desenderi Casale, sp. n., is described from Ecuador, Napo Province, surroundings of San Rafael. The new taxon is mostly characterized by the head and appendages rufous, the disc of elytra with marked metallic green reflection, the median lobe of aedeagus ring-like, and the endophallus with a long, twisted flagellum. A key for identification of the closer Neotropical species described so far is also provided.
ABSTRACT
The Mexican carabid species Pseudaptinus (Thalpius) nobilis Liebke is documented from the United States for the first time based on two specimens captured in southeastern Texas. A new taxonomic key distinguishes the 10 members of subgenus Thalpius known in North America, including Mexico. Pseudaptinus (Thalpius) dorsalis, which is found to be highly variable in its dorsal coloration, is compared to similar Pseudaptinus (Thalpius) hoegei. Geographic ranges are extended for several species.
ABSTRACT
This work addresses the effects of the size, flooding susceptibility and vegetation complexity on ground beetles community structure (Coleoptera, Carabidae) in forest patches (capões) in the sub-regions Miranda and Abobral of the Pantanal, State of Mato Grosso do Sul. Thirty pitfall traps were run for six days per month, in six forest patches between October 1998 and October 1999. A total of 2,071 individuals of 64 species were captured. Negrea scutellaris (Dejean, 1831) and an unidentified Lebiini were the most abundant species (472 and 464 individuals respectively). Gregarious distribution and great number of species of low abundance could reflect the pattern of resource availability in the tropical regions. Species richness in the forest patches was explained only by vegetation complexity, whereas species composition demonstrated no significant relationship with any of the considered variables. This lack of relationship could have been driven by the limited variation in size and vegetation complexity of capões; alternatively, it may reflect a stronger effect of species composition change at regional, rather than local scales.
Neste trabalho foi estudado o efeito do tamanho, susceptibilidade à inundação e complexidade vegetacional na estrutura de comunidade de Carabidae (Coleoptera) em ilhas de vegetação arbórea (capões de mata) no Pantanal sul-mato-grossense, sub-regiões Miranda e Abobral. Os dados foram obtidos no período de outubro de 1998 a outubro de 1999 em seis capões de mata, através de 30 armadilhas de queda ("pitfall traps") instaladas por seis dias, mensalmente, no interior dos capões. Foram capturados 2.071 indivíduos, distribuídos em 64 espécies. Negrea scutellaris (Dejean, 1831) e uma espécie não-identificada de Lebiini foram as espécies mais abundantes (com 472 e 464 indivíduos, respectivamente). A distribuição gregária e o elevado número de espécies pouco abundantes encontrados pode refletir o padrão de disponibilidade de recursos das regiões tropicais. Entre as variáveis estudadas, apenas a complexidade vegetacional explicou a variação da riqueza de espécies nos capões de mata. A composição das espécies não foi explicada por nenhuma das variáveis avaliadas. Possivelmente a variação em tamanho e em complexidade vegetacional dos capões não seja tão evidente para demonstrar estas relações e a composição das espécies esteja variando mais em escala regional do que em escala local.
ABSTRACT
This work addresses the effects of the size, flooding susceptibility and vegetation complexity on ground beetles community structure (Coleoptera, Carabidae) in forest patches (capões) in the sub-regions Miranda and Abobral of the Pantanal, State of Mato Grosso do Sul. Thirty pitfall traps were run for six days per month, in six forest patches between October 1998 and October 1999. A total of 2,071 individuals of 64 species were captured. Negrea scutellaris (Dejean, 1831) and an unidentified Lebiini were the most abundant species (472 and 464 individuals respectively). Gregarious distribution and great number of species of low abundance could reflect the pattern of resource availability in the tropical regions. Species richness in the forest patches was explained only by vegetation complexity, whereas species composition demonstrated no significant relationship with any of the considered variables. This lack of relationship could have been driven by the limited variation in size and vegetation complexity of capões; alternatively, it may reflect a stronger effect of species composition change at regional, rather than local scales.
Neste trabalho foi estudado o efeito do tamanho, susceptibilidade à inundação e complexidade vegetacional na estrutura de comunidade de Carabidae (Coleoptera) em ilhas de vegetação arbórea (capões de mata) no Pantanal sul-mato-grossense, sub-regiões Miranda e Abobral. Os dados foram obtidos no período de outubro de 1998 a outubro de 1999 em seis capões de mata, através de 30 armadilhas de queda ("pitfall traps") instaladas por seis dias, mensalmente, no interior dos capões. Foram capturados 2.071 indivíduos, distribuídos em 64 espécies. Negrea scutellaris (Dejean, 1831) e uma espécie não-identificada de Lebiini foram as espécies mais abundantes (com 472 e 464 indivíduos, respectivamente). A distribuição gregária e o elevado número de espécies pouco abundantes encontrados pode refletir o padrão de disponibilidade de recursos das regiões tropicais. Entre as variáveis estudadas, apenas a complexidade vegetacional explicou a variação da riqueza de espécies nos capões de mata. A composição das espécies não foi explicada por nenhuma das variáveis avaliadas. Possivelmente a variação em tamanho e em complexidade vegetacional dos capões não seja tão evidente para demonstrar estas relações e a composição das espécies esteja variando mais em escala regional do que em escala local.
ABSTRACT
The new species Notiobia glabrata, N. maxima and N. pseudolimbipennis are described. A key to the 11 Notiobia (s.str.) species known from Brazil, data about the distribution of each species and taxonomical remarks are provided. Notiobia parilis Bates, 1878 is a junior synonym of N. nebrioides Perty, 1830, and Notiobia umbrata Bates, 1882 is a junior synonym of N. jlavicinctus Erichson, 1847. The Brazilian Notiobia species belong to at least three different species groups, each distributed from Brazil over the North-Western part of South America, Central America to Mexico.
As novas espécies Notiobia glabrata, N. maxima e N. pseudolimbipennis são descritas. São fornecidos uma chave para as onze espécies de Notiobia (s.str.) conhecidas para o Brasil, dados sobre a distribuição c características taxonômicas de cada espécie. Notiobia parilis Bates, 1878 é uma sinonímia de N. nebrioides Perty, 1830, e Notiobia umbrata Bates, 1882 é uma sinonímia N. flavicinctus Erichson, 1847. As espécies de Notiobia do Brasil pertencem a pelo menos três diferentes grupos de espécies, cada um distribuído do Brasil para a parte Noroeste da América do Sul, e da América Central até o México.
ABSTRACT
The new species Notiobia glabrata, N. maxima and N. pseudolimbipennis are described. A key to the 11 Notiobia (s.str.) species known from Brazil, data about the distribution of each species and taxonomical remarks are provided. Notiobia parilis Bates, 1878 is a junior synonym of N. nebrioides Perty, 1830, and Notiobia umbrata Bates, 1882 is a junior synonym of N. jlavicinctus Erichson, 1847. The Brazilian Notiobia species belong to at least three different species groups, each distributed from Brazil over the North-Western part of South America, Central America to Mexico.
As novas espécies Notiobia glabrata, N. maxima e N. pseudolimbipennis são descritas. São fornecidos uma chave para as onze espécies de Notiobia (s.str.) conhecidas para o Brasil, dados sobre a distribuição c características taxonômicas de cada espécie. Notiobia parilis Bates, 1878 é uma sinonímia de N. nebrioides Perty, 1830, e Notiobia umbrata Bates, 1882 é uma sinonímia N. flavicinctus Erichson, 1847. As espécies de Notiobia do Brasil pertencem a pelo menos três diferentes grupos de espécies, cada um distribuído do Brasil para a parte Noroeste da América do Sul, e da América Central até o México.