Biology And Phylogeny Of The Cassidinae Gyllenhal Sensu Lato (Tortoise And Leaf-Mining Beetles) (Coleoptera: Chrysomelidae)

A parsimony analysis was undertaken to test subfamily and tribal group concepts of Cassidinae (ca. 2000 genera, ca. 6000 species). An integrated account of their biology was synthesized from the primary literature. A detailed morphological study of adults, using Hemisphaerota palmarum Boheman as a model, formed the basis for evaluating characters previously utilized and for defining novel characters. The data matrix comprised 210 characters (from adults and immature stages, ecology and behavior), 6 outgroups, and 98 ingroup exemplar species (representing 94 genera and 39 of the 43 recognized cassidine tribes). Results support the monophyly of Cassidinae and place it as sister to Galerucinae. The classical Hispinae s.str. is paraphyletic whereas the classical Cassidinae s.str. is monophyletic if some Imatidiine genera are included. Four tribes—Aproidini, Delocraniini, Hemisphaerotini, and Notosacanthini—are well supported by many autapomorphies. Multiple genera were sampled to test the monophyly of 14 cassidine tribes. Seven were recovered as monophyletic: Anisoderini, Cassidini, Dorynotini, Eugenysini, Hispini, Omocerini, and Spilophorini. Relationships and character support of all cassidine tribes are discussed and compared with phylogenies proposed by Borowiec (1995) and Hsiao and Windsor (1999). The biological account and these phylogenetic results provide an opportunity for identifying some general trends and major innovations in the evolutionary history of Cassidinae. The alteration of the adult head from prognathy to hypognathy and the compaction of the body, legs, and various elytral-locking mechanisms are recurrent themes in adult morphology. Maternal care may have arisen once or twice. Seven trophic guilds are defined here for Cassidine larvae. They arise from two large radiations of leaf-mining and exophagous-feeding, a minor radiation in cryptic rolled-leaf feeding, and small generic and sub-generic specializations in stem mining, leaf scraping, petalophagy, and leaf-shelter chewers. Fecal shield construction and retention appear to be correlated with innovations in life history and in larval and pupal morphology, and they may have played an important role in cassidine diversification

Flowers are essential to maintain high beetle diversity (Coleoptera) in a Neotropical rainforest canopy

Many hypotheses have been proposed to explain the megadiversity of angiosperms and insects. Flowers and their pollinators represent the most common terrestrial mutualistic interaction today and this is thought to have driven the evolution of angiosperms and their visitors. Within the framework of that interaction, this paper develops and tests two new hypotheses: 1) megadiversity of canopy beetles in tropical rainforests is largely based on flower resources, and 2) the majority of adult canopy beetles are adapted to visit flowers. To test hypothesis 1, the beetle fauna associated with 23 canopy tree species (13 families, 45 individuals) in a 1.4 ha canopy plot of pristine lowland tropical rainforest in southern Venezuela was studied over one year. In total, 6698 adult beetles were collected and identified to 859 species in 44 families. Of these 859 species, 647 species (75.3%) were found with at least one individual on flowering trees, and 527 species (61.4%) were associated exclusively with flowering trees. The proportion of beetle species visiting exclusively small white flowers of the morphological generalist syndrome amounts to 36.6% of the entire canopy beetle community. Based on these findings, the second hypothesis was formulated that canopy beetles are specially adapted flower visitors. To test hypothesis 2, a sub-set study was conducted of the beetles visiting flowers of one tree species in the canopy plot, Hymenopus heteromorphus (Benth.) Sothers and Prance (Chrysobalanaceae). This is a mass-flowering tree with white flowers of a generalized morphology. A total of 440 adult beetles were collected in 20 days and identified to 138 species in 54 genera in 23 families. This assemblage was restricted to the flowering season of this tree. Data collected for H. heteromorphus and other mass-flowering tree species in the same plot indicates that a particular combination of flowering characteristics – massively flowering, white color, and generalized morphology – attracts the highest diversity of beetles. These findings together suggest that the enormous diversity of canopy beetles in Amazonian tropical rainforests is due mainly to flowers and that mass-flowering trees with small white flowers of the generalist syndrome play a particularly crucial role in assembly and nourishment of this megadiverse beetle community

Natural history of the tortoise beetle, \u3ci\u3eDiscomorpha (Discomorpha) biplagiata\u3c/i\u3e (Guérin) (Chrysomelidae: Cassidinae: Omocerini)

The first natural history account of Discomorpha (Discomorpha) biplagiata (Guérin) (Chrysomelidae: Cassidinae: Omocerini) from Ecuador is presented. Larvae and adults feed on the leaves and stems of Cordia hebeclada Johnst. (Boraginaceae), the first documented host plant for the species. Oviposition and pupation also occur on this host. Young larvae suffered heavy predation, especially from Ectatomma sp. (Formicidae: Ponerinae) and Oplomus nr. marginalis (Pentatomidae: Asopinae). Se presenta la primera cuenta de la historia natural para Discomorpha (Discomorpha) biplagiata (Guérin) de Ecuador. Las larvas y los adultos se alimentan de las hojas y tallos de Cordia hebeclada Johnst. (Boraginaceae), su primera planta hospedera documentada. La oviposición y la pupación también ocurren en este huésped. Las larvas jóvenes sufren depredación grave por Ectatomma sp. (Formicidae: Ponerinae) y Oplomus nr. marginalis (Pentatomidae: Asopinae)

Biology of Blepharida-group flea beetles with first notes on natural history of Podontia congregata Baly, 1865 an endemic flea beetle from southern India (Coleoptera, Chrysomelidae, Galerucinae, Alticini)

This is a publisher's version, also available electronically at http://www.pensoft.net/index.php.The biology, host plants, and pest status of Podontia Dalman, 1824 species are reviewed. Natural history of Podontia congregata Baly, 1865 a flea beetle endemic to southern India, is reported for the first time. It is distributed from the Western Ghats Mountains westward to the plains. Clusiaceae is reported as a new host plant family for Blepharida-group species, with Garcinia gummi-gutta (L.) N. Robson (Clusiaceae) as the host plant for P. congregata. Pentatomid bugs attack the larvae but not eggs, pupae, or adults. A new egg parasitoid species, Ooencyrtus keralensis Hayat and Prathapan, 2010 (Hymenoptera: Encyrtidae), was discovered. Aspects of P. congregata host selection, life cycle, and larval fecal defenses are consistent with its inclusion in the Blepharida-genus group

First record of the beetle family Throscidae (Insecta: Coleoptera), a new species of i\u3eAulonothroscus\u3c/i\u3e Horn, and new species records to the fauna of Peru / Primer registro de la familia de escarabajos Throscidae (Insecta: Coleoptera), una nueva especie de \u3ci\u3eAulonothroscus\u3c/i\u3e Horn y tres nuevos registros de especies para la fauna de Perú

The beetle family Throscidae is documented from Peru for the first time, based on specimens collected in the regions of Cajamarca, Junín, Loreto and Madre de Dios. Aulonothroscus tambopata new species is descri­bed from Madre de Dios. Also, three additional species of Aulonothroscus are reported from Peru for the first time – A. alvarengai Cobos new country record, A. freudi Cobos new country record, and A. oculatissimus Cobos new country record. A key separating these four species is given. This report is part of the “Beetles of Peru” project. Se documenta por primera vez la familia de escarabajos Throscidae para el Perú, a partir de ejemplares reco­lectados en las regiones de Cajamarca, Junín, Loreto y Madre de Dios. Aulonothroscus tambopata sp. nov. se describe a partir de ejemplares recolectados en Madre de Dios. Igualmente, se reporta por primera vez para el Perú tres especies adicionales del género Aulonothroscus – A. alvarengai Cobos registro nuevo del país, A. freudi Cobos registro nuevo del país, A. oculatissimus Cobos registro nuevo del país y se presenta una clave que separa las cuatro especies. Este artículo forma parte del proyecto “Escarabajos del Perú.

Primer registro de la familia de escarabajos Throscidae (Insecta: Coleoptera), una nueva especie de Aulonothroscus Horn y tres nuevos registros de especies para la fauna de Perú

The beetle family Throscidae is documented from Peru for the first time, based on specimens collected in the regions of Cajamarca, Junín, Loreto and Madre de Dios. Aulonothroscus tambopata new species is described from Madre de Dios. Also, three additional species of Aulonothroscus are reported from Peru for the first time – A. alvarengai Cobos new country record, A. freudi Cobos new country record, and A. oculatissimus Cobos new country record. A key separating these four species is given. This report is part of the “Beetles of Peru” project.Se documenta por primera vez la familia de escarabajos Throscidae para el Perú, a partir de ejemplares recolectados en las regiones de Cajamarca, Junín, Loreto y Madre de Dios. Aulonothroscus tambopata sp. nov. se describe a partir de ejemplares recolectados en Madre de Dios. Igualmente, se reporta por primera vez para el Perú tres especies adicionales del género Aulonothroscus – A. alvarengai Cobos registro nuevo del país, A. freudi Cobos registro nuevo del país, A. oculatissimus Cobos registro nuevo del país y se presenta una clave que separa las cuatro especies. Este artículo forma parte del proyecto “Escarabajos del Perú.

A revision and phylogenetic analysis of Stoiba Spaeth 1909 (Coleoptera, Chrysomelidae)

Stoiba Spaeth, 1909 is revised with a phylogenetic analysis of 38 adult morphological characters for nine Stoiba species and 11 outgroup species (Mesomphaliini, Ischyrosonychini, and Hemisphaerotini). Four Cuban species of Stoiba were not sampled. Parsimony analysis located the four most parsimonious trees. The strict consensus (CI=0.59, RI=0.78, Steps=83) resolved the monophyly of Stoiba. The monophyly of Stoiba is supported by pale yellow antennae, antennomere VII broader than its length, and rounded basal line of pronotum. An illustrated key to ten species of Stoiba is provided along with a distribution map of 11 species. Stoiba rufa Blake is synonymized with Stoiba swartzii (Thunberg) by a morphological comparison which includes female genitalia

Arthropod diversity in phytotelmata of \u3ci\u3eCalathea capitata\u3c/i\u3e (Zingiberales; Marantaceae) host plants from Peru

Cryptic habitats are often overlooked in biodiversity surveys. Phytotelmata, or plant pools, are one type of cryptic habitat that supports diverse fauna in a miniature ecosystem. This study surveys the arthropod community of two types of phytotelmata, bracts and leaf rolls, on a single species, Calathea capitata (Ruiz and Pav.) Lindl. (Zingiberales: Marantaceae), from one Amazon site in Peru. Specimens were collected from eight bracts and eight leaf rolls. A total of 55 arthropods (36 adults, 19 juveniles) were found in both phytotelmata types. In the bract samples were found: spiders (Araneae: Corinnidae), beetles (Coleoptera: Carabidae, Erotylidae, Staphylindae), flies (Diptera: Limoniidae), a leafhopper nymph (Hemiptera: Cicadellidae), ants (Hymenoptera: Formicidae), and unidentified larvae. In leaf roll samples were found: Leaf beetles (Coleoptera: Chrysomelidae), an earwig (Dermaptera: Spongiforidae), flies (Diptera: Drosophilidae), and an adult leafhopper (Hemiptera: Cicadellidae). A similar survey of Calathea lutea Schultes in Peru revealed a community dominated by Coleoptera in leaf rolls and Diptera in bracts, with a few Dermaptera and Hymenoptera, but no Araneae or Hemiptera. This study demonstrates that phytotelmata host diverse taxa and serve as a nursery to immature stages thus impacting the life cycles of local fauna, which in turn affect local biodiversity

Natural History and Leaf Shelter Construction of the Asian Rice Leptispa Beetle Leptispa pygmaea Baly (Coleoptera: Chrysomelidae: Cassidinae: Leptispini)

This is the published version, also available here: http://zoolstud.sinica.edu.tw/Journals/48.5/625.pdf.Kaniyarikkal Divakaran Prathapan, Caroline S. Chaboo, and Kolandaivelu Karthikeyan (2009) Natural history and leaf shelter construction of the Asian rice leptispa beetle, Leptispa pygmaea Baly (Coleoptera: Chrysomelidae: Cassidinae: Leptispini). Zoological Studies 48(5): 625-631. The leaf-roll construction by the Asian rice leptispa beetle Leptispa pygmaea Baly (Cassidinae: Leptispini) was studied. Consistent adult feeding on the adaxial side of tender rice leaves Oryza sativa Linnaeus (Poaceae) induces partial upward rolling of the leaf lamina. Adult leaf rolls are ephemeral and not apparent, and they unfurl once the beetle leaves the leaf. Females oviposit clutches of up to 8 eggs mostly on the adaxial side of the leaf within such rolls. Neonate larvae migrate to the base of the leaf axil and feed by scraping, which induces formation of leaf rolls from the base where the leaf is already curled up. All 5 larval instars feed in this manner, migrating to new leaves and forming new leaf rolls. Pupation occurs within the leaf roll of the 5th instar. Adult leaf rolls are partial and ephemeral, and therefore offer only limited protection to eggs and adults. In contrast, larval leaf rolls are well formed and cohesive compared to those of adults. This is probably due to the sedentary nature and active feeding of the larvae resulting in a greater reduction in leaf turgidity. The host plant, leaf curling, and leaf-roll architecture of Leptispa Baly differ from the leaf ‘sandwiches’ built by some Neotropical cassidines, of the Imatidiini, that glue together Inga leaves (Fabaceae). Two terms, leaf rolls for Leptispini and leaf case shelters for Imatidiini, are proposed to reflect the lack of homology of these structures, although both function as shelters. We also propose that Leptispa feeding probably induces loss of turgor pressure that in turn induces inward curling of the leaf to produce an elongated leaf roll. This may be regarded as an ideal example of cost-effective shelter building by an insect. http://zoolstud.sinica.edu.tw/Journals/48.5/625.pd