Ecology of black beetle,Heteronychus arator (Coleoptera: Scarabaeidae) — influence of temperature on feeding,growth, and survival of the larvae

Abstract

The influence Of temperature on the growth and survival of first-instar larvae of black beetle feeding in soil was examined. Similarly the consumption, utilisation, growth, and survival of second- and third-instar larvae feeding on carrot were investigated using gravimetric methods. Soil temperatures in the range 20–25° c were found to be necessary for optimum growth of all instars. First-instar larval growth increased exponentially over the temperature range 10–20°c. Third-instar larvae were tolerant of higher temperatures than second-instar larvae. The temperatures for optimum levels of consumption and utilisation of carrot varied between the instars.     

Importance of dung incorporation activity by three species of coprophagous beetle (Coleoptera: Scarabaeidae: Scarabaeinae) macrofauna in pastureland on "La Michilía" biosphere reserve in Durango, Mexico

The dung incorporation activity of three species of coprophagous beetle macrofauna (Coleoptera: Scarabaeidae: Scarabaeinae), Dichotomius colonicus (Say), Phanaeus quadridens (Say), and Copris klugi sierrensis Matthews, was studied on a hectare of pastureland on "La Michilía" Biosphere Reserve. In total, 223 specimens of the three species were recorded. On the basis of abundance, the dominant species was D. colonicus. A substantial percentage (31% in September and 51% in October) of dung pats remained on the surface, untouched by beetles. Most of the specimens observed (92%) were found amassing dung in galleries. The dung accumulation capacity of D. colonicus varied from 5 to 135 g of dung (dry weight)/pair, whereas C. klugi sierrensis amassed an average of 24.3 +/- 8.5 g/pair and P. quadridens amassed an average of 12 +/- 2.5 g/pair. Based on dung burying efficiency, D. colonicus was considered the most beneficial of the three species in the study area. It dug deeper, wider galleries and incorporated the largest amount of dung into the soil.     

Ecology of black beetle,Heteronychus arator (Coleoptera: Scarabaeidae) — relative consumption of pasture plant roots by larvae

Abstract

The relative consumption by third-instar black beetle larvae of roots of paspalurn, ryegrass, and white clover was determined from the rate of passage of ingested glass beads through the gut Consumption of grasses exceeded that of white clover, indicating their greater acceptance as a food source.     

Review of the flower beetle genera Neophaedimus Lucas and Herculaisia Seillière (Coleoptera: Scarabaeidae: Cetoniinae) from East Asia

Two remarkable genera, Neophaedimus Lucas, 1870, and Herculaisia Seillière, 1910, that occur in China and Vietnam are reviewed. Neophaedimus castaneus Ma, 1989, n. syn. is regarded as a synonym of N. auzouxi Lucas, 1870. The genus Neophaedimus thus becomes monotypic again. N. auzouxi is newly recorded from Vietnam. Parameres of Herculaisia species, H. melaleuca (Fairmaire, 1899), originally described in Neophaedimus, and H. satanas Seillière, 1910, are illustrated for the first time. Presence in China of H. melaleuca, is confirmed, and its distribution in this country is specified. Color photographs of habitus and diagnostic characters for all species are provided, with comments on intraspecific variation. Lectotypes are designated for Neophaedimus melaleuca Fairmaire, 1899, and N. auzouxi Lucas, 1870, and distribution of each species is summarized.     

Relationship between land uses and diversity of dung beetles (Coleoptera: Scarabaeinae) in the southern Atlantic forest of Argentina: which are the key factors?

The loss of natural habitats is one of the main drivers of biodiversity decline. Anthropogenic land uses preserving biotic and abiotic conditions of the native ecosystem are more suitable to preserve the native biodiversity. In this study, we explored changes in species richness and composition in different land uses of the southern Atlantic forest, considering three independent factors: (1) canopy (presence–absence), (2) type of vegetation (native–exotic) and (3) livestock (presence–absence). We expected a gradient of response in the richness and composition of the native forest dung beetle community, from land uses preserving canopy and native vegetation to open land uses with exotic vegetation. Dung beetles were sampled in protected native forests and four land uses, using two potential food resources: human dung and carrion. The species richness and composition of each habitat, as well as differences in composition and the influence of factors over diversity, were then analyzed. As expected, our results showed that land uses preserving canopy and native vegetation maintain the dung beetle diversity of the native forest. Moreover, while the three factors analyzed influenced dung beetle diversity, canopy cover was the main driver of dung beetle diversity loss. The main conclusion of this study is that the conservation of canopy (either native or exotic) is determinant to preserve highly diverse dung beetle communities and subsequently, the ecological functions performed by this taxon. However, the ecophysiological mechanism behind the response of dung beetles to habitat disturbance is poorly understood.     

The structure of a beetle (Coleoptera,Insecta) complex attracted by a light source in Galich’ya Gora Nature Reserve

In Morozova Gora tract, Galich’ya Gora Nature Reserve, 33 973 beetles of 542 species from 66 families were collected with the help of a 100-W light trap between 1996 and 2008. The structure of the beetle complex attracted by light is studied, as are the seasonal and annual dynamics of abundance and species composition of this group. The structure of the beetle complex attracted by light is unraveled based on the data on their daily activity. The influence of weather conditions in various seasons on beetles flight towards the light source is studied.     

Genetic erosion in a stenotopic heathland ground beetle (Coleoptera: Carabidae): a matter of habitat size?

Two centuries ago large areas of north-west Europe were covered by coherent heathlands which hosted numerous specialized species. Changes in land use made heathlands fragmented and rare, consequently, they are in the focus of nature conservation efforts today. But how large should remaining heathland patches be in order to secure the survival of populations of specialized species? We investigated the genetic diversity at five allozyme loci of Poecilus lepidus, a flightless and stenotopic heathland ground beetle. 29 populations from differently sized heathland patches in north-west Germany were analyzed. Results show a weak but significant genetic differentiation and no evidence for isolation by distance or other patterns of spatial autocorrelation. Linear regression analysis revealed significant relationships between patch size, allelic richness, number of alleles and expected heterozygosity. These findings are explained by severe habitat fragmentation together with strong fluctuations in population size which have been reported for this species in the past. To conserve the vast majority of the species’ genetic diversity for a period of 100 years we suggest to maintain heathland patches of at least 50 ha in size.     

Species decline--but why? Explanations of carabid beetle (Coleoptera,Carabidae) declines in Europe

We investigated some of the causes of ground beetle decline using atlas data from Belgium, Denmark and the Netherlands, countries in which natural environments have all but disappeared. We used ordinal regression to identify characteristics that are significantly correlated with the decline of carabid beetle species over the last 50-100 years, using a stepwise selection procedure to select the optimal model according to the Akaike Information Criterion. The results showed that large-bodied carabid populations have declined more than smaller ones, possibly because of their lower reproductive output and lower powers of dispersal. Habitat specialist populations (i.e. species with small niche breadths) have also decreased more than habitat generalist populations. Species with both long- and short-winged individuals have been less prone to decline than those that are exclusively either short-winged or long-winged. Dimorphic species may survive better in highly altered environments because long-winged individuals are good at dispersing between suitable habitats and short-winged individuals are good at surviving and reproducing in these newly colonised habitats. Finally, populations of large carabids associated with coastal, woodland or riparian habitat types were less prone to decline than populations of large carabids associated with various, open or grassland habitat types. The pattern is reversed for carabid species smaller than 8 mm in size. These results are explained in the context of habitat restoration and destruction in these highly modified western European countries.     

Historical stability of diversity patterns in African estrildid finches (Aves: Estrildidae)?

Studying shifts in species diversity through time and space is an essential component of many aspects of biogeography and ecology. In this study, we predict the potential distribution of 61 species of African estrildid finches in order to assess current and past diversity patterns. Models were projected onto two climatic scenarios (Community Climate System Model, CCSM, and Model for Interdisciplinary Research on Climate, MIROC) representing past climate conditions, as might be expected during the Last Glacial Maximum 21 000 years BP. Subsequent overlays of the resulting potential distributions were conducted under different dispersal assumptions and compared with expert maps. Our results suggest highly similar current distribution patterns obtained by both methods. Projections onto Pleistocene scenarios showed similar patterns, with only small differences under limited and unlimited dispersal assumptions. Looking separately at diversity patterns predicted for forest and savannah species, diversity hot spots of forest species under MIROC conditions were consistent with suggested forest refugia, but were inconsistent under CCSM conditions. According to our models, savannah species were more widely distributed during the cooler and drier conditions of the Pleistocene. By using ecological niche models we show that current diversity patterns of a whole species group may have changed only slightly since the Pleistocene, suggesting a pattern of general spatial stability. However, we emphasize the importance of using different climatic scenarios as well as including the supposed dispersal of organisms in the modelling, as these factors influence results on a broad scale. © 2011 The Linnean Society of London, Biological Journal of the Linnean Society, 2011, 102 , 455–470.     

Diuresis in a desert beetle? hormonal control of the malpighian tubules ofOnymacris plana (Coleoptera: Tenebrionidae)

Summary Malpighian tubules of a desert tenebrionid beetle,Onymacris plana, have been studied as isolated preparations. Under control conditions tubules of female beetles secreted fluid at an average rate of 3.3 nl/min, but this rate was increased 20–25 times by a diuretic hormone (DH).Homogenates of the brain, corpora cardiaca (CC) and prothoracic ganglion induced striking increases in tubule secretion rates, which sometimes exceeded 100 nl/min. The increased rates were sustained for 3 h without renewal of the medium. Diuretic activity was also present in the other thoracic ganglia. High K treatment caused release of DH from the CC only.Exogenous cyclic AMP (1 mM) stimulated the isolated tubules ofO. plana, but to a lesser extent than the DH. The cationic composition of the secreted fluid resembled that of most other insect tubules, with high K and low Na concentrations. Stimulation with DH doubled the Na concentration.The DH was not inactivated by the tubules themselves, but was destroyed by contact with the haemolymph. An inactivation mechanism is vital in the apparently contradictory situation of a desert beetle possessing a diuretic hormone. The role of the cryptonephric system during diuresis is unknown.Abbreviations DH diuretic hormone - cAMP adenosine 3:5-cyclic monophosphoric acid - CC corpora cardiaca     

Habitat difference in abundance of willow leaf beetle Phratora vulgatissima (Coleoptera: Chrysomelidae): plant quality or natural enemies?

Herbivorous insects are influenced by both 'bottom-up' forces mediated through host plants and 'top-down' forces from natural enemies. Few studies have tried to evaluate the relative importance of the two forces in determining the abundance of insects. The leaf beetle Phratora vulgatissima Linnaeus sometimes occurs at high densities and severely damages the willow Salix cinerea in forest habitats. For willows growing in open agricultural landscapes (farmland S. cinerea), the leaf beetle generally occurs at low densities and plants receive little damage. The purpose of the present study was to evaluate the relative importance of host plant quality and natural enemies behind the observed difference in P. vulgatissima abundance. Female egg-laying and larval performance (growth and survival) were studied on caged willow branches in the field to investigate if plant quality differs between S. cinerea trees growing in forest and farmland habitats. The survival of eggs exposed to natural enemies was examined to see if predation could explain the low abundance of leaf beetles on farmland willows. The results indicated no difference in plant quality; female egg laying and larval performance did not differ between the forest and the farmland. However, heteropteran predators (true bugs) were more abundant, and the survival of eggs was lower, on plants in the farmland habitat than in the forest habitat. The data suggest that the low abundance of P. vulgatissima on farmland willows could not be explained by a poor quality of plants, but more likely by high predation from heteropterans.     

Does the composition of Scarabaeidae (Coleoptera) communities reflect the extent of land use changes in the Brazilian Amazon?

Scarab beetles (Coleoptera: Scarabaeidae) have been used to investigate the effects of environmental disturbances on forest structure and diversity. This group is recognized as sensitive to habitat perturbations and ecosystem changes. Here we examine the effects of anthropogenic impacts on Scarabaeidae composition, testing the following hypotheses: (1) Scarab beetle communities react to land use disturbances with predictable trends, (2) disturbed habitats are able to retain only a part of the Scarab beetle community of native forests or late secondary forests; (3) habitats largely differ in terms of species richness, taxonomic diversity and ecological composition, supporting exclusive and indicator species. We selected areas of native forest, agriculture, pasture for extensive livestock and secondary forests in different stages of regeneration. Our results show that the Scarabaeidae species were not indifferent to the gradient of structural changes represented by the studied areas. In fact, their patterns of habitat preference reveals communities more abundant and diverse in pristine habitats. In contrast, disturbed habitats, dominated by agricultural activities and pasture, indicated clear detrimental effects on the abundance of all forest Scarab beetle specialists. On the other hand, the generalist species, mainly associated with open environments, seemed to be favoured by the prevailing conditions induced by agricultural activities. Overall, the composition of the Scarab beetle communities is variable and sensitive to those structural gradients and, therefore, capable of responding as useful ecological indicators for assessing the extent of land use change or degradation.     

Effects of NeemAzal®-T/S in the burying beetle Nicrophorus vespilloides (Coleoptera: Silphidae) via food chain

In times of mass occurrence, massive numbers of the outbreaking species serve as food sources not only to predators and parasitoids but also to scavengers and decomposers. One example benefiting from this process is the necrophagous guild, which depends on a carcass for nutrition and reproduction. A well-known outbreaking insect is the forest cockchafer Melolontha hippocastani F. It inhabits woodlands on sandy soils, the same habitat as Nicrophorus vespilloides Herbst—a common burying beetle feeding on a variety of animal carcass. In this regard, N. vespilloides may come in contact with plant protective agents applied to control M. hippocastani populations. In a laboratory trial, we studied sublethal effects of NeemAzal^®-T/S on the reproductive output of female N. vespilloides. They were previously fed with cockchafers, which in turn had been fed with neem-treated leaves. It was shown that female beetles fed with ‘treated’ cockchafers were negatively affected in carcass burying behavior and egg-laying. Furthermore, reduction in larval hatching and survival during the parental feeding phase caused further diminution of the reproductive output. On the other hand, neither impacts on mean larval weights nor morphological malformations in N. vespilloides were observed. Transferability of the results into the field is discussed.     

Characterising insect diversity on Australia’s remnant native grasslands: ants (Hymenoptera: Formicidae) and beetles (Coleoptera) at Craigieburn Grasslands Reserve,Victoria

Ants and beetles sampled by pitfall trapping on a large grassland remnant near Melbourne, Victoria, are enumerated and discussed. Species richness of both groups differed little between grassy flat areas and more rocky knolls, or between early and late summer. Seasonal differences in abundance were found in both taxa: beetles were more abundant in early summer, and ants more abundant in late summer. Implications of such differences for rapid sampling of grassland insects in the region are discussed.     

Altitudinal distribution,diversity and endemicity of Carabidae (Coleoptera) in the páramos of Ecuadorian Andes

Species richness and diversity of Carabidae (Coleoptera), as well as rates of endemicity, are studied along altitudinal transects in the páramo of Ecuadorian Andes, from 3500 to 5000 m. Whereas a global tendency to reduction of species richness is evident from 4200 m upwards, two zones of high diversity and high proportion of endemic species occur at 3800–4000 m and at 4200–4400 m. Species turnover between grass páramo and superpáramo is significantly higher in drier mountains, especially in the Western Cordillera, than in humid mountains of the Eastern Cordillera. The altitudinal range of Carabid species tends globally to decrease along the vertical gradient, but with important local variations due to microenvironmental factors, especially humidity rate. When compared with recent phytogeographical studies, these results tend to support the idea that the majority of tussockgrass páramo is a secondary anthropogenic ecosystem. On the contrary, it is argued that the xeric landscape of the Chimborazo “arenal” is primordial, based on the presence of a stenotopic and possibly relict species, Pelmatellus andium Bates 1891.     

The timing of insect/plant diversification: might Tetraopes (Coleoptera: Cerambycidae) and Asclepias (Asclepiadaceae) have co-evolved?

Ehrlich and Raven's essay on coevolution has stimulated voluminous work on the mechanisms of insect/plant interaction, but few explicit tests of their model's prediction that the evolutionary success of entire insect and plant clades is governed by their putative reciprocal adaptations. This paper begins an inquiry into possible coevolutionary diversification for North American milkweeds of the genus Asclepias and one of their few major herbivores, the longhorn beede genus Tetraopes , focusing first on the historical duration and continuity of the interaction. A phylogeny for Tetraopes and relatives, estimated from morphology and allozymes, shows evident similarity to a morphology based hostplant cladogram synthesized from the literature, though the significance of the correspondence under heuristic statistical tests depends on the treatment of one beede species reported (without certainty) from multiple host species. Fossils and biogeography support the interpretation that cladogram correspondence reflects synchronous diversification of these two clades, hence opportunity for coevolution, rather than beede 'host-tracking' of previously-diversified plants. Cladogram correspondence is more evident at higher than at lower levels, as expected under Ehrlich and Raven's model. An apparent phylogenetic progression in the potency and location of milkweed cardenolides, seemingly related to species diversity of both Asclepias and Tetraopes subclades, provides further suggestive evidence for that model. The phylogeography of the Tetraopes /Asclepias assemblage suggests that extant species evolved largely in their current, often quite localized biomes, facilitating potential experimental tests for hypotheses of adaptation and counteradaptation and their importance to diversification.     

Redefinition and taxonomic revision of the “buqueti” species-group,Dichotomius Hope, 1838 (Coleoptera: Scarabaeidae: Scarabaeinae)

On the basis of external morphology and genitalia of males, as well as a comparison between different species belonging to other groups of Dichotomius, we propose a redefinition of the “buqueti” species group separated by Luederwaldt (1929). Six species are excluded from this group and transferred to other groups: D. ribeiroi (Pereira, 1954) in the “cotopaxi” group; D. camposeabrai Martínez, 1974 in the “bitiensis” group; D. reclinatus (Felsche, 1901), D. horridus (Felsche, 1911), D. quadrinodosus (Felsche, 1901) and D. nimuendaju (Luederwaldt, 1925) (revalidated species) forming the newly defined “reclinatus” group. The other species kept in the “buqueti” group include D. buqueti (Lucas, 1857) from Brazil (lectotype here designated), D. haroldi (Waterhouse, 1891) from Argentina and D. nutans (Harold, 1867) from Brazil, Argentina and Uruguay. The taxonomic revision of the “buqueti” group are presented, including a history of the included species, a determination key, illustrations of the structures of external morphology, male genitalia and sclerites of the internal sac, and a distribution map.     

New metabolites of α-pinene produced by the mountain pine beetle,Dendroctonus ponderosae (Coleoptera: Scolytidae)

Emergent females of the mountain pine beetle, Dendroctonus ponderosae, contained five previously undetected volatiles: toluene, 4-methylene-6,6-dimethylbicyclohept-2-ene (verbenene), p-mentha-1,5,8-triene, o- and p-cymene. Exposure of wild or axenically reared beetles to protio- and deuterio-α-pinene or protio- and deuterio-trans-verbenol indicated that all compounds except toluene were produced from α-pinene, with trans-verbenol as a probable intermediate. The ratio between these α-pinene metabolites was insensitive to the level of α-pinene to which the beetles were exposed, suggesting a tightly regulated enzymatic and/or acid-catalyzed conversion of α-pinene. Exposure of females to either enantiomer of α-pinene or to the same amount of (±)-α-pinene indicated that female mountain pine beetles possess two enantiospecific enzyme systems for processing α-pinene. Production of p-cymene constitutes the first record in an insect of an aromatic volatile produced from a monoterpene hydrocarbon.     

Do the amount of sex pheromone and frequency of calling behavior in females affect the mate-searching behavior of males in <Emphasis Type=Italic>Dasylepida ishigakiensis</Emphasis> (Coleoptera: Scarabaeidae)?

The white grub beetle Dasylepida ishigakiensis Niijima et Kinoshita (Coleoptera: Scarabaeidae) is a serious sugarcane pest on the Miyako Islands, Okinawa, Japan. Because this beetle stays underground for most of its lifetime, mating disruption using a synthetic sex pheromone has been suggested as a promising control measure. The amount of pheromone (2-butanol) released by the females is known to decrease drastically as they repeat calling each day. In this study, we determined the response of males to different concentrations of (R)-2-butanol, both in the laboratory and in the field. Males showed typical pre-mating behaviors and they were attracted to (R)-2-butanol even at a concentration 1/100 of the amount typically emitted by a female during the 1st period of calling. We examined whether female attractiveness to males was reduced with the frequency of calling, by counting the number of males attracted to females that had called during zero to five periods beforehand. Our results indicated that a high level of female attractiveness was maintained even after three periods of calling. Based on these findings, we propose that releasing synthetic sex pheromone shortly before the start of the mating season and into the late mating season may be optimal for disrupting the mating of this beetle.