High diversity of bees detected in guarana crop and natural habitat due to the use of combined sampling methods

Bees are the main pollinators of native and agricultural plants. Identifying and knowing these insects responsible for the environmental service of pollination is essential for the maintenance and management of pollination in agricultural systems, especially in a high diversity biome as the Amazon rainforest. Some crops in this region are dependent of benefited by wild pollinators, especially native plants like guarana. To address methodological aspects of monitoring bee diversity, samplings were carried out in an agricultural environment (guarana crop, Paullinia cupana) surrounded by Amazon natural habitat at Manaus, Amazonas State. We used three combined methods (two passive traps: Malaise and yellow pan-traps, and one active: hand nets) in different periods, with the same number of samplings (12 each). In total, 4,143 native bees belonging to 171 species were sampled; 117 species (1,926 individuals) were collected with Malaise trap, 15 (91 individuals) with pan-traps, and 114 (2,126 individuals) through active sampling. Only seven species were common to all methods, 60 species on two methods and 104 species were unique to one sampling method (50 with Malaise, two with pan-traps, and 52 with hand nets). We reinforce the need for complementary sampling to known bee diversity as the best strategy here was the joint use of active samples and Malaise traps. Recently the concern with Amazon preservation has aroused worldwide interest, a fact that shreds of evidence the need for studies of biodiversity and taxonomy in several areas, since very little is known of this vast region.

First data on long-legged flies (Diptera, Dolichopodidae) of the Onezhskoye Pomorye National Park (Arkhangelsk Region, Russia)

The fauna of Dolichopodidae in the Arkhangelsk Region was studied sporadically and currently in-cludes 50 species. Onezhskoye Pomorye National Park (Arkhangelsk Region, Russia) was established in 2013 to protect the pristine forests and coastal ecosystems of the hardly accessible territories along the White Sea coast of the Onega Peninsula. The insect fauna of the National Park was almost un-known until recently, with only 17 Diptera species from the Culicidae and Chironomidae families listed in the online cadaster. During the short expedition to Onezhskoye Pomorye National Park in July–August 2020, more than 350 Dolichopodidae specimens were collected with yellow pan traps and sweep netting on routes that mainly passed through coastal habitats. Nineteen species of Dolichopodi-dae have been reported for the first time from this territory. Thirteen species are reported for the first time from the Arkhangelsk region, bringing the total number of known species to 63. The species list is given and supplied with brief comments on habitat and distribution. Photos of some typical habitats are provided. Most of the discovered species are widespread throughout the Palaearctic Region. Rarer species include Dolichopus diadema, which probably represents a southern Palaearctic element, and Hydrophorus norvegicus, which was previously known only from Fennoscandia.

Additions to the knowledge of the fauna of the tribe Cryptini Kirby, 1837 (Hymenoptera, Ichneumonidae, Cryptinae) of Iran

Using Malaise traps, sweep nets and yellow pan traps during 2013–2015 in various localities of Iran, 18 species belonging to 11 genera in the tribe Cryptini Kirby, 1837 (Hymenoptera, Ichneumonidae, Cryptinae) were collected. Among them, five species including Aritranis longicauda (Kriechbaumer, 1873), Gambrus ornatus (Gravenhorst, 1829), Mesostenus dentifer (Thomson, 1896), Mesostenus kozlovi Kokujev, 1909 and Stenarella domator (Poda, 1761) are new records for the fauna of Iran. Sixty other species previously recorded from Iran are considered credible, bringing the number of known Iranian Cryptini to 65 species.

Vertical Distribution of Arthropod Assemblages and the Effects of Weather Conditions on Arthropod Rain in a Temperate Conifer Forest

Vertical stratification of forests results in the occurrence of different arthropod assemblages between the vertical layers. Fallen arthropods from the canopy layers (i.e., “arthropod rain”) are additional food sources for predators thriving on the forest floor (FF). However, the abundances of arthropods are strongly affected by weather conditions and vertical stratification. Therefore, in this study, we investigated the vertical distribution of arthropod assemblages and effects of temperature and precipitation on the arthropod rain in a temperate conifer (Cryptomeria japonica) forest. Arthropods were collected by water-pan traps and trunk-sticky traps in the upper canopy (UC; 16 m), lower canopy (10 m), and FF (0.5 m). Among the fallen arthropods collected by water-pan traps, wandering detritivores, and herbivores were more abundant ranging from the FF to the UC, whereas the abundance of wandering predators (mainly spiders) was similar in the upper and lower canopies. However, detritivores, herbivores, and predators showed the highest abundance in the UC among the flying arthropods. Wandering arthropods moved upward from the FF toward the tree trunks more frequently than downward, indicating the importance of arthropod immigration from the ground to arboreal habitats. Temperature and precipitation had different effects on fallen and moving arthropods among different taxonomic groups. Flying arthropods were affected only by temperature, while wandering detritivores and herbivores were affected by precipitation and temperature. Thus, the abundance of wandering and flying arthropods differed among the vertical layers of a temperate conifer forest; additionally, arthropod rain was closely associated with weather conditions.

Hubungan antara struktur lanskap dan keanekaragaman Hymenoptera parasitoid: Sebuah model interaksi pada pertanaman kacang panjang

Landscape structure and composition are an important part of a landscape’s character which can affect the presence of predators and parasitoids, and influence the effectiveness of biological control. This study aims to examine the relationship between landscape features and the diversity of Hymenoptera parasitoids using long bean plants as a model. Sampling was conducted in a 50 m x 25 m plots. In each plot, 4 transects, each 50 m in length, were used to sample insects. Insects were collected using yellow pan traps, malaise traps, and direct hand collections. Overall, a total of 4.792 individuals of Hymenoptera parasitoids were collected, which consisted of 28 families and 256 species. Results showed that landscape characteristics influence the diversity, abundance, and evenness index. Diversity index and evenness are higher in landscape that is dominated by agricultural class area. The abundance of Hymenoptera parasitoid was higher in the landscape that is characterized by tree class areas compared to the agricultural class area.

Hymenopteran color preference using multiple colours of pan traps in Slovakia

The study presents results of colour preference of insects (Insecta), mainly from the order Hymenoptera (families Apidae, Formicidae). The research was carried out in the vicinity of the Beniakovce village (near the Košice city) over the years 2010–2012. Trapping by coloured water traps was conducted at ten sites with 50 Moerick′s water traps coloured with five different colours (white, yellow, blue, purple, and red). On the study area there were 12 357 individuals captured, belonging to 17 higher taxa (class, order, suborder) or genus morpho group of families Apidae and Formicidae. The highest abundance was found in Diptera followed by Hymenoptera, Coleoptera and Lepidoptera. Obtained results were in accordance with literature data, which showed that yellow colour was the most preferred by insects. Our results confirmed high degree of diversity of insect’s fauna in the study area. Our study suggested that a modified Moerick′s water traps may be a valuable tool in studies on insect diversity, distribution, seasonal abundance, and foraging behaviour as well.

Color of Pan Trap Influences Sampling of Bees in Livestock Pasture Ecosystem

The decline in insect pollinators has increased the importance of accurately monitoring pollinator diversity and abundance over time. Sampling techniques include the use of passive insect traps such as pan traps, yet there is still discussion over their utility and effectiveness in different ecosystems. The objective was to examine four different colors of pan traps (blue, green, yellow, and purple) for their utility in sampling bees in native forages rotationally grazed by sheep and to compare the relative abundance, richness, similarity, and community assemblage patterns among the four trap colors. Most bees were from the Halictidae family (89%). The most abundant species were Lasioglossum imitatum (42.2%), Augochlorella aurata (8.3%), L. subviridatum (6.8), Agapostemon texanus (6.4), and L. birkmani (4.1%). Blue color traps exhibited the highest rates of bee capture and species accumulation. Purple and yellow colored traps were moderately effective in capturing bees, while the green color pan traps were least effective. Similarly, observed and extrapolated species richness was highest in blue trap, followed by purple, yellow, and green. Notably, the blue trap captured the highest number of unique species, followed by purple, yellow and green traps. Considering the total number of insects collected (including bees and other insects), yellow and green traps captured a significantly higher number of insects than other colored traps. The light reflectance from blue, purple, green and yellow pan traps had peaks at ~450, 400, 550, and 600 nm, respectively. Since different insects respond to different light intensities, wavelengths, and reflectivity, these results could be used to guide future trapping protocols targeting certain insect groups in livestock pasture and similar ecosystems.

Pan trapping in habitats supporting Platanthera (Orchidaceae) shows little difference in insect family-level diversity

The role of insects as pollinators within plant communities is well established, yet our knowledge of insect biodiversity in many habitats is lacking. Given the growing concern that insect biodiversity is declining, it is increasingly important to document insect assemblages from a wide range of geographic locations and habitats. Pan trapping is a common means of sampling local insect diversity. Many studies have found different insects associated with different-coloured pan traps. Here, eight different-coloured pan traps were used to sample local insect diversity in habitats supporting Platanthera (bog and rein) orchids on Vancouver Island, British Columbia, Canada. A total of 16 sites supporting seven orchid species resulted in 435 insects from 53 families being caught over 64.9 hours of pan trapping. Both Shannon and Simpson diversity index values were low despite sampling in markedly different habitats. Yellow traps caught higher numbers of insects, but no statistical difference was found among colours overall. No activity indicating pollination was recorded from a total of 254 insect observations over 21.5 hours. Our results contribute important baseline data on the diversity and behaviour of insect communities in orchid habitats of Vancouver Island and on the use of pan traps to characterise insect communities.

Effectiveness of sweep net, yellow pan trap and malaise trap for sampling parasitic hymenoptera on tidal swamp rice

The presence of the parasitic Hymenoptera plays a vital role in pest management for sustainable agriculture. So, it is crucial to know the parasitoid species that exist in an agroecosystem. Sweep Net, Yellow Pan Trap, and Malaise Trap are often used to study the diversity of Hymenoptera parasitic in agroecosystems. This study aims to see the effectiveness of Sweep Net, Yellow Pan Trap, and Malaise Trap in trapping Parasitic Hymenoptera. The study was carried out at four sub-districts, namely are Batang Tuaka, Keritang, Reteh, and Tembilahan Hulu sub-district. The research was carried out by sampling with the transect line method. Sweep net, Yellow pan trap, and Malaise trap have trapped 5,732 individuals of Parasitic Hymenoptera on tidal swamp rice in Indragiri Hilir Regency. The Parasitic Hymenoptera consists of 10 superfamilies, 30 families, and 320 morphospecies. Malaise traps are the best for trapping parasitic Hymenoptera on tidal swamp rice. Malaise traps have been able to trap up to 62% of morphospecies and 81% of the abundance of individual Parasitic Hymenoptera on tidal swamp rice. Yellow pan traps trap 28% of morphospecies and 15% of the abundance of individual Parasitic Hymenoptera. The sweep net can trap 10% of morphospecies and 4% of the abundance of individual Parasitic Hymenoptera.Keywords: Parasitic Hymenoptera; trap; tidal swamp rice.