Simple and farmer-friendly bumblebee conservation: Straw bales as nest sites in agricultural landscapes

Many bumblebee species are declining due to a loss of semi-natural habitats in agricultural landscapes resulting in diminished forage and nest sites. Anecdotal experience indicates that bumblebees nest in straw bales, but scientific evidence is lacking. We spent 250 h screening for bumblebee nests in 1255 straw bales and ten straw stacks belonging to 58 farms in two intensively farmed Swedish regions and recorded nests, nest traffic, and straw characteristics. We supplemented the straw screening with screening of control areas, without straw, that were selected in similar environments as the areas with straw. We observed 45 bumblebee nests (including potential nests where a single bumblebee flew in or out of the straw) of eight species/species groups, including one red-listed, in or directly adjacent to the straw at 26 of the farms. Nests were mainly found in partly decayed straw and bales placed together. We found no nests in control areas. Based on our results, we suggest that straw can be used as an easy, cheap and efficient intervention to increase the availability of bumblebee nest sites in agricultural landscapes. Considering the costs and benefits of the alternatives, we conclude that straw addition has advantages over commercial bumblebee colonies for crop pollination purposes and over artificial nest boxes for conservation purposes.     

Targeted agri‐environment schemes significantly improve the population size of common farmland bumblebee species

Changes in agricultural practice across Europe and North America have been associated with range contractions and local extinction of bumblebees (Bombus spp.). A number of agri‐environment schemes have been implemented to halt and reverse these declines, predominantly revolving around the provision of additional forage plants. Although it has been demonstrated that these schemes can attract substantial numbers of foraging bumblebees, it remains unclear to what extent they actually increase bumblebee populations. We used standardized transect walks and molecular techniques to compare the size of bumblebee populations between Higher Level Stewardship (HLS) farms implementing pollinator‐friendly schemes and Entry Level Stewardship (ELS) control farms. Bumblebee abundance on the transect walks was significantly higher on HLS farms than ELS farms. Molecular analysis suggested maximum foraging ranges of 566 m for Bombus hortorum, 714 m for B. lapidarius, 363 m for B. pascuorum and 799 m for B. terrestris. Substantial differences in maximum foraging range were found within bumblebee species between farm types. Accounting for foraging range differences, B. hortorum (47 vs 13 nests/km²) and B. lapidarius (45 vs 22 nests/km²) were found to nest at significantly greater densities on HLS farms than ELS farms. There were no significant differences between farm type for B. terrestris (88 vs 38 nests/km²) and B. pascuorum (32 vs 39 nests/km²). Across all bumblebee species, HLS management had a significantly positive effect on bumblebee nest density. These results show that targeted agri‐environment schemes that increase the availability of suitable forage can significantly increase the size of wild bumblebee populations.     

Colony growth and reproductive ability of feral nests of the introduced bumblebee Bombus terrestris in northern Japan

The introduced Bombus terrestris has been blamed for the decline of native bumblebee populations in Japan. To control this invasive species, it is necessary to understand its ecological traits in its newly established range. Here, we investigated the colony growth pattern and reproductive ability of feral nests of B. terrestris in northern Japan from 2003 to 2006. Nests collected at various times showed initially slow growth followed by rapid development. This pattern is consistent with findings in previous studies using laboratory-raised colonies. Our results also suggested that protandrous colonies tend to specialize in male production, whereas protogynous colonies specialize in gyne production, producing a split sex ratio in feral colonies of B. terrestris. The numerical population sex ratio was 1.40 gynes per male, calculated from the numbers of pre-emergence cocoons for gynes and males, showing a female-biased sex ratio at the population level. Mature colonies produced a mean of 376.5 cocoons and 90.2 gyne cocoons (22.1% of the total). The proportion of gynes produced by B. terrestris nests exceeded both those of conspecifics observed in other countries and those of consubgeneric native Japanese species. The propagule pressure hypothesis appears to explain the probability of establishment of this invasive species. Suitable nest sites for B. terrestris queens appeared to be in short supply, and B. terrestris may win usurpation contests against native species due to its large size, resulting in the decline of native bumblebee species.     

Hissing in bumblebees: an interspecific defence signal

Summary: Bumblebees (Bombus terrestris) react to disturbances within the nest by a conspicuous hissing sound. The sound is characterised by a high intensity in the ultrasonic frequency range. It is elicited by vibrations of the nest and by mammalian breath and artificial air currents containing CO₂. Domestic mice entering a bumblebee nest elicit these sounds and retreat immediately in response to the bumblebees' signal. It is concluded that the hissing sounds serve as aposematic warning signals aimed at predators entering the nest.     

Influence of nests of leaf‐cutting ants on plant species diversity in road verges of northern Patagonia

Abstract. It has been suggested that ant nests are the most frequent small‐scale disturbance that affect vegetation patterns. However, their effects on plant diversity are little studied. We document effects of nests of the leaf‐cutting ant Acromyrmex lobicornis on physical‐chemical soil properties and their influence on plant diversity near road verges in a desert steppe in NW Patagonia, Argentina. We analysed nest soils and controls for nitrogen, phosphorus, organic matter, moisture retention capacity and texture. We also analysed the vegetation on 42 nests (30 active and 12 abandoned or without life) and 42 areas without nests. Soil around nests had a greater nutrient content and capacity to retain moisture than control soils, which is mainly due to the presence of organic waste that the ants deposit on the soil surface. We found no association between the occurrence of nests and specific groups of plants, but plant diversity was higher at nest‐sites than at nearby non‐nest sites. This increased diversity – which is also found on abandoned nests – is mainly due to the occurrence of a larger number of native and exotic plant species on nest‐sites that are uncommon elsewhere in the study area. The most abundant plant species showed similar cover values at nest and non‐nest sites. This suggests that changes in diversity are associated to edaphic changes caused by nests rather than by changes in competitive balance caused by dominant species exclusion. We propose that the nests of Acromyrmex lobicornis, through increasing the availability of resources, generate favourable microsites that can function both as ‘refuges’ for less frequent native species, and as‘stepping stones’ for less frequent exotic plant species.     

Observations on the nesting habits of the European hedgehog in the Manawatu sand country,New Zealand

Abstract

Thirty nest sites were found in coastal sand dunes and adjacent farmland by tracking radio-tagged hedgehogs (Erinaceus europaeus L.). Twenty-six nests were in marram tussocks on dunes, 17 of them on the slopes. None were found in waterlogged or sparsely vegetated areas. Nests were spherical, 20–30 cm in diameter, and built from materials available nearby; their walls were 0.5–5 cm thick. Nests housed one hedgehog at a time; six were used more than once, and hedgehogs may occupy each of their nests in turn. The average distance between nests occupied on successive days was 190 m. Only one torpid hedgehog was found, a female in May.     

The impacts of predators and parasites on wild bumblebee colonies

1. The study of wild bumblebee nests has been hindered by the difficulty in locating and observing them. Here, 47 wild nests were located using a sniffer dog and volunteers. The entrances to 32 nests were filmed continuously to identify successful nests (those that produced gynes) and observe vertebrate species interactions. 2. Of the 47 nests, 71% and 21% produced gynes in 2010 and 2011, respectively. 3. A total of 39 vertebrate species were filmed at entrances but the majority did not interact with the nests. Great tits (Parus major) depredated or attempted to depredate bees on 32 occasions at the entrances to 10 nests, something that has not previously been described. Small mammals were very often recorded accessing entrances to bumblebee nests, but whether they depredated bees was not known, and frequently visited nests were no less likely to produce gynes. Eight nests were entered by adult wax moths, Aphomia sociella. 4. The faeces of 1179 workers from 29 Bombus terrestris nests were screened microscopically for parasites. Crithidia bombi infections were apparent in 49% of worker bees, while Nosema bombi and Apicystis bombi were present in 5.5% and 0.68% of bees, respectively. Nests with a high prevalence of C. bombi infection were less likely to produce gynes, the first evidence of a direct impact of this common parasite on bumblebee colony reproduction in wild nests. 5. Overall, our data indicate that bumblebee nests are at the heart of a rich web of interactions between many different predator and parasite species.     

5. FIELD OBSERVATIONS,NORTHERN PROVINCE,NORTHERN RHODESIA

Cooper, J. 1986. Biology of the Bank Cormorant, Part 4: Nest construction and characteristics. Ostrich 57: 170–179.

Bank Cormorants Phalacrocorax neglectus construct their nests of material gathered by diving. Males undertake diving bouts of approximately 3–5 min, made up of several dives lasting on average 28 s. Nest material is gathered throughout the breeding cycle: number of diving bouts per day varies from a mean of 7,6 during pre-egg laying to 1,5 bouts per day when rearing young in the nest. Nest building recommences within 24 h of loss of nest due to storms. Both sexes occasionally steal nest material from the nests of neighbours. Bank Cormorants sometimes defecate onto their nests. This is assumed to make the nests better able to withstand rough seas. Nest construction takes approximately 34 d, a period similar to that of other ground-nesting species of cormorants. Construction of a nest in 34 d represents 238 diving bouts of a total duration of 18 h. Nests are heavy (up to 6 kg) and are made up primarily of seaweed. Feathers, sticks and artificial material are also incorporated into the nest. Bank Cormorant nests are large (up to 54 litres in total volume). Nests do not change significantly in size between egg laying and hatching. Nests in which at least one egg hatches are larger in all dimensions measured than those in which no eggs hatch. Nests are larger at the time of laying of repeat clutches than at the time of laying the first clutch. The Bank Cormorant's seaweed nest has enabled it to breed on bare offshore rocks where no nest material exists. The species' large nest is a necessary prerequisite for successful breeding close to the sea.     

Foraging interactions between native and exotic bumblebees: enclosure experiments using native flowering plants

To assess the impact of Bombus terrestris invasion on the foraging efficiency of native Japanese bumblebees, consumption and acquisition of floral resources during foraging on flowers of native Japanese plant species were investigated using enclosures with three treatments: one with only B. terrestris (exotic), one with both B. terrestris and native Japanese bumblebee species (mixed), and one with only Japanese species (native), but with the bumblebee density held constant. Changes in the body mass of queens and the nest mass of colonies for two days did not significantly differ among four combinations of the species and treatment, B. terrestris in the exotic and mixed treatments and Japanese species in the mixed and native treatments. Thus, it is not clear that B. terrestris has higher foraging efficiency than native species and that B. terrestris individuals more negatively affect the foraging efficiency of native species than individuals of the native species themselves. The nectar standing crop of Cirsium kamtschaticum was smaller in the exotic treatment than in the mixed and native treatments. However, this may have been an artifact of differences in the numbers of flowers in the various treatments. T. Nagamitsu and T. Kenta contributed equally to this work     

Predation of artificial nests by introduced rhesus macaques (<Emphasis Type="Italic">Macaca mulatta</Emphasis>) in Florida,USA

Native throughout Asia, rhesus macaques are believed to have the widest native range of any non-human primate and are capable of adapting to an extensive diversity of habitats. Rhesus macaques have caused environmental degradation in introduced habitats, including decreasing bird populations through nest predation. In the 1930s, rhesus macaques were intentionally introduced into what is today Silver Springs State Park (SSSP), central Florida, in an effort to increase tourism. Our objective was to determine whether introduced rhesus macaques in SSSP would consume eggs presented in artificial nests. We used camera traps adjacent to 100 open-cupped artificial bird nests baited with quail eggs near the Silver River. Nests were placed in shrubs and left in the field site for 12 days, representative of the incubation period of native passerine species. Twenty-one nests were depredated by rhesus macaques, nine by nest predators other than macaques, and five nests by an unidentified predator. Nests were more likely to be depredated by macaques when located in areas of high macaque relative abundance. This study suggests introduced rhesus macaques may influence nest predation rates of native bird species in natural areas.     

Ousting of the Common Redstart (Aves: Turdidae: Phoenicurus phoenicurus) from its nests by the bumblebee Bombus niveatus vorticosus (Hymenoptera: Apidae)

During a study of bird nesting in SW. Anatolia, 125 man-made nest boxes have been installed, 3 m high, in the trees. These nest boxes have been occupied by several bird species (Phoenicurus phoenicurus, Parus major, Parus ater, Sitta krueperi, Certhia brachydactyla). Of the 48 Redstart nests, 19 (40 %) had been successfully invaded by the bumblebee Bombus niveatus vorticosus. This invasion occurred at different times in the nest building cycle: - during the building of the nest, - during the incubation or - after the hatching of the young. Once installed in the nest of the Redstart, the bumblebee does not directly attack the bird, but disturbs it by continuously rearranging the nesting material and by covering the bird’s brood. Eventually, the bird deserts its nest and brood. The Redstart does not display any agonistic behaviour towards the bumblebee. Nests of other bird species are never invaded.     

Colony contact contributes to the diversity of gut bacteria in bumblebees (Bombus terrestris)

Social bees, like honeybees and bumblebees, have a close contact with nest mates of different developmental stages and generations. This could enhance bacterial transfer between nest mates and offers opportunities for direct transfer of symbionts from one generation to the next, resulting in a stable host specific gut microbiota. Gut symbionts of honeybees and bumblebees have been suggested to contribute in digestion and protection against parasites and pathogens. Here we studied the impact of contact with the bumblebee colony on the colonization potential of the bacterial families (i.e., Neisseriaceae, Orbaceae, Lactobacillaceae and Bifidobacteriaceae) occurring in the gut of adult bumblebees (Bombus terrestris). Bacterial profiles of the gut microbiota of B. terrestris were determined based on the hypervariable V4 region of the 16S rRNA using paired‐end Illumina sequencing. In our experiments, we created different groups in which we gradually reduced the contact with nest mates and hive material. We made 3 observations: (i) reducing the contact between the colony and the bumblebee during adult life resulted in a significant drop in the relative abundance of Lactobacillus bombicola and Lactobacillus bombi; (ii) Bifidobacteriaceae required contact with nest mates to colonize the gut of B. terrestris and a significant lower bacterial diversity was observed in bumblebees that were completely excluded from colony contact during the adult life; (iii) Snodgrassella and Gilliamella were able to colonize the gut of the adult bumblebee without any direct contact with nest mates in the adult life stage. These results indicate the impact of the colony life on the diversity of the characteristic bumblebee gut bacteria.     

Compound nesting of <Emphasis Type="Italic">Strumigenys</Emphasis> sp. (Myrmicinae) and <Emphasis Type="Italic">Diacamma</Emphasis> sp. (Ponerinae), and other nesting symbioses of myrmicine and ponerine ants in Southeast Asia

Summary. A new type of compound nest, inhabited by the small Strumigenys sp.1 (Myrmicinae) and the relatively big Diacamma sp.1 (Ponerinae), was found in Java, Indonesia. Field records as well as results of experimental studies were used to describe this association. The compound nests were relatively frequent in the research area: 75% of the examined Diacamma sp.1 nests were also inhabited by Strumigenys sp.1. Strumigenys sp.1 is specialized on nesting in small, excavated nest chambers, in close vicinity to Diacamma sp.1, while Diacamma sp.1 does not depend on Strumigenys sp.1. The rather small workers of this myrmicine species forage for food inside the Diacamma nests as well as outside, favouring mites and collembolans as prey, but principally not rejecting any other nitrogen source. The refuse pile of Diacamma sp.1 inside the nest houses small living invertebrates and insect parts, preyed upon by Strumigenys sp.1. Given the choice between larvae of Diacamma sp.1 and mites, Strumigenys sp.1 clearly preferred the mites. Thus, the association seems to be beneficial to Strumigenys sp.1, and does not harm Diacamma sp.1. We found two more similar compound nests: In Java, a different Strumigenys species was frequently found nesting within the nest of a Pachycondyla (Ponerinae) species. In Sabah, East Malaysia, we recorded for the first time a Pheidole (Myrmicinae) species nesting in chambers coming out of the walls of Diacamma nest chambers. Existing classifications for compound nest associations (i.e. xenobiosis, cleistobiosis etc.) are too restricted, because they were based on a few cases. Hence, we present a list of non-normative traits describing the various types of nest symbioses by ants.     

Mite species inhabiting commercial bumblebee (<Emphasis Type="Italic">Bombus terrestris</Emphasis>) nests in Polish greenhouses

Nests of social insects are usually inhabited by various mite species that feed on pollen, other micro-arthropods or are parasitic. Well-known negative effects of worldwide economic importance are caused by mites parasitizing honeybee colonies. Lately, attention has focused on the endoparasitic mite Locustacarus buchneri that has been found in commercial bumblebees. However, little is known of other mites associated with commercial bumblebee nests. Transportation of commercial bumblebee colonies with unwanted residents may introduce foreign mite species to new localities. In this study, we assessed the prevalence and species composition of mites associated with commercial bumblebee nests and determined if the mites are foreign species for Poland and for Europe. The study was conducted on 37 commercial bumblebee nests from two companies (Dutch and Israeli), originating from two greenhouses in southern Poland, and on 20 commercial bumblebee colonies obtained directly from suppliers. The species composition and abundance of mites inhabiting commercial bumblebee nests were determined. Seven mite species from three families were found in nests after greenhouse exploitation. The predominant mite species was Tyrophagus putrescentiae (Acaridae) that was a 100-fold more numerous than representatives of the family Laelapidae (Hypoaspis marginepilosa, H. hyatti, H. bombicolens). Representatives of Parasitidae (Parasitellus fucorum, P. crinitus, P. ignotus) were least numerous. All identified mite species are common throughout Europe, foreign species were not found. Mites were not detected in nests obtained directly from suppliers. We conclude that probably bumblebee nests are invaded by local mite species during greenhouse exploitation.     

Location of bumblebee nests is predicted by counts of nest‐searching queens

1. Bumblebee nests are difficult to find in sufficient numbers for well replicated studies. Counts of nest‐searching queens in spring and early summer have been used as an indication of preferred nesting habitat, but this relationship has not yet been validated; high densities of nest‐searching queens may indicate habitat with few nesting opportunities (meaning that queens have to spend longer looking for them). 2. From mid April 2010, queen bumblebees were counted along 20 transects in grassland and woodland habitats in central Scotland, U.K. The number of inflorescences of suitable forage plants were also estimated at each transect visit. The area surrounding each transect was searched for nests in the summer. 3. In total, 173 queen bumblebees were recorded on transects, and, of these, 149 were engaged in nest‐searching. Searches subsequently revealed 33 bumblebee nests. 4. The number of nest‐searching queens on transects was significantly, positively related to the number of nests subsequently found. Estimated floral abundance along the transect did not correlate with numbers of nest‐searching queens or with the number of nests found, suggesting that queens do not target their searching to areas that are locally high in spring forage. 5. The data suggest that counts of nest‐searching queens provide a useful positive indication of good nesting habitat, and hence where bumblebee nests are likely to be found later in the year.     

Abundance,body size,and morphology of bumblebees in an area where an exotic species, <Emphasis Type="Italic">Bombus terrestris</Emphasis>, has colonized in Japan

An exotic bumblebee species, Bombus terrestris, has colonized in Japan and becomes dominant in some local communities. We examined the effects of land use and bumblebee abundance on the number and body size of bumblebees collected using window traps in a lowland area in the southern Ishikari district, Hokkaido. In 2004, we collected 922 bumblebees of six species using 70 traps at 17 sites. A statistical model fitted to the data demonstrated that dispersion from commercial B. terrestris colonies used in greenhouses positively affected the number of B. terrestris caught by each trap. This exotic species was abundant in sites where paddy fields were prevalent, but three native species, B. hypocrita, B. ardens, and B. diversus, were abundant in sites where farms and woodlands were widespread. The local abundance of B. terrestris was not associated negatively with the number and body size of native bumblebees. Thus, we did not find any competitive interactions between exotic and native bumblebees although habitat conditions seem to be common determinants of the bumblebee populations. A morphological analysis showed that B. terrestris had intermediate tongue length between B. hypocrita and B. ardens.     

Effects of alien invasion by <Emphasis Type="Italic">Bombus terrestris</Emphasis> L. (Apidae) on the visitation patterns of native bumblebees in coastal plants in northern Japan

When alien pollinator species enter a native community of pollinators in which resource partitioning has been established, the pollination network between plants and pollinators may be modified through the interactions between the pollinators over the use of floral resources. We observed the floral-use patterns of native (Bombus hypocrita and B. deuteronymus) and alien (B. terrestris) bumblebee species in a coastal grassland in northern Japan. We analyzed the factors determining resource partitioning patterns. B. hypocrita tended to visit flowers with shallow or wide open corollas, such as Rosa rugosa, whereas B. deuteronymus visited flowers with complex or deeper corollas, such as Lathyrus japonicus. Given the wider floral preference of B. terrestris, floral use by the alien bumblebees consistently overlapped with that of native bumblebees. The visitation of B. terrestris to R. rugosa flowers was positively correlated with that of B. hypocrita. These bumblebee species frequently used similar floral resources, in part because of the large overlap in the seasonality of their foraging activity. The visitation frequency of B. deuteronymus to L. japonicus flowers was independent of the visitation frequency of other bumblebee species. The major visitation periods of the bumblebees to L. japonicus flowers reciprocally differed between B. deuteronymus and B. terrestris, suggesting phenological resource partitioning between these species. Our study suggests that phenological niche partitioning is more common in specialized flowers (L. japonicus) than in generalized flowers (R. rugosa).     

Nest site selection and longevity in the ponerine ant Rhytidoponera metallica (Hymenoptera, Formicidae)

Summary: The size of the nesting cavity and the nature of the nest-building material can constrain colony growth in eusocial insects. Rocks protect colony members against extreme temperatures as well as serve as a supplementary source of heat, thereby maintaining optimal conditions for brood development. The frequency distribution of available rocks and those occupied by colonies of Rhytidoponera metallica in the Avon River State Forest, Victoria, Australia, showed that colonies of R. metallica avoided nesting under small rocks (<200 cm²). A strong correlation between colony size and rock size indicates that nesting under a larger rock promotes colony growth. Laboratory choice experiments revealed that workers are capable of recognizing larger rocks from external physical characters (dimension). Field data indicates that colonies leave nests frequently, with nest abandonment peaking in the summer months.     

Environmental factors and land uses related to the naturalization of <Emphasis Type="Italic">Bombus terrestris</Emphasis> in Hokkaido,northern Japan

The buff-tailed bumblebee, Bombus terrestris, was introduced into Japan in 1991 and is now widely established in Hokkaido, northern Japan. To characterize environmental factors affecting the naturalization of B. terrestris, we examined the relationship between vegetation, land use, and bumblebee fauna at various sites in Hokkaido. Increase of human-modified environments and reduced area of forest were associated with B. terrestris inhabitation. Although agricultural fields provide a huge expanse of land for B. terrestris naturalization, environmental instability (human impacts or weather factors) sometimes leads to local population extinctions. Urban and residential areas may suffer less fluctuation and provide suitable environments for B. terrestris naturalization though the total area is rather small. Presence of the both types of human-modified environments is likely to lead the introduction of B. terrestris into new areas in Hokkaido, northern Japan.