Modeling the potential distribution of the predator of honey bees,Palarus latifrons,in the Arabian deserts using Maxent and GIS

ObjectivesThe species Palarus latifrons (bee pirates) has been recorded in Saudi Arabia as an invasive species. This pest can destroy honey bee colonies under certain conditions. The origin of this species in Africa and it has a good ability to adapt to desert conditions. Studies on this species are very few but its current distribution in the Arabian deserts is mainly in the Arabian Gulf countries. This study presents maps for the possible expansion of this species to invade other desert areas in the Arabian countries’ under current and near-future conditions (2030).MethodsThis pest is a solitary insect with high activity during summer. It is hypothesized that summer conditions and especially temperature are the limiting factor for its distribution in the deserts. The analysis depended on generating maps based on temperatures during summer and based on two bioclimatic factors. Maxent and the geographical information system (GIS) were used to perform the analysis.Results and conclusionsAll maps showed the high ability of this pest to spread in the Gulf countries. In North Africa: south Egypt and Libya, and some parts of Algeria showed suitability for Palarus. The invasion of this pest towards North Africa can happen mostly due to trading activities with Gulf countries especially materials containing soil. Continues monitoring for the activity of Palarus in the risk areas is highly advised.     

The effect of fire on flower visitation rate and fruit set in four core-species in east Mediterranean scrubland

The recovery of vegetation following fire has been studied intensively in Mediterranean-type ecosystems. Little attention, however, has been given to floral traits, and almost no data have been collected on the effects of fire on pollinator activity and fruit-set. This paper reports the effects of fire on flower visitation rates and the possibly related fruit-set. We compared visitation rates of the main pollinators on four plant core-species in burned and adjacent unburned areas. Measurements were performed at an unburned phrygana (scrub lands), and at a burned area (5–7 years post-fire). Bumble bees and solitary bees were the main taxa of visitors, while few honeybees were recorded. Solitary bees were almost absent from the burned area. Fruit-set was significantly higher in the unburned area for three out of the four plant species. The lower fruit-set in the burned area was possibly the result of low activity of solitary bees which are the main effective pollinators of the examined species. We hypothesize that the populations of the solitary bees were diminished or extirpated either directly by the fire, or indirectly by the scarcity of nectar in the early post-fire years due to dominance of young pine and Cistus spp. seedlings. The short foraging range of the solitary bees and their slow invasion rate into the burned area may explain our results.     

Population genomics and phylogeography of Colletes gigas,a wild bee specialized on winter flowering plants

Diet specialization may affect the population genetic structure of pollinators by reducing gene flow and driving genetic differentiation, especially in pollen‐specialist bees. Colletes gigas is a pollen‐specialist pollinator of Camellia oleifera, one of the most important staple oil crops in China. Ca. oleifera blooms in cold climates and contains special compounds that make it an unusable pollen source to other pollinators. Thus, C. gigas undoubtedly plays a key role as the main pollinator of Ca. oleifera, with biological and economic significance. Here, we use a population genomic approach to analyze the roles of geography and climate on the genetic structure, genetic diversity, and demographic history of C. gigas. A total of 1,035,407 SNPs were identified from a 582.77 Gb dataset. Clustering and phylogenetic analyses revealed a marked genetic structure, with individuals grouped into nine local clusters. A significant isolation by distance was detected by both the Mantel test (R = .866, p = .008) and linear regression (R ² = .616, p < .001). Precipitation and sunshine duration were positively and significantly (R ≥ .765, p ≤ .016) correlated with observed heterozygosity (H _o) and expected heterozygosity (H _e). These results showed that C. gigas populations had a distinct phylogeographic pattern determined by geographical distance and environmental factors (precipitation and sunshine duration). In addition, an analysis of paleogeographic dynamics indicated that C. gigas populations exhibited patterns of glacial expansion and interglacial contraction, likely resulting from post‐glacial habitat contraction and fragmentation. Our results indicated that the peculiar phylogeographic patterns in C. gigas populations may be related to their specialization under long‐term adaptation to host plants. This work improves our understanding of the population genetics in pollen‐specialist bees. The distinct genetic clusters identified in this study should be taken into consideration for the protection and utilization of this specialized crop pollinator.     

蜜蜂寿命可塑性研究进展

蜜蜂是一种完全社会化的昆虫,它们在寿命方面表现出了显著的级型差异.蜂王的平均寿命是1～2年,而工蜂在生产季节平均寿命是30～40 d,越冬季节平均寿命是90～200d,显然蜜蜂寿命有可塑性.这种可塑性是由环境因素控制,因为蜂王和工蜂的遗传基础是一致的.另外工蜂任务可以发生逆转,这意味着老化的逆转.本文综述了近年来一些老...     

紫花苜蓿的花蜜量和访花蜜蜂数量对种子产量的影响

对10个紫花苜蓿品种的花萼直径、花蜜量、访花蜜蜂数量和种子产量进行了研究,结果表明,紫花苜蓿的单位面积花蜜量与访花蜜蜂数量呈极显著正相关(r=0.93**),访花蜜蜂数量与种子产量呈显著正相关(r=0.87*);紫花苜蓿的花蜜量与花萼直径呈极显著正相关(r=0.99**);紫花苜蓿品种赛特(Sitel)和德宝(Derby)在兰州地区能获得高产、优质的种子。     

洞察景观环境影响蜜蜂之新视角: 肠道微生物

作为生态服务提供者的传粉蜜蜂与景观生态息息相关, 而以农田为主的景观组成显著降低了传粉蜜蜂的多样性。目前调查研究显示, 农田的扩张与蜜蜂多样性下降相关, 且农药残留对蜜蜂损害严重。景观中的开花植物决定了蜜蜂的食物(营养)组成, 其中花粉蛋白含量与蜜蜂的生长发育紧密相关。尽管研究已证实景观环境会显著影响蜜蜂蜂群的发展和个体的生长繁殖能力, 但未来还需要加强景观组成变化直接作用于蜜蜂的机制研究。另一方面, 大量研究表明蜜蜂肠道共生菌是影响宿主健康的重要因素: 可促进宿主吸收营养和抵抗病原菌。作为传粉者, 蜜蜂接触到的主要外部环境——花粉和花蜜都含有特殊的微生物, 很多研究暗示花源微生物是蜜蜂肠道菌来源之一。研究表明景观环境相关的食物(营养)、农药残留以及环境微生物都会显著影响肠道微生物。现有少量的研究证明不同景观的蜜蜂肠道微生物有差异, 景观环境可能通过作用于蜜蜂肠道微生物进而影响蜜蜂健康。然而不同景观环境中的微生物, 尤其是花源微生物和蜜蜂肠道菌之间的关联有待证明。景观对蜜蜂肠道微生物的影响值得研究, 希望可以从肠道菌的视角鉴别对蜜蜂友好的景观环境, 进而指导土地合理利用和蜜蜂保护。     

环境变化对中国野生蜜蜂多样性的影响

蜜蜂尤其是野生蜜蜂对维持生态系统功能、保证粮食安全等方面具有重要的作用。近年来, 野生蜜蜂的栖息地由于天然林减少, 而现营造的又多为纯林, 以及大面积种植单一经济林而遭到了严重破坏和片断化。已有研究表明纯林、油茶(Camellia oleifera)和橡胶树(Hevea brasiliensis)经济林中的野生蜜蜂多样性较低。现代农业中新烟碱类杀虫剂、除草剂的大规模使用, 会对蜜蜂个体发育和行为产生不利影响。城市化进程潜在影响了蜜蜂的群落, 如郊区的蜜蜂平均物种丰富度要明显高于中心商业区; 废水、废气和粉尘对蜜蜂的觅食、生长发育等都具有不利影响; CO₂等温室气体导致的气候变暖影响了传粉蜜蜂与植物之间的互利共生关系, 造成时间或功能上的不匹配。综上所述, 我国的环境变化可能已导致中国野生传粉蜜蜂多样性的下降和种群的衰退。我国虽是传粉蜜蜂种质资源大国, 但缺乏种类和分布本底以及长期而有效的监测数据, 缺乏对蜜蜂多样性和种群下降机制的研究。因此亟待开展传粉蜜蜂调查、实施长期监测项目, 为之建立研究网络。并通过积累丰富的相关数据, 开展风险预测和评估, 用于管理和缓解传粉蜜蜂下降所带来的经济及非经济影响。     

Laboratory testing of a mycopesticide on non‐target organisms: The effects of an oil formulation of Metarhizium flavoviride applied to Apis mellifera

A technique was developed to allow ultra‐low volume (ULV) application of an oil formulation of the deuteromycete, Metarhizium flavoviride Gams & Rozsypal, to Apis mellifera (Linnaeus). In the first experiment, application of a dose equivalent to twice the expected field application rate killed 30% of the bees and a twenty‐fold dose killed 87%. In a second experiment, a realistic field dose formulated in oil killed 11% of the bees and a similar dose formulated in water killed 8%. The dose applied effectively killed the target host, the desert locust Schistocerca gregaria (Forskål). Application of a chemical pesticide comprising an organophosphate and two pyrethroids at a dose that was just sub‐lethal to locusts, killed all treated bees. Very few untreated bees died. The results demonstrated the feasibility of safety testing a mycopesticide with bees as a non‐target organism. In addition, it was demonstrated that the mycopesticide currently under development for the control of locusts and grasshoppers was quantifiably less hazardous to bees than the chemical pesticide.     

Six years of wild bee monitoring shows changes in biodiversity within and across years and declines in abundance

Wild bees form diverse communities that pollinate plants in both native and agricultural ecosystems making them both ecologically and economically important. The growing evidence of bee declines has sparked increased interest in monitoring bee community and population dynamics using standardized methods. Here, we studied the dynamics of bee biodiversity within and across years by monitoring wild bees adjacent to four apple orchard locations in Southern Pennsylvania, USA. We collected bees using passive Blue Vane traps continuously from April to October for 6 years (2014–2019) amassing over 26,000 bees representing 144 species. We quantified total abundance, richness, diversity, composition, and phylogenetic structure. There were large seasonal changes in all measures of biodiversity with month explaining an average of 72% of the variation in our models. Changes over time were less dramatic with years explaining an average of 44% of the variation in biodiversity metrics. We found declines in all measures of biodiversity especially in the last 3 years, though additional years of sampling are needed to say if changes over time are part of a larger trend. Analyses of population dynamics over time for the 40 most abundant species indicate that about one third of species showed at least some evidence for declines in abundance. Bee family explained variation in species‐level seasonal patterns but we found no consistent family‐level patterns in declines, though bumble bees and sweat bees were groups that declined the most. Overall, our results show that season‐wide standardized sampling across multiple years can reveal nuanced patterns in bee biodiversity, phenological patterns of bees, and population trends over time of many co‐occurring species. These datasets could be used to quantify the relative effects that different aspects of environmental change have on bee communities and to help identify species of conservation concern.