In the present study, nectar and pollen sources for honeybee (Apls cerana cerana Fabr.) were studied in Qlnglan mangrove area, Hainan Island, China, based on microscopic analysis of honey and pollen load (corblcula...In the present study, nectar and pollen sources for honeybee (Apls cerana cerana Fabr.) were studied in Qlnglan mangrove area, Hainan Island, China, based on microscopic analysis of honey and pollen load (corblcular and gut contents) from honeybees collected In October and November 2004. Qualitative and quantitative melittopalynologlcal analysis of the natural honey sample showed that the honey is of unlfloral type with Mimosa pudlca L. (Mlmosaceae) as the predominant (89.14%) source of nectar and pollen for A. cerana cerana In October. Members of Araceae are an Important minor (3%-15%) pollen type, whereas those of Arecaceae are a minor (〈3%) pollen type. Pollen grains of Nypa fruticans Wurmb., Rhlzophora spp., Excoecarla agallocha L., Lumnitzera spp., Brugulera spp., Kandella candel Druce, and Ceriops tagal (Perr.) C. B. Rob. are among the notable mangrove texa growing In Qinglan mangrove area recorded as minor taxa In the honey. The absolute pollen count (I.e. the number of pollen grains/10 g honey sample) suggests that the honey belongs to Group V (〉1 000 000). Pollen analysis from the corblcular and gut contents of A. cerana cerana revealed the highest representation (95.60%) of members of Sonneratia spp. (Sonneratlaceae), followed by Bruguiera spp. (Rhizophoraceae), Euphorblaceae, Poaceae, Fabaceae, Arecaceae, Araceae, Anacardlaceae, and Rublaceae. Of these plants, those belonging to Sonneratla plants are the most Important nectar and pollen sources for A. cerana cerana and are frequently foraged and pollinated by these bees in November.展开更多
High mountain ecosystems are a challenge for the survival of animal and plant species, which have to evolve specific adaptations to cope with the prevailing extreme conditions. The strategies to survive may reach from...High mountain ecosystems are a challenge for the survival of animal and plant species, which have to evolve specific adaptations to cope with the prevailing extreme conditions. The strategies to survive may reach from opportunistic to highly adapted traits. One species successfully surviving under these conditions is the here studied butterfly Erebia nivalis. In a mark-release-recapture study performed in the Hohe Tauern National Park (Austria) from 22 July to 26 August 2013, we marked 1386 individuals and recaptured 342 of these. For each capture event, we recorded the exact point of capture and various other traits (wing conditions, behavior, nectar sources). The population showed a partial protandrous demography with the minority of males emerging prior to the females, but the majority being synchronized with them. Males and females differed significantly in their behavior with males being more flight active and females nectaring and resting more. Both sexes showed preferences for the same plant species as nectar sources, but this specialization apparently is the result of a rapid individual adaptation to the locally available flowers. Estimates of the realized dispersal distances predicted a comparatively high amount of long-distance flights, especially for females. Therefore, the adaptation of Erebia nivalis to the unpredictable high mountain conditions might be a mixture of opportunism and specialized traits.展开更多
基金Supported by the National Natural Science Foundation of China (40342013).The authors are grateful to Professor Nai-Qiu Du and Dr XiaoYan Song (Institute of Botany, the ChineseAcademy of Sciences) and Professors Jian-Hua Jin and Wen-Bo Liao (Sun Yat-sen University, Guangzhou, China) for their support for this work.
文摘In the present study, nectar and pollen sources for honeybee (Apls cerana cerana Fabr.) were studied in Qlnglan mangrove area, Hainan Island, China, based on microscopic analysis of honey and pollen load (corblcular and gut contents) from honeybees collected In October and November 2004. Qualitative and quantitative melittopalynologlcal analysis of the natural honey sample showed that the honey is of unlfloral type with Mimosa pudlca L. (Mlmosaceae) as the predominant (89.14%) source of nectar and pollen for A. cerana cerana In October. Members of Araceae are an Important minor (3%-15%) pollen type, whereas those of Arecaceae are a minor (〈3%) pollen type. Pollen grains of Nypa fruticans Wurmb., Rhlzophora spp., Excoecarla agallocha L., Lumnitzera spp., Brugulera spp., Kandella candel Druce, and Ceriops tagal (Perr.) C. B. Rob. are among the notable mangrove texa growing In Qinglan mangrove area recorded as minor taxa In the honey. The absolute pollen count (I.e. the number of pollen grains/10 g honey sample) suggests that the honey belongs to Group V (〉1 000 000). Pollen analysis from the corblcular and gut contents of A. cerana cerana revealed the highest representation (95.60%) of members of Sonneratia spp. (Sonneratlaceae), followed by Bruguiera spp. (Rhizophoraceae), Euphorblaceae, Poaceae, Fabaceae, Arecaceae, Araceae, Anacardlaceae, and Rublaceae. Of these plants, those belonging to Sonneratla plants are the most Important nectar and pollen sources for A. cerana cerana and are frequently foraged and pollinated by these bees in November.
文摘High mountain ecosystems are a challenge for the survival of animal and plant species, which have to evolve specific adaptations to cope with the prevailing extreme conditions. The strategies to survive may reach from opportunistic to highly adapted traits. One species successfully surviving under these conditions is the here studied butterfly Erebia nivalis. In a mark-release-recapture study performed in the Hohe Tauern National Park (Austria) from 22 July to 26 August 2013, we marked 1386 individuals and recaptured 342 of these. For each capture event, we recorded the exact point of capture and various other traits (wing conditions, behavior, nectar sources). The population showed a partial protandrous demography with the minority of males emerging prior to the females, but the majority being synchronized with them. Males and females differed significantly in their behavior with males being more flight active and females nectaring and resting more. Both sexes showed preferences for the same plant species as nectar sources, but this specialization apparently is the result of a rapid individual adaptation to the locally available flowers. Estimates of the realized dispersal distances predicted a comparatively high amount of long-distance flights, especially for females. Therefore, the adaptation of Erebia nivalis to the unpredictable high mountain conditions might be a mixture of opportunism and specialized traits.
