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排序方式: 共有360条查询结果,搜索用时 15 毫秒
1.
浙农大A系意蜂生产性能考察试验报告 总被引:5,自引:0,他引:5
用杂交一代蜂群进行对比试验的结果表明,浙农大 A 系意蜂的产育力、群势增长速度、采蜜量等,与平湖意蜂和澳大利亚意蜂无显著差异或基本一致,但蜂王浆高产性能表现突出,产量比平湖意蜂高19.5%,比澳意高42.5%,而且质量指标符合国家规定和出口标准。 相似文献
2.
经过冬蜜花期对以湖北鄂西中蜂为母本、广东粤东地中蜂为父本的杂交一代与本地中蜂进行比较,结果表明:杂交一代的繁殖力和产蜜量分别比本地中蜂高4.4%和11%。夏季乌桕花期对回交代进行对比结果表明:其繁殖力和产蜜量分别比本地中蜂高6%和21%。 相似文献
3.
液相色谱-电喷雾质谱联用检测蜂蜜中四种硝基呋喃类代谢物 总被引:9,自引:0,他引:9
介绍了高效液相色谱电喷雾多级质谱(LC/MSn) 同时快速、准确测定蜂蜜中呋喃西林、呋喃唑酮、呋喃它酮和呋喃妥英4种硝基呋喃类抗生素代谢物。硝基呋喃类代谢物在酸性条件下经过邻硝基苯甲醛衍生化, 液相萃取后经色谱分离, 利用二级质谱进行定性和定量。加标样品平均回收率达到64% ~79%, 定量下限(LOQ) 为0 1~1μg·kg-1, 检测限(LOD) 达到0 05~0 5μg·kg-1。该方法测定结果满足欧盟(EU)对进口动物源性食品中硝基呋喃类抗生素的残留要求。 相似文献
4.
Computing inbreeding coefficients and the inverse numerator relationship matrix in large populations of honey bees
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Richard Bernstein Manuel Plate Andreas Hoppe Kaspar Bienefeld 《Zeitschrift für Tierzüchtung und Züchtungsbiologie》2018,135(4):323-332
The inbreeding coefficients are considered in breeding decisions, and the inverse numerator relationship matrix A ?1 is a prerequisite for breeding value estimation. Polyandry and haploid males are among the specifics of relationships between honey bees. Brascamp and Bijma (2014) averaged out the manifold possible relationships among honey bees that appear to have the same parents in a pedigree and assigned a single entry in A to animals that behave as a unit, for example, the workers of a hive. Their methods of calculation connected full‐sibs in the variance matrix of the Mendelian sampling terms D , via nonzero off‐diagonal elements. This impedes the inversion of A and the closely connected calculation of inbreeding coefficients, because efficient algorithms for this task take D to be a diagonal matrix. Memory limitations necessitate their use for large data sets. We adapted the quickest of them to the block diagonal matrix D , that is postulated for the honey bee. To our knowledge, the presented algorithm is the first one that facilitates the method of Brascamp and Bijma (2014) on large data sets. 相似文献
5.
为了进一步发掘橡胶林区潜在经济价值,预测下一年橡胶泌蜜规律,试验采用连续8年记录转地到西双版纳傣族自治州采集橡胶蜜的蜂场收获蜂蜜情况,并以气象观测仪记录当时的气象变化的方法。表明进入橡胶场地的蜂群势变化不大[(13.450±0.113)脾,=0.854],但产量变化显著[(72.613±0.349)kg,<0.01]。气象观测表明气温8年内波动范围不大,而降雨量波动大,表现为2011年洪涝出现早,2014年干旱持续时间长。产量与日平均气温(相关系数r=0.337)有极显著的正相关性,与日降雨量(相关系数r=-0.269)及日最低气温(相关系数r=-0.483)呈极显著的负相关,与群势表现出轻微的负相关(相关系数r=-0.031)。说明持续的干旱和温暖湿热的气温及合理的群势能够增加橡胶蜜的产量,适宜的气候及大面积橡胶林区蕴含着巨大的养蜂潜力。 相似文献
6.
Shunhua Yang Shangkao Deng Haiou Kuang Danyin Zhou Xueyang Gong Kun Dong 《Journal of insect science (Online)》2021,21(4)
The hexagonal structure of the honey bee comb cell has been the source of many studies attempting to understand its structure and function. In the storage area of the comb, only honey is stored and no brood is reared. We predicted that honey bees may construct different hexagonal cells for brood rearing and honey storage. We used quantitative analyses to evaluate the structure and function of the natural comb cell in the Chinese bee, Apis cerana cerana and the Italian bee, A. mellifera ligustica. We made cell molds using a crystal glue solution and measured the structure and inclination of cells. We found that the comb cells of A. c. cerana had both upward-sloping and downward-sloping cells; while the A. m. ligustica cells all tilted upwards. Interestingly, the cells did not conform to the regular hexagonal prism structure and showed irregular diameter sizes. In both species, comb cells also were differentiated into worker, drone and honey cells, differing in their diameter and depth. This study revealed unique differences in the structure and function of comb cells and showed that honey bees design their cells with precise engineering to increase storage capacity, and to create adequate growing room for their brood. 相似文献
7.
Jennifer A Berry Lewis J Bartlett Selina Bruckner Christian Baker S Kris Braman Keith S Delaplane Geoffrey R Williams 《Journal of insect science (Online)》2022,22(1)
The American beekeeping industry continually experiences colony mortality with annual losses as high as 43%. A leading cause of this is the exotic, ectoparasitic mite, Varroa destructor Anderson & Trueman (Mesostigmata: Varroidae). Integrated Pest Management (IPM) options are used to keep mite populations from reaching lethal levels, however, due to resistance and/or the lack of suitable treatment options, novel controls for reducing mites are warranted. Oxalic acid for controlling V. destructor has become a popular treatment regimen among commercial and backyard beekeepers. Applying vaporized oxalic acid inside a honey bee hive is a legal application method in the U.S., and results in the death of exposed mites. However, if mites are in the reproductive stage and therefore under the protective wax capping, oxalic acid is ineffective. One popular method of applying oxalic is vaporizing multiple times over several weeks to try and circumvent the problem of mites hiding in brood cells. By comparing against control colonies, we tested oxalic acid vaporization in colonies treated with seven applications separated by 5 d (35 d total). We tested in apiaries in Georgia and Alabama during 2019 and 2020, totaling 99 colonies. We found that adult honey bees Linnaeus (Hymenoptera: Apidae), and developing brood experienced no adverse impacts from the oxalic vaporization regime. However, we did not find evidence that frequent periodic application of oxalic during brood-rearing periods is capable of bringing V. destructor populations below treatment thresholds. 相似文献
8.
Varroa destructor (Mesostigmata: Varroidae) is arguably the most damaging parasitic mite that attacks honey bees worldwide. Since its initial host switch from the Asian honey bee (Apis cerana) (Hymenoptera: Apidae) to the Western honey bee (Apis mellifera) (Hymenoptera: Apidae), Varroa has become a widely successful invasive species, attacking honey bees on almost every continent where apiculture is practiced. Two haplotypes of V. destructor (Japanese and Korean) parasitize A. mellifera, both of which vector various honey bee-associated viruses. As the population of Varroa grows within a colony in the spring and summer, so do the levels of viral infections. Not surprisingly, high Varroa parasitization impacts bees at the individual level, causing bees to exhibit lower weight, decreased learning capacity, and shorter lifespan. High levels of Varroa infestation can lead to colony-wide varroosis and eventually colony death, especially when no control measures are taken against the mites. Varroa has become a successful parasite of A. mellifera because of its ability to reproduce within both drone cells and worker cells, which allows populations to expand rapidly. Varroa uses several chemical cues to complete its life cycle, many of which remain understudied and should be further explored. Given the growing reports of pesticide resistance by Varroa in several countries, a better understanding of the mite’s basic biology is needed to find alternative pest management strategies. This review focuses on the genetics, behavior, and chemical ecology of V. destructor within A. mellifera colonies, and points to areas of research that should be exploited to better control this pervasive honey bee enemy. 相似文献
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