Patricia Vit & Vassya Bankova 
Stingless Bee Nest Cerumen and Propolis, Volume 2 [PDF ebook] 

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Meliponini, the stingless bees of the tropics, process and store honey, pollen and plant resins to maintain their colonies. The chemical components of their nests are bioactive and believed to be therapeutic for a long list of maladies. However, only recently are tests and analyses being done with molecular and modern laboratory techniques, such as high throughput EDX, HPIC, HPLC, GC, NMR, PCR, and ultrastructural SEM; coupled with diverse detectors such as DAD, RI, MS, SCD.

This two-volume book is about the cerumen –plant resins mixed with stingless bee wax– and propolis, which fortify the colony in ways that are beginning to be understood. It includes reviews and new research on diverse topics involving the chemistry and bioactivity of plant resins, cerumen, propolis, besides bee and microbe behavior and ecology. These analytic studies are presented along with stingless bee biodiversity, palynology, cultural knowledge, bee foraging behavior, resin flower evolution, ecology, and evolution of nest microbe mutualisms, social immunity, human health, the decisive role of microbiology investigation in moving forward, natural history of stingless bee colonies and nests, marketing, and bibliometrics for plant resin use by bees, propolis, and the Starmerella yeast.

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Part. I. Chemical composition of cerumen, plant resins and propolis.- Chapter. 1. Propolis of Vietnamese stingless bees: Chemistry and plant origin .- Chapter. 2. Extraction of Tetragonula laeviceps cerumen, its total phenolic content and antioxidant activity.- Chapter. 3. Scaptotrigona mexicana propolis use in pasture silage: 1. Inhibition of pathogenic microbes, and 2. Feeding effect on growth of lambs.- Chapter. 4. Metabolites from microbial cell factories in stingless bee nests.- Chapter. 5. Bibliometric landscaping of the yeast Starmerella (Ascomycota),  a genus proposed in 1998.- Chapter. 6. Pot-honey, cerumen and propolis of  Axestotrigona ferruginea (Lepeletier, 1836) from Nigeria.- Chapter. 7. Volatile and sensory profile of cerumen, plant resin deposit, and propolis of a Tetragonisca angustula (Latreille, 1811) nest from Merida, Venezuela.- Part. II. Bioactivity of stingless bee cerumen, propolis and geopropolis.- Chapter. 8. Anti-inflammatory, antimicrobial and antioxidant activity of propolis and geopropolis produced by stingless bees.- Chapter. 9. Cerumen and propolis of an Indian stingless bee (Apidae: Meliponini) Tetragonula iridipennis (Smith, 1854): Botanical origin and biological activities.- Chapter. 10. Botanical origin, chemical composition, and bioactive properties of propolis of stingless bees from Argentina.- Chapter. 11. Chemical composition and therapeutic properties of geopropolis and propolis of stingless bees from Brazil: A review.- Chapter. 12. Diversity and biological activities of propolis of some Indonesian stingless bees.- Chapter. 13. Stingless bee propolis in pharmacology: Some applied cellular and molecular mechanisms.- Part III. Cultural uses and commercial products.- Chapter. 14. From Extraction to Meliponiculture? An Ethnobiological Synthesis of a Long-Standing Process in Argentina.- Chapter. 15. Production, resiniferous plants, chemistry, and therapeutical uses of Tetragonula biroi (Friese, 1898) propolis from the Philippines.- Part. IV. Sustainable stingless bee keeping and conservation.- Chapter. 16. Large-scale breeding of stingless bees: A plea for sustainable stingless bee keeping and native bee-plant-forest conservation in the Chaco region of Argentina.- Chapter. 17. Sustainable stingless bee keeping and conservation of bee-plant resources in Costa Rica.- Part. V. Marketing and standards of cerumen and propolis.- Chapter. 18. Marketing and standards of cerumen, resins, geopropolis and propolis from Brazilian stingless bees.- Appendix. A. List of Bee Taxa.- Appendix. B. Ethnic Names of Stingless Bees.- Appendix. C. Taxonomic Index of Plant Families.- Appendix. D. List of Plant Taxa Used by Bees.- Appendix E. Common Names of Plants Used by Bees.- Appendix. F. Chemical Substances of Beeswax, Cerumen and Propolis.- Appendix.G. Chemical Classes of Beeswax, Cerumen and Propolis Compounds.- Appendix. H. Microorganisms Associated with Stingless Bees or Used to Test Antimicrobial Activity, or Producing Metabolites in Materials of the Nest.- Index.

Despre autor

Patricia Vit has studied Biology and MSc Food Science at Universidad Simon Bolivar, Caracas, Venezuela. She became Professor at Universidad de Los Andes in 1985, completed her Ph D at Cardiff University, UK, visited the National University of Singapore, The University of Sydney, Australia, and Universidad Técnica de Machala, Ecuador. She supports the initiative Living Museum of Meliponini Bees in the World. Her research on pot-honey and SBH standards, expanded to cerumen and propolis structures of the nest. More than 100 papers and 34 books were published as an author or editor, including Pot-honey and Pot-Pollen. She received the Award Women in Science 2023, Health Science, from ACFIMAN, Caracas, Venezuela, and is a Council Member of the International Bee Research Association, UK.
Vassya Bankova obtained her Ph D in Natural Product Chemistry at the Bulgarian Academy of Sciences, Sofia. In 2004 she became full professor at the Institute of Organic Chemistry with Centre of Phytochemistry, Bulgarian Academy of Sciences. In her research she pays special attention to propolis – its chemical composition, plant origin, biological activity and standardization. Her total number of publications is over 220. She is a founding member of the Bulgarian Phytochemical Society. In 2015 she was elected to a corresponding member of the Bulgarian Academy of Sciences, and in 2020 a member of Academia Europea.
Milena Popova obtained her Master’s degree in chemistry and physics at Sofia University “Sv. Kliment Oxridski”; completed her Ph D in natural product chemistry at the Institute of Organic Chemistry with Centre of Phytochemistry, Bulgarian Academy of Sciences (IOCCP-BAS) in 2004, and became full professor at IOCCP-BAS in 2019. She was a postdoctoral researcher at University of Athens. Her research interests include chemical profiling, isolation and structural elucidation of bioactive compounds from natural products: endemic plants, propolis, mushrooms. She is a co-author of 100+ papers, cited over 3 800 times. She is a member of the Association for Medicinal and Aromatic Plants of Southeast Europe and Bulgarian Phytochemical Society, and is Head of the Laboratory “Chemistry of Natural Products” at IOCCP-BAS.
David W Roubik, from the Smithsonian Tropical Research Institute, Ancon, Panama, has written or edited 240 papers and 18 books about bee ecology, pollination and pollen, from worldwide tropical field work, co-editor of the Pot-honey and Pot-pollen books. It is timely to synthesize, record new data, and point out some of the most promising current information that, given time, will produce the same breadth and interest that the studies of Apis mellifera have produced. As I have pointed out, Apis contains 1/50th as many species, is present on ½ the land area (as a native) and is less than ½ the age of Meliponini, but it still holds public perception as “the bee”. This should be remedied.

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Limba Engleză ● Format PDF ● Pagini 501 ● ISBN 9783031438875 ● Mărime fișier 46.8 MB ● Vârstă 02-99 ani ● Editor Patricia Vit & Vassya Bankova ● Editura Springer Nature Switzerland ● Oraș Cham ● Țară CH ● Publicat 2024 ● Descărcabil 24 luni ● Valută EUR ● ID 9977650 ● Protecție împotriva copiilor DRM social

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