Relevant bibliographies by topics / Zoological specimens – Collection and preservation

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Academic literature on the topic 'Zoological specimens – Collection and preservation'

Author: Grafiati
Published: 4 June 2021
Last updated: 30 July 2024

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Journal articles on the topic "Zoological specimens – Collection and preservation"

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Abdillah, Zilki Tsani, Samson CMS, and Ute Lies Siti Khadijah. "Kegiatan preservasi preventif di Museum Zoologi Sekolah Ilmu dan Teknologi Hayati Institut Teknologi Bandung." Informatio: Journal of Library and Information Science 4, no. 1 (February 1, 2024): 79. http://dx.doi.org/10.24198/inf.v4i1.42663.

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Zoological Museum, School of Life Sciences and Technology, Bandung Institute of Technology has a collection that includes more than 2,200 specimens, consisting of various types of vertebrates and invertebrates. This collection is of great importance as a means of education, research, and the preservation of biodiversity. The ITB Zoological Museum carries out preventive preservation to maintain condition and sustainability, as well as prevent damage to the collection. This activity encompasses the processes of identifying and storing the collection, arranging the placement and labeling of the collection, and periodically maintaining the collection. This research aims to examine the preservation process in the collections at the ITB Zoological Museum in order to protect and maintain information in the collections and speed up the search for information on fauna collections that have been stored in the form of photos and videos on the ITB Zoological website. This research uses a case study method with a qualitative approach to understand the collection preservation process at the ITB Zoological Museum from the curator's perspective. Data were collected through in-depth interviews, observation, and a literature study. The research results show that the preservation of the collection at the ITB Zoological Museum is carried out in several stages. First, the identification and storage of the collection, where the curator identifies the type, condition, and potential damage to the collection, which is then stored according to its type. Second, the arrangement of placement and labeling of the collection to facilitate the identification process. Third, the maintenance of the collection is carried out periodically by the curator, which includes cleaning, inspecting, and caring for the collection according to its type to prevent further damage. Preventive preservation is a very important activity to maintain the sustainability of the collection at the ITB Zoological Museum. The curator plays a crucial role in the implementation of this preventive preservation and must have adequate knowledge and skills to carry it out.
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Falaschi, Rafaela Lopes, Fernanda Ceres Toczek, and Carlos José Einicker Lamas. "Catalogue of Ditomyiidae and Diadocidiidae (Diptera: Bibionomorpha) types housed in the collection of the Museu de Zoologia da Universidade de São Paulo, Brazil." Papéis Avulsos de Zoologia 59 (October 31, 2019): e20195956. http://dx.doi.org/10.11606/1807-0205/2019.59.56.

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The Museu de Zoologia da Universidade de São Paulo (MZUSP), São Paulo, Brazil houses the largest and most representative Brazilian collection of Diptera. In the present study, following a recommendation of the International Code of Zoological Nomenclature, it is presented a catalogue of the type specimens of Diadocidiidae and Ditomyiidae (Diptera: Bibionomorpha) held in the collection of the MZUSP. Label data and the condition of preservation of 27 type specimens (nine holotypes, two paralectotypes, and 16 paratypes) of 14 Neotropical species are provided.
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Carter, Julian. "Workshop: Care & Conservation of Zoological Collections." Biodiversity Information Science and Standards 2 (July 25, 2018): e28621. http://dx.doi.org/10.3897/biss.2.28621.

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Zoological collections house a huge range of biological diversity preserved in a wide variety of ways ranging from microscope mounts to whole animals preserved in fluids. The result is that these collections consist of a wide range of differing materials which can make the long term care and conservation of such collections a considerable challenge. This workshop is designed for museum professionals with the aim of giving an introductory overview on museum conservation approaches towards the care of zoological collections. This will be achieved through identifying the key risks and looking at the application of both remedial and preventative conservation methodologies to their care. The format of the workshop will be lectures on specific topics with group discussions, along with (where feasible) activities in small groups and practical examinations of specimens. Topics covered will include: Introduction to the concepts of ‘museum conservation’ and its application within the Natural Sciences. The types of material found in zoological collections – an overview of the core collection types, the chemistry of preservation and the potential long term challenges these present. An overview of the key agents of deterioration. Environmental effects and how to recognise them. Awareness of hazardous materials and core H&S issues encountered with the care and handling of zoological collections. Assessing collections and deciding conservation priorities. Fur, feathers and bones - practical conservation approaches to cleaning, consolidation and repair. Fluid collections - practical conservation approaches to handling, identifying fluids and carrying out remedial activities. Other key collection areas – e.g. conservation of entomology and other dried invertebrate collections; microscope slide collections. Consideration of the care and conservation of specialist collections e.g. historic models such as Blaschka glass models. Discussion and feedback from attendees will be a core part of the day.
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ELLIS, RYAN J. "Clarification of the type series of Amphibolurus barbatus microlepidotus Glauert, 1952 (= Pogona microlepidota) (Reptilia: Squamata: Agamidae)." Zootaxa 4457, no. 1 (August 7, 2018): 197. http://dx.doi.org/10.11646/zootaxa.4457.1.12.

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Ludwig Glauert (1952, p. 168) established the name Amphibolurus barbatus microlepidotus (= Pogona microlepidota) for a new agamid species (family Agamidae) from the type locality of “Drysdale River Mission, North Kimberley”, Western Australia and listed two specimens of the Western Australian Museum (WAM) collected by “Rev. Father [Raymundus] Salinas” in July 1922 as “types”. The two registrations forming the type series presented by Glauert were WAM R591 and WAM R592, which in accordance with Article 72.1.1. of the International Code for Zoological Nomenclature (the Code; International Commission on Zoological Nomenclature 1999) are considered syntypes. The two registrations presented by Glauert in the original publication (WAM R591–592) are in error, both registrations are associated with specimens of other species not matching the description or collection data presented by Glauert in the original description of A. b. microlepidotus. The specimen associated with WAM R591 is a Pseudonaja affinis Günther, 1872 (Serpentes: Elapidae), collected by M. Sweeting from the suburb of Leederville in Perth, Western Australia and WAM R592 a specimen of Neelaps calonotus (Duméril, Bibron, & Duméril, 1854) (Serpentes: Elapidae) collected by C. Thomas from the Perth suburb of West Guildford (now Bassendean), Western Australia (Fig. 1). The P. affinis specimen (WAM R591) is purportedly a whole specimen stored in a 75% ethanol solution; however, extensive searches failed to locate the specimen in the WAM collection and it is presumed lost or disposed of. In the early half of the 20th century, large and easily identifiable specimens were sometimes disposed following identification, registration and collection of morphological data due to their preservation and storage difficulty (see Smith 1981). The N. calonotus specimen (WAM R592) is now an alizarin-stained body in a glycol solution with skin stored separately in 75% ethanol (Fig. 1). The erroneous registration numbers provided by Glauert technically placed the name A. b. microlepidotus into synonymy with either N. calonotus or P. affinis depending on lectotype selection.
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Rowley, Chris, and Joanne Taylor. "Implementing 'Museum Victoria Wireless Input System for EMu (MVWISE)' Barcoding for Location Management of a Wet Type Collection." Biodiversity Information Science and Standards 2 (June 13, 2018): e26178. http://dx.doi.org/10.3897/biss.2.26178.

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The Non-Arthropod Wet Type Collection consists of approximately 1660 lots of specimens spread across 13 phyla. The collection covers a range of taxa including Annelida (earthworms, leeches, bristle worms); Echinodermata (sea stars, brittle stars, sea cucumbers); Mollusca (snails, octopus, squid, cuttlefish); Porifera (sponges); Cnidaria (anemones, hydroids). The majority of specimens in the collection are preserved in 70% ethanol or 10% formalin. Being a collection of zoological type specimens, this collection is considered to be of high scientific value and is irreplaceable. Concerns over possible deterioration and a lack of documented history of preservation, led the Museums Victoria Marine Invertebrate Section and Conservation Department to undertake an audit to assess and document the current state of the collection. The aim of the assessment was to: establish baseline data covering the physical condition of specimens, jars and seals. assess the chemical properties of the preservation fluid. where required, undertake appropriate preventative and remedial treatment. data gathered from the audit will be loaded onto the museum’s database (EMu). As part of the audit, implementation of a storage location management system using Museums Victoria Wireless Input System for EMu (MVWISE) was incorporated into the project. Storage location management using MVWISE ensures that object and container records have their current Location updated in EMu when they are physically moved. Implementing object barcoding in a collection that is preserved in fluid where specimens are tiny and stored in vials is problematic. We report on the strategy used to overcome these issues without compromising the best practice for fluid preserved specimens. Advantages of barcoding the fluid preserved specimens of the Invertebrate Type Collection at Museums Victoria include the ability to easily audit the collection even when the taxonomic nomenclature has changed.
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Cruz-Rodríguez, Cristian, Julieth Stella Cárdenas, and Héctor E. Ramírez-Chaves. "Evaluating the Ethanol Levels and Storage Containers for Efficient Preservation of Historical Collections at the Museo De La Salle, Bogotá, Colombia." Collection Forum 35, no. 1 (January 1, 2021): 52–61. http://dx.doi.org/10.14351/0831-4985-35.1.52.

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Abstract The Museo de La Salle–Bogotá (MLS) houses biological specimens of which 30% (17,001 specimens) are stored in fluid (ethanol 70%). The collections have historical significance for documenting Colombian biodiversity and contain the oldest zoological specimens in the country. For these reasons, the curation and management of the specimens require special attention and endless vigilance. In this study we assessed the decrease in ethanol level in jars of the MLS fluid collections over a 3-year period from 2013 to 2016 and evaluated the relation between container and lid type and ethanol loss. We did not observe a relevant decrease in the percentage of ethanol levels during 2013–2016. However, the type of lid used influenced the amount of ethanol that evaporated; we found that the pressure and twist lids were more effective in maintaining the ethanol levels in the containers, since they have a pressurized rotation system that allows a more secure closure in contrast to the pressure cap, which does not prevent the evaporation of ethanol. Based on our evaluation, we suggest the use of pressure and twist closure caps or caps with a continuous thread closure type along with a tamper-evident seal between the jar mouth and the container cap to ensure a tight and secure seal for minimizing the risk of fluid loss and ensuring the preservation of fluid-fixed specimens of this historical collection.
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Zagorodniuk, I., and E. Ulyura. "The collections of Mykola Diukov and Viktor Drebentsiv in the National Museum of Natural History (Kyiv)." Visnyk of Lviv University. Biological series, no. 89 (October 13, 2023): 49–57. http://dx.doi.org/10.30970/vlubs.2023.89.05.

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The history of collections that became part of the academic zoological collection prior to the Second World War and which is now being housed in the National Museum of Natural History (NMNH), NAS of Ukraine was studied. The specimens in this collection had probably been kept in zoological centres of Kharkiv before. The collected specimens and their label data are considered as an important source for an entire series of reconstructions, such as the history of species, the history of research, the biographies of researchers, and the history of collections and museums. Along with bibliographic search and mentions of finds of species and their collectors, such data are promising for the reconstruction of important pages in the history of scientific research and scientific institutions. All such approaches were used to investigate the history of research related to the names of Mykola Diukov and Viktor Drebentsov (Drebentsiv) — two researchers who were not included in the list of the hundred most famous mammalogists of Ukraine (review of 2022), but turned out to be iconic persons. Their scientific careers turned out to be closely related to the Kharkiv plant protection centres, and both researchers carried out active research and collection work in the Kharkiv region and in a number of southern regions of Ukraine in the 1920s and early 1930s. The destinies of both of researchers took sharp turns during the period of Stalinist repressions in Ukraine (Union for the Freedom of Ukraine trial, Holodomor, political purges, etc.), and both left not only Kharkiv, but also Ukraine: Diukov ended up in Dagestan working in the plant protection system, whereas Drebentsov in Murmansk at the polar institute, and later in the regional museum of local history. In the new places, the researchers continued their zoological practices, collecting and organizing collections of vertebrate animals (mainly mammals and birds) and achieved a high level of recognition: Diukov became one of the key zoologists and nature popularisers in Dagestan, and so did Drebentsov in Murman. Their destinies turned out differently: M. Diukov was eventually repressed (spent five years in concentration camps) and went missing, whereas V. Drebentsov became a recipient of various state awards. The names of both researchers should be included in the registers of zoologists who formed the foundations of modern knowledge and collections. The authors associate the preservation and transfer of their collections with the activities of O. Myhulin, who in 1938 published the monograph “Mammals of the Ukrainian SSR”, which is largely based on the analysis of mammal collections.
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Davis, Andrew K., Natalie Woodall, Jake P. Moskowitz, Nikole Castleberry, and Byron J. Freeman. "Temporal Change in Fur Color in Museum Specimens of Mammals: Reddish-Brown Species Get Redder with Storage Time." International Journal of Zoology 2013 (2013): 1–6. http://dx.doi.org/10.1155/2013/876347.

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Museum collections have great value for zoological research, but despite careful preservation, over time specimens can show subtle changes in color. We examined the effect of storage time on fur color of two reddish-brown species, golden mice (Ochrotomys nuttalli) and eastern chipmunk (Tamias striatus). Using image analysis, we obtained color data (hue, saturation, and density) on 91 golden mice and 49 chipmunks from Georgia, USA. Analyses that considered body size, gender, and collection year showed significant effects of year on fur color of golden mice (hue and saturation) and of agouti color of chipmunks. Older specimens tended to be redder in color than newer specimens, consistent with a prior study of red bats (Lasiurus borealis). Hair samples showed reddening of fine body hairs, but not in thicker guard hairs. There was no temporal change in black or white stripe color in chipmunks, indicating that this temporal effect would be limited to species with reddish-brown fur. This effect may be caused by breakdown of eumelanin pigments (which make dark colors) over time, leaving a greater proportion of pheomelanin pigments (which make red colors). These results show that storage time needs to be considered in research projects where fur color is of importance.
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LIMA, ARTHUR DE, THIAGO SILVA LOBODA, MICHEL DONATO GIANETI, JOÃO PAULO CAPRETZ BATISTA DA SILVA, and MARIO DE PINNA. "Type specimens of Elasmobranchii in the Museu de Zoologia da Universidade de São Paulo (MZUSP)." Zootaxa 5296, no. 3 (May 29, 2023): 301–32. http://dx.doi.org/10.11646/zootaxa.5296.3.1.

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The type specimens of the subclass Elasmobranchii deposited in the Museu de Zoologia da Universidade de São Paulo are compiled in an annotated list, including updated measurements, verified collection data and recent photographs of holotypes and selected paratypes. Relevant information on the preservation condition of the specimens and their current taxonomic status are also provided. The collection holds a total of 135 lots of type specimens of elasmobranchs, three holotypes and seven paratypes in the division Selachii plus 16 holotypes, one neotype, and 108 paratypes in the division Batoidea (total specimen count: 137). Four paratypes were not located and one was donated to another institution, and publication mistakes in catalog numbers and locality assignments are corrected. The vast majority of specimens belong to the neotropical freshwater stingrays (subfamily Potamotrygoninae). The present catalogue intends to facilitate taxonomic research by providing access to updated information on type specimens of mostly large-sized taxa, which are notoriously difficult or impossible to examine outside of their home institution.
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Strekopytov, Stanislav. "Corrosive sublimate and its introduction as an insecticide for preserving natural history specimens in the eighteenth century." Archives of Natural History 48, no. 1 (April 2021): 22–41. http://dx.doi.org/10.3366/anh.2021.0686.

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By the mid-eighteenth century, the need to protect zoological and botanical collections from attacks of insects became pressing for the community of naturalists. Living ornamental and economically important plants and their seeds also needed to be protected from insects when transported by sail. John Ellis ( c.1710–1776), one of the pioneers of plant transportation, was instrumental in disseminating the knowledge of insecticidal properties of corrosive sublimate (mercury(II) chloride or mercuric chloride, HgCl2). Although the use of corrosive sublimate for the protection of zoological collections had been proposed by John Woodward (1665–1728) in 1696, it was probably not widely used by naturalists until Ellis had published his Directions for bringing over seeds in 1770, recommending this substance for the protection of living plants, seeds and specimens during transport. Ellis possibly learned about the insecticidal properties of corrosive sublimate from the emerging use of this compound to control bedbugs ( Cimex lectularius). The history of bedbug management in eighteenth-century London, and some early exterminators, including John Southall ( fl.1726–1738), George Bridges ( c.1695–1768) and Thomas Tiffin ( fl.1760–1783), are discussed. Only a few days after the Directions was printed, Ellis asked Thomas Davies ( c.1737–1812) to publish a method of preparing bird skins that involved corrosive sublimate and was probably involved in drafting it. Following these two publications, corrosive sublimate was frequently used for the preservation of natural history collections including bird skins and herbarium specimens.
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Dissertations / Theses on the topic "Zoological specimens – Collection and preservation"

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Elliott, Jennifer. "Studies on the preservation of flowers." Thesis, University of St Andrews, 2002. http://hdl.handle.net/10023/2693.

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A known method for the preservation of green foliage was adapted in order to preserve floral tissues, retaining the colour and texture, thereby providing a method suitable for the preservation of whole flowers. Initially, the effects of the existing foliage preservation process on floral tissues were studied and the resulting problems of limp sticky petals and colour loss were identified. Subsequently, with a knowledge of basic plant anatomy and of the properties of the main floral pigments, the anthocyanins, a series of experiments on petals and whole flowers were carried out in an attempt to rectify these problems and to incorporate the remedies into a method for preserving whole flowers. The problem of improving the texture and firmness of flower heads was tackled by investigating the effects of adding bulking or setting ingredients to the process fluid and establishing their optimum concentrations. In the case of flower colour, the addition of acid was required in order to maintain the bright anthocyanin colours and a range of acids was investigated. Furthermore, since it is known that in nature the anthocyanin pigments are stabilised by metal ions and copigments, the use of these agents in the preservation process was also considered. This empirical work was then validated by confirming the identity of the main pigments involved and by studying various aspects of the new preservation process. Factors examined included acid concentration, temperature, solvent composition and the addition of metal ions and copigments to solutions of petal extracts containing anthocyanin pigments. Physical changes resulting from processing, including process fluid content and the moisture absorption properties of processed petals were also measured. Finally, the application of a selection of coating materials was assessed in an attempt to increase the life span of the processed flowers by providing extra protection against environmental stresses.
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Arumugam, Preyan. "A critical assessment of the dendrochirotid subfamilies, sclerodactylinae and thyoninae, with the taxonomic management of the "supergenus" thyone (echinodermata : holothuroidea)." Thesis, 2011. http://hdl.handle.net/10413/9703.

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The key character separating the dendrochirotid families Sclerodactylidae (sensu Pawson & Fell, 1965) and the Phyllophoridae (sensu Pawson & Fell, 1965), i.e. entire or undivided radial processes to the calcareous ring in the former and sub-divided processes in the latter, is unjustified since most sclerodactylid species also have subdivided processes. It is here assumed that the basis of elevating the subfamily Sclerodactylinae Panning to family level was established on a misinterpretation or mistranslation of the original diagnosis of this subfamily or a lapsus calumni meaning “plates” instead of “processes”. Panning (1949) categorically states that the processes in the Sclerodactylinae are composed of 3–4 large pieces of calcite and only as an exception they are unbroken. Since Pawson & Fell gave no other distinction between the Sclerodactylidae and the Phyllophoridae, the former is here considered an invalid taxon and its three current subfamilies (Sclerodactylinae, Sclerothyoninae Thandar and Cladolabinae Heding & Panning) are re-assigned to the Phyllophoridae. This family now includes six subfamilies: Cladolabinae, Phyllophorinae Östergren, Sclerodactylinae, Sclerothyoninae, Semperiellinae Heding & Panning and Thyoninae Panning. The diagnosis of the Sclerodactylinae, restricted by Thandar (1989), is now modified to include also those forms whose radial and interradial plates may be slightly sub-divided but still form a short tube. Of the eleven genera placed within this subfamily subsequent to its erection, only ten of these remain. Neothyone Deichmann is a preoccupied name for which Lisacucumis is here proposed as a replacement. Thandar’s (1989) diagnosis of the Thyoninae is here accepted, however, the genus Thorsonia Heding is transferred to the Sclerodactylinae. Of the 66 nominal species which currently stand in the “supergenus” Thyone Jaeger, 10 are transferred to Havelockia Pearson within the Sclerodactylinae, while one species is regarded as a synonym of H. herdmani Pearson. In addition, six species are transferred to Stolus Selenka within the Thyoninae. Finally, three species are transferred to Sclerothyoninae, two within Sclerothyone Thandar and one within Temparena Thandar. Two species show an uncertain affinity to Thyone and are temporally removed from the genus. Furthermore, two species currently classified within Havelockia are transferred to Thyone. The now remaining 46 species are separated into seven groups based on the composition of their introvert deposits: tables only (8 spp.), rosettes only (5 spp.), tables and rosettes (21 spp.), tables and plates/?reduced tables (2 spp.), rosettes and plates/?reduced tables (3 spp.), plates only (2 spp.), or introvert deposits absent or unknown (5 spp.). Regrettably, no other character could be used in conjunction with the above to suggest at least sub-generic levels. Within the genus Havelockia, Cucumaria redimita Sluiter indicates an affinity with Pentamera Ayres. It is here transferred to this genus within the Thyoninae. Havelockia, now containing 17 species, is also revised. Keys, diagnoses and figures are provided for all nominal species now included in Thyone and Havelockia.
Thesis (M.Sc.)-University of KwaZulu-Natal, Westville, 2011.
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Books on the topic "Zoological specimens – Collection and preservation"

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S, Rainbow P., and Natural History Museum (London, England), eds. Specimens: The spirit of zoology. London: Natural History Museum, 2003.

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George, McGavin, and Gisbourne Mark 1948-, eds. Dead or alive: Natural history painting. London, UK: Black Dog Pub., 2002.

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V, Horie C., Manchester Museum (University of Manchester), and University of Manchester. Dept. of Environmental Biology, eds. Conservation of natural history specimens: Spirit collections. Manchester, UK: University of Manchester, 1989.

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Maddalena, Alessandro De. Great white sharks in United States museums. Jefferson, N.C: McFarland, 2009.

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Maddalena, Alessandro De. Great white sharks in United States museums. Jefferson, N.C: McFarland, 2009.

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Maddalena, Alessandro De. Great white sharks in United States museums. Jefferson, N.C: McFarland, 2009.

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Frost, Christopher. A history of British taxidermy. [Long Melford, Suffolk]: The Author, 1987.

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Frost, Christopher. A history of British taxidermy. Sudbury: Christopher Frost, 1987.

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Wiktor, Jadwiga. Bibliography of catalogues of type specimens in world's zoological and palaeozoological collections. Wrocław: Wrocław University Press, 1991.

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1944-, Walravens Hartmut, and Wetmore Alexander 1886-1978, eds. David Crockett Graham (1884-1961) as zoological collector and anthropologist in China. Wiesbaden: Harrassowitz, 2006.

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Book chapters on the topic "Zoological specimens – Collection and preservation"

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Hartman, Thomas P. V. "Fluid Preservation of Zoological Specimens." In Methods in Molecular Biology, 135–48. New York, NY: Springer New York, 2018. http://dx.doi.org/10.1007/978-1-4939-8935-5_14.

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Vieira, Kleber Silva, Washington Luis Silva Vieira, and Rômulo Romeu Nóbrega Alves. "An Introduction to Zoological Taxonomy and the Collection and Preparation of Zoological Specimens." In Springer Protocols Handbooks, 175–96. New York, NY: Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4614-8636-7_12.

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Collins, C. H., J. M. Grange, and M. D. Yates. "Collection, preservation and transport of specimens." In Organization and Practice in Tuberculosis Bacteriology, 31–35. Elsevier, 1985. http://dx.doi.org/10.1016/b978-0-407-00296-8.50007-8.

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"Collection and Preservation of Fecal Specimens." In Clinical Microbiology Procedures Handbook, Fourth Edition, 9.2.1–9.2.3.2. American Society of Microbiology, 2016. http://dx.doi.org/10.1128/9781555818814.ch9.2.

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"Collection and Preservation of Fecal Specimens." In Clinical Microbiology Procedures Handbook, 9.2.1–9.2.3.2. Washington, DC, USA: ASM Press, 2016. http://dx.doi.org/10.1128/9781555818814.ch9.2.1.

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"Collection and Preservation of Fecal Specimens." In Clinical Microbiology Procedures Handbook, 3rd Edition, 544–58. American Society of Microbiology, 2010. http://dx.doi.org/10.1128/9781555817435.ch9.2.

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Sriraman, P. K. "Collection and Preservation of Biological Specimens." In Wildlife Necropsy and Forensics, 24–49. CRC Press, 2021. http://dx.doi.org/10.1201/9781003172017-3.

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"Collection, Preservation, and Shipment of Fecal Specimens." In Diagnostic Medical Parasitology, Fifth Edition, 761–81. American Society of Microbiology, 2007. http://dx.doi.org/10.1128/9781555816018.ch26.

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"Collection, Preservation, and Shipment of Fecal Specimens." In Diagnostic Medical Parasitology, 6–25. Washington, DC, USA: ASM Press, 2015. http://dx.doi.org/10.1128/9781555819002.ch2.

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Kane, William M. "Preparation and Preservation of Fracture Specimens." In Fractography, 1–17. ASM International, 2024. http://dx.doi.org/10.31399/asm.hb.v12.a0006875.

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Abstract This article discusses the importance of the care and handling of fracture specimens and what to look for during the preliminary field or laboratory observation and collection, the preservation of specimens, and the cleaning and preparation of fracture specimens for additional analyses. The preservation of nonmetallic specimens, medical devices, oversized components, light alloys, nondestructively tested components, and materials that are part of legal proceedings is addressed.
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Conference papers on the topic "Zoological specimens – Collection and preservation"

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Sapaat, Arney, Siti Fatimah Sabran, and Maryati Mohamed. "Occurrence of Pest, the Management of Zoological Museum Specimens Collection and Climate Change." In 7th International Conference on Biological Science (ICBS 2021). Paris, France: Atlantis Press, 2022. http://dx.doi.org/10.2991/absr.k.220406.029.

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