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Books on the topic 'Life cycle representation'

Author: Grafiati
Published: 4 June 2021
Last updated: 13 February 2022

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1

Doran, Robert S., 1937- editor of compilation, Friedman, Greg, 1973- editor of compilation, and Nollet, Scott, 1962- editor of compilation, eds. Hodge theory, complex geometry, and representation theory: NSF-CBMS Regional Conference in Mathematics, June 18, 2012, Texas Christian University, Fort Worth, Texas. American Mathematical Society, 2013.

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2

Growing old in early modern Europe: Cultural representations. Ashgate, 2006.

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3

Daems, Aurelie. From a Bird’s Eye View. Edited by Timothy Insoll. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199675616.013.030.

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This chapter discusses human figurines from later Iranian prehistory and pays special attention to the figurines from the sites of Tepe Sarab, Zaghe, Hajji Firuz, and Choga Mish. It also presents an overview of human figurines produced at other Iranian sites. Drawing on the analyses of the figurines’ morphologies, materials used, production processes, contexts of disposition, breakage patterns, bodily details, and representation of attire, these figurine industries from the Neolithic and Chalcolithic periods of Iran have the potential to enlighten us about communal and private matters, bodily
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4

Kyo, Nishiyama, ed. Nilpotent orbits, associated cycles, and Whittaker models for highest weight representations. Société Mathématique de France, 2001.

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5

Fuchs, Judith, and Andreas Altenburger. Brachiopoda. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0036.

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This chapter describes the taxonomy of Brachiopoda, a phylum of exclusively marine, sessile, filter-feeding invertebrates. Brachiopods are meroplanktonik with a biphasic life cycle including planktonic larvae and sessile benthic adults. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This section also provides information on the taxonomic authorities responsible
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6

Nygaard, Taylor, and Jorie Lagerwey. Horrible White People. NYU Press, 2020. http://dx.doi.org/10.18574/nyu/9781479885459.001.0001.

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At the same time that reactionary conservative political figures like Donald Trump were elected and disastrous socioeconomic policies like Brexit were voted into law, representations of bleakly comic white fragility spread across television screens. Analyzing a cycle of transatlantic television programs that emerged mostly between 2014 and 2016 targeting affluent, liberal, white audiences, Horrible White People examines the complicity of the white Left, obsessed with its own anxiety and suffering, in the rise and maintenance of the Far Right—particularly in the mobilization, representation, an
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7

Castellani, Claudia, Maiju Lehtiniemi, and Kenneth Meland. Crustacea: Lophogastrida and Mysida. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0028.

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This chapter describes the taxonomy of Lophogastrida and Mysida, small shrimp-like crustaceans commonly known as ‘opossum shrimps’ because of the ventral brood pouch in the female. Because of their highly adaptive nature, they have progressively invaded new areas via new connections of water systems and through ballast water. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or fami
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8

Gorsky, Gaby, and Claudia Castellani. Chordata: Appendicularia. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0040.

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This chapter describes the taxonomy of Appendicularians (larvaceans), small free-swimming pelagic zooplankton. They belong to the phylum Chordata, which includes the vertebrates. Like other tunicates Appendicularia are relatively primitive forms compared to the vertebrates, although they exhibit three features that are common to all chordates at some stage in their life: gills slits, a tubular nerve cord, and a primitive spinal column, the notochord. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon
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9

Castellani, Claudia, Clare Buckland, Alistair J. Lindley, David V. P. Conway, and Antonina dos Santos. Crustacea: Stomatopoda. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0027.

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This chapter describes the taxonomy of Stomatopoda. Stomatopods, also known as mantis shrimps, because of their resemblance to a praying mantis, are a small order of marine malacostracan crustaceans related to shrimps, crabs, and lobsters. There are around 450 extant stomatopod species in the world and the majority of them live in tropical and sub-tropical regions, although a few species occur in temperate and boreal waters. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree
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10

Southward, Eve C. Crustacea: Cirripedia and Facetotecta. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0024.

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This chapter describes the taxonomy of Cirripedia and Facetotecta, two crustacean infraclasses of the subclass Thecostraca. The larvae of the Cirripedia and Facetotecta are fairly common in the plankton of the North Atlantic. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This section also provides information on the taxonomic authorities responsible for the cla
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Jonas, Tanya. Crustacea: Amphipoda. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0029.

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This chapter describes the taxonomy of Amphipoda, which contains over 9500 species worldwide. Most marine amphipods are benthic, but a few have lost their ancestral links with the seabed and are planktonic. The chapter covers their life cycle, ecology, general morphology, and identification. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This section also provides information on the taxonomic authorities responsible for the classi
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12

Conway, David V. P., Claudia Castellani, and Eve C. Southward. Echinodermata. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0034.

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This chapter describes the taxonomy of Echinodermata, a diverse group of organisms consisting systematically of five classes including sea stars (Asteroidea), brittle stars (Ophiuroidea), sea urchins (Echinoidea), sea cucumbers (Holothuroidea), and feather stars (Crinoidea). It covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This section also provides information on the taxo
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13

Fuchs, Judith, and John Bishop. Bryozoa. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0035.

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This chapter describes the taxonomy of Bryozoa, a phylum of small, aquatic invertebrates that comprises ~6000 known species. Bryozoa are meroplanktonic with a planktonic larval stage and a colonial, usually sessile, adult. The chapter covers their life cycle, ecology and distribution, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This section also provides information on the taxonomic authorities responsib
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14

Munk, Peter, and Jørgen G. Nielsen. Chordata: Fish eggs and larvae. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0041.

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This chapter describes the taxonomy of fish eggs and larvae. Most fish eggs and larvae are planktonic, and are commonly found in plankton net tows. Collectively these fish stages are referred to as ichthyoplankton. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This section also provides information on the taxonomic authorities responsible for the classification
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15

Stern, Rowena, Claire Taylor, Fabrice Not, and Johan Decelle. Protozooplankton: Radiolaria. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0016.

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This chapter describes the taxonomy of radiolaria. Radiolaria are amoeboid unicellular eukaryotes with mineral skeletons, often forming elaborate symmetrical lattice structures with spines. They form an abundant part of marine holoplankton from surface to deep waters. The chapter covers their life cycle, ecology and distribution, and identification. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This section also provides informat
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16

Stern, Rowena, Claire Taylor, and Saeed Sadri. Protozooplankton: Foraminifera. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0017.

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This chapter describes the taxonomy of foraminifera. Foraminifera are one of the most common shelled marine organisms and date back to the Cambrian era where they are responsible for the colour of the sediment on some shorelines. The chapter covers their life cycle, ecology and distribution, and generalized morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This section also provides information on the taxonomic authoritie
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17

Angel, Martin V., and Anthony W. G. John. Crustacea: Ostracoda. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0025.

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This chapter describes the taxonomy of Ostracoda, small bivalved crustaceans ranging in size from 0.2 to > 30 mm. The majority are benthic and belong to the subclass Podocopa. The chapter focuses on the holoplanktonic oceanic species. It covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This section also provides information on the taxonomic authorities responsible for the
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18

Buckland, Clare, Claudia Castellani, Alistair J. Lindley, and Antonina Dos Santos. Crustacea: Decapoda. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0026.

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This chapter describes the taxonomy of the Decapoda, the most species-rich order of Crustacea, with over 14,500 described extant species worldwide, commonly called shrimps, prawns, lobsters, or crabs. Decapods exhibit a vast diversity in shape, size, and colour. The chapter covers their life cycle, ecology, general morphology, and larval measurements. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This section also provides inform
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19

Castellani, Claudia, and Robert Camp. Anellida: Holoplanktonic Polychaeta. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0031.

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This chapter describes the taxonomy of Polychaeta, an almost exclusively marine group of organisms belonging to the phylum Annelida. With over 10,000 species described worldwide, they represent one of the most abundant animal taxa in the marine environment. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This section also provides information on the taxonomic aut
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20

Stern, Rowena, Heather Esson, and Cecilia Balestreri. Phytoplankton: Flagellates. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0014.

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This chapter describes the taxonomy of flagellates. Marine flagellates is an all-inclusive term which describes a plethora of different protist species scattered throughout different eukaryotic lineages that move using their flagella. Many flagellates also have other morphological life stages, but the chapter focuses on those taxa for which the flagellated form is predominant. It covers their life cycle, ecology and distribution, and toxic species. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representati
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21

Kraberg, Alexandra, and Rowena Stern. Phytoplankton: Dinoflagellates. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0013.

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This chapter describes the taxonomy of dinoflagellates. Dinoflagellates occur in marine, brackish, and freshwater habitats, although they are most diverse in the marine environment. About 90% are planktonic and responsible for a large proportion of primary productivity. Their evolutionary history and ability to acquire genes horizontally from unrelated organisms make dinoflagellates a functionally diverse and ecologically important group. The chapter begins with a general description of dinoflagellates. It then discusses their life cycle, ecology and distribution, harmful species, and systemat
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22

Licandro, Priscilla, Astrid Fischer, and Dhugal J. Lindsay. Cnidaria: Scyphozoa and Non-Colonial Hydrozoa. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0018.

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This chapter describes the taxonomy of scyphozoa and non-colonial hydrozoa. The Phylum Cnidaria assembles highly diverse primitive invertebrates that carry stinging cells called cnida. The presence of cnida, which are organized in specialized structures called cnidocysts (or nematocysts), makes the organisms of this group venomous to varying degrees. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter
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23

Licandro, Priscilla, and Dhugal J. Lindsay. Ctenophora. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0020.

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This chapter describes the taxonomy of ctenophores. The ctenophores, or comb jellies, are gelatinous metazoans belonging to a small and entirely marine phylum of about 150 species. They are mostly planktonic, with the exception of the benthic order Platyctenida, where only the larvae are planktonic. The chapter covers their life cycle, ecology, and generalizmorphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This section al
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Lindley, Alistair J. Crustacea: Euphausiacea. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0030.

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This chapter describes the taxonomy of Euphausiacea, exclusively marine holoplanktonic crustaceans commonly known as krill. Although not highly diverse, with only two families and ~ 86 species worldwide, they are often a major component of the biomass of the plankton and micronekton of the world's oceans. This chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This sect
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Pierrot-Bults, Annelies. Chaetognatha. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0033.

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This chapter describes the taxonomy of Chaetognatha, a small phylum of exclusively marine organisms with approximately 150 species currently recognized, of which about 70 are pelagic. Chaetognatha are also known as arrow worms because of their shape and quick darting movements in the water. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This section also provide
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Licandro, Priscilla, and Martina Brunetta. Chordata: Thaliacea. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0039.

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This chapter describes the taxonomy of Thaliacea, a class of the subphylum Tunicata encompassing pelagic organisms that, as all the other tunicates, have a body covered by a transparent cellulosic tunic. Thaliaceans are ubiquitous and they are common from coastal waters to the open ocean at all depths. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This section
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Kraberg, Alex, Rowena Stern, and Michaela Strüder-Kypke. Protozooplankton: Ciliates. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0015.

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This chapter describes the taxonomy of ciliates. Ciliates can be found in almost every environment; the majority of species, however, are aquatic and occur in marine, brackish, and freshwater habitats. They play a major role in nutrient cycling in the food web; some are also capable of photosynthesis through acquisition of chloroplasts from their prey. The chapter covers their life cycle, generalized morphology, and ecology and distribution. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illu
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28

Licandro, Priscilla, Claude Carré, and Dhugal J. Lindsay. Cnidaria: Colonial Hydrozoa (Siphonophorae). Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0019.

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This chapter describes the taxonomy of colonial Hydrozoa. Siphonophores are pelagic organisms that can be found the whole year round, sometimes in a characteristic season, inshore and offshore at all latitudes and depths. As in all hydrozoans, they carry tentacles equipped with stinging cells (nematocysts), which are used by the colony to immobilize and kill their prey. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustr
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29

Wooton, Marianne, and Claudia Castellani. Crustacea: Copepoda. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0022.

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This chapter describes the taxonomy of copepods. Copepods are small aquatic crustaceans and are considered to be one of the most abundant and diverse multi-cellular organisms on earth. Populating a wide range of aquatic habitats, from the deep ocean floor to high Himalayan freshwater lakes, copepods have many free-living as well as highly modified parasitic forms. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated i
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Castellani, Claudia. Crustacea: Branchiopoda. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0023.

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This chapter describes the taxonomy of Branchiopoda. Branchiopoda are small crustaceans commonly known as cladocerans or water-fleas. They are epiplanktonic zooplankton seasonally abundant mainly in coastal waters and over the continental shelf of warm temperate and tropical areas, with a few species found in oceanic areas and colder Arctic seas. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usu
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31

Lischka, Silke, and Holger Ossenbrügger. Mollusca: Holoplanktonic Molluscs. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0032.

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This chapter describes the taxonomy of Mollusca. Members of the phylum Mollusca are characterized by fleshy, muscular bodies often possessing either external or internal calcareous shells and include the familiar snails, clams, oysters, squid, and octopus. Aside from the Arthropoda, the Mollusca are one of the most conspicuous and diverse group of invertebrates. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in
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32

Kraberg, Alexandra, and Rowena Stern. Phytoplankton: Diatoms. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0012.

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This chapter describes the taxonomy of diatoms, one of the most abundant and diverse (morphologically and genetically) phytoplankton groups. They are responsible for at least 25% of global carbon dioxide fixation and 20% of net primary production. It covers their life cycle, general morphology, and ecology and distribution. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usually to genus or family level). This section also provides information on the taxonomic autho
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33

Fuchs, Judith. Phoronida. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0037.

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This chapter describes the taxonomy of Phoronida, a small group of exclusively marine invertebrates found in most of the world's oceans from the intertidal zone to about 400 metres depth. Phoronids are meroplanktonic with a planktonic larval stage usually less than 2 mm in length and a benthic adult whose length ranges from a few cm up to 50 cm. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life, and lists the key marine representative illustrated in the chapter (usua
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34

Conway, David V. P., Robert Camp, and Claudia Castellani. Rotifera. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199233267.003.0038.

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This chapter describes the taxonomy of Rotifera, which includes some of the smallest multicellular marine zooplankton. They range between 50 μ‎ to 500 μ‎m in length although some species can reach up to 3 mm in length. Rotifers are characterized by having a crown or corona of fine cilia on two lobes surrounding the mouth area which gives them their common name ‘wheel animals’although the corona only appears to rotate. The chapter covers their life cycle, ecology, and general morphology. It includes a section that indicates the systematic placement of the taxon described within the tree of life
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35

James, Philip. The Biology of Urban Environments. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198827238.001.0001.

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Urban environments are characterized by the density of buildings and elements of a number of infrastructures that support urban residents in their daily life. These built elements and the activities that take place within towns and cities create a distinctive climate and increase air, water, and soil pollution. Within this context the elements of the natural environment that either are residual areas representative of the pre-urbanized area or are created by people contain distinctive floral and faunal communities that do not exist in the wild. The diverse prions, viruses, micro-organisms, pla
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36

Alconini, Sonia, and Alan Covey. Conclusions: Appropriating the Inca. Edited by Sonia Alconini and Alan Covey. Oxford University Press, 2018. http://dx.doi.org/10.1093/oxfordhb/9780190219352.013.59.

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This chapter addresses the key concepts discussed in Part 8, which focused on the persistence of Inca identity and associated politics of performance, indigeneity, and “Incanism.” The ruptures of natural disasters and political upheaval have allowed Cuzco to be rebuilt in new cycles that invoke Inca identity in distinct ways, the most recent of these as a center of world heritage. At a broader level, the colonial-era broadening of Inca identity helped to sustain indigenous rebellions against Spanish colonial rule, and this persisted after independence, as the Incas became a national Peruvian s
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37

Havelková, Tereza. Opera as Hypermedium. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780190091262.001.0001.

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This book deals with contemporary relationships between opera and the media. It is concerned with both the use of media on stage and opera on screen. Drawing on the concept of hypermediacy from media studies, it situates opera within the larger context of contemporary media practices, and particularly those that play up the multiplicity, awareness, and enjoyment of media. The discussion is driven by the underlying question of what politics of representation and perception opera performs within this context. This entails approaching operas as audiovisual events (rather than works or texts) and
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