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Reproduction and Development in Mollusca / by T. J. Pandian.

By: Pandian, T. J [author.].
Contributor(s): Taylor and Francis.
Material type: materialTypeLabelBookSeries: Reproduction and Development in Aquatic Invertebrates: Publisher: Boca Raton, FL : CRC Press, [2018]Copyright date: ©2017Edition: First edition.Description: 1 online resource (320 pages) : 70 illustrations, text file, PDF.Content type: text Media type: computer Carrier type: online resourceISBN: 9781315200637.Subject(s): SCIENCE / Life Sciences / Biology / Marine Biology | SCIENCE / Life Sciences / Biology / Developmental Biology | Aestivating snails as biological weapon | Encapsulation and nurse eggs | Poecilogony and dispersal dimorphism | Symmetry and sinistrals | Thermal vents and cold seeps | Unique mtDNA determines sex | Mollusks -- Reproduction | Mollusks -- DevelopmentGenre/Form: Electronic books.Additional physical formats: Print version: : No titleDDC classification: 594 Online resources: Click here to view. Also available in print format.
Contents:
Introduction --Molluscan Science --Taxonomy and Distribution --Thermal Vents and Cold Seeps --Energy Budgets --Life Span and Generation Time --Spermatogenesis and Fertilization --Ontogenetic Development --Locomotion and Dispersal --Molluscan Fisheries -- Shell and Reproduction -- Structure and Diversity --Latitudes, Predators and Parasites --Shell and Resource Allocation --Symmetry and Sinistrals --Chemical Defense -- Sexual Reproduction -- Reproductive Systems --Gonochorism --Pathenogenesis --Hermaphroditism --Mates and Mating Systems --Alternative Mating System (AMS) --Multiple Paternity --Encapsulation and Nurse Eggs --Poecilogony and Dispersal Dimorphism --Brood Protection and Viviparity --Fecundity -- Regeneration and Asexual Reproduction -- Gastropods --Clio pyrimidata -- Aestivation -- Seasonal Aestivation --Tidal Aestivation --Biological Weapon -- Sex Determination --Inheritance of Color and Symmetry --Karyotypes and Heterogametism --Spawning Induction and Cryopreservation --Ploidy Induction and Gigantism --Mitochondrial Genome --Sex Determination Models -- Sex Differentiation -- Neuroendocrines --Steroid Hormones --Endocrines Disruption --Parasitic Disruption -- Ocean Acidification -- Chemistry of Seawater --Pelagic Molluscs --Benthic Molluscs --Persistent Carry-over Effects --Effects on Prey-Predators -- Uniqueness of Molluscs -- Shell and Iteroparity --Gamete Diversity --Gigantism and Polyploidy --Sexuality and Paternity --Double Uniparental Inheritance (DUI) --Vertebrate Type Steroids --Aestivation vs Cysts -- References
Abstract: This book is perhaps the first attempt to comprehensively project the uniqueness of molluscs, covering almost all aspects of reproduction and development from aplacophorans to vampyromorphic cephalopods. Molluscs are unique for the presence of protective external shell, defensive inking, geographic distribution from the depth of 9,050 m to an altitude of 4,300 m, gamete diversity, the use of nurse eggs and embryos to accelerate the first few mitotic divisions in embryos, the natural occurrence of androgenics in a couple of bivalves, viable induced tetraploids, gigantism induced by elevated ploidy, the complementary role played by mitochondrial genome in sex determination by nuclear genes and the uptake and accumulation of steroid hormone from surrounding waters. In molluscs, sexuality comprises of gonochorism (< 75 %) and hermaphroditism, which itself includes simultaneous (> 24%), protandry (< 1 %), Marian and serial. In them, the presence of shell affords iteroparity and relatively longer life span in prosobranchs and bivalves but its absence semelparity and short life span in opisthobranchs and cephalopods. Within semelparity, gonochorism facilitates faster growth and larger body size but hermaphroditism small body size. In them, sex is irrevocably determined at fertilization by a few unknown genes and is not amenable to any environmental influence. However, the sex determining mechanism is more a family trait in bivalves. Primary sex differentiation is also fixed and not amenable to environmental factor but secondary differentiation is labile, protracted and amenable to environmental factors. Both sex differentiation and reproductive cycle are accomplished and controlled solely by neurohormones. In these processes, the role of steroid hormones may be alien to molluscs.
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Includes bibliographical references and index.

Introduction --Molluscan Science --Taxonomy and Distribution --Thermal Vents and Cold Seeps --Energy Budgets --Life Span and Generation Time --Spermatogenesis and Fertilization --Ontogenetic Development --Locomotion and Dispersal --Molluscan Fisheries -- Shell and Reproduction -- Structure and Diversity --Latitudes, Predators and Parasites --Shell and Resource Allocation --Symmetry and Sinistrals --Chemical Defense -- Sexual Reproduction -- Reproductive Systems --Gonochorism --Pathenogenesis --Hermaphroditism --Mates and Mating Systems --Alternative Mating System (AMS) --Multiple Paternity --Encapsulation and Nurse Eggs --Poecilogony and Dispersal Dimorphism --Brood Protection and Viviparity --Fecundity -- Regeneration and Asexual Reproduction -- Gastropods --Clio pyrimidata -- Aestivation -- Seasonal Aestivation --Tidal Aestivation --Biological Weapon -- Sex Determination --Inheritance of Color and Symmetry --Karyotypes and Heterogametism --Spawning Induction and Cryopreservation --Ploidy Induction and Gigantism --Mitochondrial Genome --Sex Determination Models -- Sex Differentiation -- Neuroendocrines --Steroid Hormones --Endocrines Disruption --Parasitic Disruption -- Ocean Acidification -- Chemistry of Seawater --Pelagic Molluscs --Benthic Molluscs --Persistent Carry-over Effects --Effects on Prey-Predators -- Uniqueness of Molluscs -- Shell and Iteroparity --Gamete Diversity --Gigantism and Polyploidy --Sexuality and Paternity --Double Uniparental Inheritance (DUI) --Vertebrate Type Steroids --Aestivation vs Cysts -- References

This book is perhaps the first attempt to comprehensively project the uniqueness of molluscs, covering almost all aspects of reproduction and development from aplacophorans to vampyromorphic cephalopods. Molluscs are unique for the presence of protective external shell, defensive inking, geographic distribution from the depth of 9,050 m to an altitude of 4,300 m, gamete diversity, the use of nurse eggs and embryos to accelerate the first few mitotic divisions in embryos, the natural occurrence of androgenics in a couple of bivalves, viable induced tetraploids, gigantism induced by elevated ploidy, the complementary role played by mitochondrial genome in sex determination by nuclear genes and the uptake and accumulation of steroid hormone from surrounding waters. In molluscs, sexuality comprises of gonochorism (< 75 %) and hermaphroditism, which itself includes simultaneous (> 24%), protandry (< 1 %), Marian and serial. In them, the presence of shell affords iteroparity and relatively longer life span in prosobranchs and bivalves but its absence semelparity and short life span in opisthobranchs and cephalopods. Within semelparity, gonochorism facilitates faster growth and larger body size but hermaphroditism small body size. In them, sex is irrevocably determined at fertilization by a few unknown genes and is not amenable to any environmental influence. However, the sex determining mechanism is more a family trait in bivalves. Primary sex differentiation is also fixed and not amenable to environmental factor but secondary differentiation is labile, protracted and amenable to environmental factors. Both sex differentiation and reproductive cycle are accomplished and controlled solely by neurohormones. In these processes, the role of steroid hormones may be alien to molluscs.

Also available in print format.

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