DOCSLIB.ORG

Download the Human Body: Linking Structure and Function Free

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Download the Human Body: Linking Structure and Function Free THE HUMAN BODY: LINKING STRUCTURE AND FUNCTION DOWNLOAD FREE BOOK Bruce A. Carlson | 272 pages | 15 Jun 2018 | Elsevier Science Publishing Co Inc | 9780128042540 | English | San Diego, United States Tissues, organs, & organ systems The structure and tissues of plants are of a dissimilar nature and they are studied in plant anatomy. Great Ideas in the History of Surgery. Retrieved 23 June McGraw Hill Higher Education. Andreas Vesalius of Brussels, — Functional anatomy of the vertebrates: an evolutionary perspective. The breakdown of glucose does release energy. The human heart is a responsible for pumping blood throughout our body. In addition to skin, the integumentary system includes hair and nails. And Why? Scottish Medical Journal. Be the first to write a review. Microtubules consists of a strong protein called tubulin and The Human Body: Linking Structure and Function are the 'heavy lifters' of the cytoskeleton. Initially, the membrane transport protein also called a carrier is in its closed configuration which does not allow substrates or other molecules to enter or leave the cell. Your Immune System: Information from the CDC about each organ in the lymphatic system, where it is found, and what they produce. Body plan Decapod anatomy Gastropod anatomy Insect morphology Spider anatomy. If you think about it, it's pretty amazing that the human body can do all of these things and more. As part of the immune system, the primary function of the lymphatic system is to transport a clear and colorless infection- fighting fluid called lymph, which contains white blood cells, throughout the body via the lymphatic vessels. An accomplished teacher, Dr. In frogs the pelvic girdle is robust and the hind legs are much longer and stronger than the forelimbs. Oxford: Blackwell Publishing. If you wish to place a tax exempt order please contact us. Its main job is to make is The Human Body: Linking Structure and Function make and move lymph, a clear fluid that contains white blood cells, which help the body fight infection. Organized by organ system, this succinct publication presents the functional relevance of developmental studies and integrates anatomical function with structure. Then, the substrate can enter the cell. Harper Collins. Mitochondria are found exclusively in eukaryotic The Human Body: Linking Structure and Function. The Lymphoid System and Immunity 9. The dermis is covered with overlapping scales. The nervous system controls both voluntary action like conscious movement and involuntary actions like breathingand sends signals to different parts of the body. Resources in your library Resources in other libraries. Reviews 0. Within the lungs, oxygen and carbon dioxide are exchanged via the alveoli, which are tiny air sacs where this action takes place. Call us at Canada: Or mail support acls. Human anatomy is one of the essential basic sciences that are applied in medicine. The lesson plan includes parts from part A to part D. The students went from the dissecting room to the hospital ward and examined women in childbirth. The Vertebrate Body. Below you will find a brief overview The Human Body: Linking Structure and Function each body system along with helpful educational links for adults and instructional links for teachers. Collagen plays a major part in organizing and maintaining tissues. Osteoblasts produce a protein mixture called osteoid, which is mineralized and becomes bone. Mammals have three bones in the middle ear and a cochlea in the inner ear. The circulatory system consists of the heart and blood vessels which encompass all of the arteries, veins, and capillaries. Bones: All you need to know Even though glycolysis, overall, releases energy, some energy must be added initially to break the necessary bonds and get the The Human Body: Linking Structure and Function reactions started. But, how, specifically, is the energy released in the breakdown of glucose used to make ATP? They protect tendons from wear and stress. There are three types of muscle: skeletal muscle which is connected to bone and helps with voluntary movement, smooth muscle which is found inside organs and helps to move substances through organs, and cardiac muscle which is found in the heart and helps pump blood. In BCE, the Edwin Smith Papyrusan Ancient Egyptian medical textdescribed the heartits vessels, liverspleenkidneyshypothalamusuterus and bladderand showed the blood vessels diverging from the heart. Human anatomy is one of the essential basic sciences that are applied in medicine. If one part of the skeleton is put under increased stress over time, for instance, during sport or exercise, the sections of bone under most pressure will become thicker in response. The eyes are relatively large, particularly in nocturnal species such as owls. Flat bones include most of the bones of the skull and the sternum or breastbone. Mammals are amniotesand most are viviparousgiving birth to live young. This causes a conformational change or, in other words, an 'opening' in the protein through which a substance e. The Golgi functions as a cellular post office. Learn more about mattresses for…. Focuses on bodily functions and the human body's unique structure Offers insights into disease and disorders and their likely anatomical origin Explains how developmental lineage influences the integration of organ systems The outer surface of the epidermis is normally formed of epithelial cells and secretes an extracellular matrix which provides support to the organism. The The Human Body: Linking Structure and Function is wide and usually has a keel and the caudal vertebrae are fused. Introduction to the Biology of The Human Body: Linking Structure and Function Musculoskeletal System. Archived from the original on 2 June Kids Health: Your Skin: Educational information about each layer of the skin in an easy to understand format. Every day this system produces at least 1 to 2 quarts The Human Body: Linking Structure and Function urine. Bones are more than just the scaffolding that holds the body together. The main purpose of the circulatory system is to transport blood, oxygen, nutrients, and hormones to and from different cells and tissues throughout the body. Free Shipping Free global shipping No minimum order. Author: Bruce Carlson. In this article, we explain their function, what they are made of, and the types of cells involved. Want to Read Currently Reading Read. Read more Retrieved 19 March To ask other readers questions about The Human Bodyplease sign up. Structure of a typical eukaryotic cell Source: training. Journal of Zoo and Wildlife Medicine. Each chapter is designed to be easily understood, making the reading interesting and approachable. Teen Health: Female Reproductive System: Provides educational information for teen girls about the female reproductive system. They mostly spawn a large number of small eggs with little yolk which they broadcast into the water column. Retrieved 25 June The Human Body: Linking Structure and Function In addition to skin, the integumentary system includes hair and nails. The Human Body, Linking Structure and Function by Bruce Carlson Categories : Anatomy Anatomical terminology Branches of biology Morphology biology. Special Senses — Vision and Hearing 8. The spleen is the largest lymphatic organ and is responsible for producing both red and white blood cells and helps to detect dangerous microorganisms, viruses, and bacteria within the blood. The Human Body: Linking Structure and Function muscle has no striations when examined microscopically. Bones are essentially living cells embedded in a mineral-based organic matrix. Main article: Fish anatomy. Our skin also helps regulate body temperature and eliminate waste through perspiration. The main types are loose connective tissue, adipose tissuefibrous connective tissue, cartilage and bone. Proteins that require special conditions or are destined to become part of the cell membrane are processed in the ER and then handed off to another organelle called the Golgi apparatus. Fibrous joint Cartilaginous joint Synovial joint. Epithelial Cells. Teens Health: Spleen and Lymphatic System: Provides information about the basic anatomy of the lymphatic system, how it works, and disease conditions associated with this system. The cells of single-cell protozoans have the same basic structure as those of multicellular animals but some parts are specialized into the equivalent of tissues and organs. Retrieved 28 June DNA Deoxyribonucleic acid - controls cell function via transcription and translation in other words, by controlling protein synthesis in a cell. Cell membrane. The Nervous System 7. For the anatomy of plants, see Plant anatomy. The Endocrine System The brain and heart are more primitive than those of other reptiles, and the lungs have a single chamber and lack bronchi. Dictionary of Scientific Biography. Cells — Fundamental Units of Life 2. The kidneys take urea out of the blood and combine The Human Body: Linking Structure and Function with water and other substances to make urine. See also our heart anatomy chart for specific information on the heart. Molecular anatomy often called molecular biology is the study of the smallest components of The Human Body: Linking Structure and Function at the biochemical level. Mitochondria are found exclusively in eukaryotic cells. Also, defective and old red blood cells are destroyed in bone marrow. Category Commons. The breakdown of glucose does release energy. Evolution Human prehistory. Organized by organ system, this succinct
Load more

Recommended publications
  • Making Spherical-Harmonics-Based Geometric Morphometrics
    Takustr. 7 Zuse Institute Berlin 14195 Berlin Germany YANNIC EGE,CHRISTIAN FOTH,DANIEL BAUM1, CHRISTIAN S. WIRKNER,STEFAN RICHTER Making spherical-harmonics-based Geometric Morphometrics (SPHARM) approachable for 3D images containing large cavity openings using Ambient Occlusion - a study using hermit crab claw shape variability 1 0000-0003-1550-7245 This is a preprint of a manuscript that will appear in Zoomorphology. ZIB Report 20-09 (March 2020) Zuse Institute Berlin Takustr. 7 14195 Berlin Germany Telephone: +49 30-84185-0 Telefax: +49 30-84185-125 E-mail: [email protected] URL: http://www.zib.de ZIB-Report (Print) ISSN 1438-0064 ZIB-Report (Internet) ISSN 2192-7782 Making spherical-harmonics-based Geometric Morphometrics (SPHARM) approachable for 3D images containing large cavity openings using Ambient Occlusion - a study using hermit crab claw shape variability Yannic Ege1, Christian Foth2, Daniel Baum3, Christian S. Wirkner1, Stefan Richter1 1Allgemeine & Spezielle Zoologie, Institut für Biowissenschaften, Universität Rostock, Rostock, Germany 2Department of Geosciences, Université de Fribourg, Fribourg, Switzerland 3ZIB - Zuse Institute Berlin, Berlin, Germany Correspondence : Yannic Ege, Allgemeine & Spezielle Zoologie, Institut für Biowissenschaften, Universität Rostock, Universitätsplatz 2, 18055 Rostock, Germany. E : [email protected] Abstract An advantageous property of mesh-based geometric morphometrics (GM) towards landmark-based approaches, is the possibility of precisely eXamining highly irregular shapes and highly topographic surfaces. In case of spherical-harmonics-based GM the main requirement is a completely closed mesh surface, which often is not given, especially when dealing with natural objects. Here we present a methodological workflow to prepare 3D segmentations containing large cavity openings for the conduction of spherical-harmonics-based GM.
    [Show full text]
  • Comparative Aspects of the Control of Posture and Locomotion in The
    Louisiana State University LSU Digital Commons LSU Doctoral Dissertations Graduate School 2008 Comparative aspects of the control of posture and locomotion in the spider crab Libinia emarginata Andres Gabriel Vidal Gadea Louisiana State University and Agricultural and Mechanical College, [email protected] Follow this and additional works at: https://digitalcommons.lsu.edu/gradschool_dissertations Recommended Citation Vidal Gadea, Andres Gabriel, "Comparative aspects of the control of posture and locomotion in the spider crab Libinia emarginata" (2008). LSU Doctoral Dissertations. 3617. https://digitalcommons.lsu.edu/gradschool_dissertations/3617 This Dissertation is brought to you for free and open access by the Graduate School at LSU Digital Commons. It has been accepted for inclusion in LSU Doctoral Dissertations by an authorized graduate school editor of LSU Digital Commons. For more information, please [email protected]. COMPARATIVE ASPECTS OF THE CONTROL OF POSTURE AND LOCOMOTION IN THE SPIDER CRAB LIBINIA EMARGINATA A Dissertation Submitted to the Graduate Faculty of Louisiana State University and Agricultural and Mechanical College in partial fulfillment of the requirements for the degree of Doctor of Philosophy in The Department of Biological Sciences by Andrés Gabriel Vidal Gadea B.S. University of Victoria, 2003 May 2008 For Elsa and Roméo ii ACKNOWLEDGEMENTS The journey that culminates as I begin to write these lines encompassed multiple countries, languages and experiences. Glancing back at it, a common denominator constantly appears time and time again. This is the many people that I had the great fortune to meet, and that many times directly or indirectly provided me with the necessary support allowing me to be here today.
    [Show full text]
  • Larval Growth
    LARVAL GROWTH Edited by ADRIAN M.WENNER University of California, Santa Barbara OFFPRINT A.A.BALKEMA/ROTTERDAM/BOSTON DARRYL L.FELDER* / JOEL W.MARTIN** / JOSEPH W.GOY* * Department of Biology, University of Louisiana, Lafayette, USA ** Department of Biological Science, Florida State University, Tallahassee, USA PATTERNS IN EARLY POSTLARVAL DEVELOPMENT OF DECAPODS ABSTRACT Early postlarval stages may differ from larval and adult phases of the life cycle in such characteristics as body size, morphology, molting frequency, growth rate, nutrient require­ ments, behavior, and habitat. Primarily by way of recent studies, information on these quaUties in early postlarvae has begun to accrue, information which has not been previously summarized. The change in form (metamorphosis) that occurs between larval and postlarval life is pronounced in some decapod groups but subtle in others. However, in almost all the Deca- poda, some ontogenetic changes in locomotion, feeding, and habitat coincide with meta­ morphosis and early postlarval growth. The postmetamorphic (first postlarval) stage, here­ in termed the decapodid, is often a particularly modified transitional stage; terms such as glaucothoe, puerulus, and megalopa have been applied to it. The postlarval stages that fol­ low the decapodid successively approach more closely the adult form. Morphogenesis of skeletal and other superficial features is particularly apparent at each molt, but histogenesis and organogenesis in early postlarvae is appreciable within intermolt periods. Except for the development of primary and secondary sexual organs, postmetamorphic change in internal anatomy is most pronounced in the first several postlarval instars, with the degree of anatomical reorganization and development decreasing in each of the later juvenile molts.
    [Show full text]
  • Phylogenetic Systematics of the Reptantian Decapoda (Crustacea, Malacostraca)
    Zoological Journal of the Linnean Society (1995), 113: 289–328. With 21 figures Phylogenetic systematics of the reptantian Decapoda (Crustacea, Malacostraca) GERHARD SCHOLTZ AND STEFAN RICHTER Freie Universita¨t Berlin, Institut fu¨r Zoologie, Ko¨nigin-Luise-Str. 1-3, D-14195 Berlin, Germany Received June 1993; accepted for publication January 1994 Although the biology of the reptantian Decapoda has been much studied, the last comprehensive review of reptantian systematics was published more than 80 years ago. We have used cladistic methods to reconstruct the phylogenetic system of the reptantian Decapoda. We can show that the Reptantia represent a monophyletic taxon. The classical groups, the ‘Palinura’, ‘Astacura’ and ‘Anomura’ are paraphyletic assemblages. The Polychelida is the sister-group of all other reptantians. The Astacida is not closely related to the Homarida, but is part of a large monophyletic taxon which also includes the Thalassinida, Anomala and Brachyura. The Anomala and Brachyura are sister-groups and the Thalassinida is the sister-group of both of them. Based on our reconstruction of the sister-group relationships within the Reptantia, we discuss alternative hypotheses of reptantian interrelationships, the systematic position of the Reptantia within the decapods, and draw some conclusions concerning the habits and appearance of the reptantian stem species. ADDITIONAL KEY WORDS:—Palinura – Astacura – Anomura – Brachyura – monophyletic – paraphyletic – cladistics. CONTENTS Introduction . 289 Material and methods . 290 Techniques and animals . 290 Outgroup comparison . 291 Taxon names and classification . 292 Results . 292 The phylogenetic system of the reptantian Decapoda . 292 Characters and taxa . 293 Conclusions . 317 ‘Palinura’ is not a monophyletic taxon . 317 ‘Astacura’ and the unresolved relationships of the Astacida .
    [Show full text]
  • The Study of Nephridia and Genital Ducts Since 1895 (Continued)
    The Study of Nephridia and Genital Ducts since 1895 (continued). By Edwin S. Goodrich, F.B.S. Department of Zoology and Comparative Anatomy, University Museum, Oxford. With 100 Text-figures. CONTENTS. ARTHROPOD A, p. 303. Peripatiodea, with Segmental Coelomo- ducts mostly excretory, p. 305. Crustacea, possibly with remnants of Nephridia, p. 308. Summary, p. 317. Arachnida, p. 318. Chilopoda, Chilognatha, Symphyla, Insecta Hexa- poda, p. 320. General summary for Arthropoda, p. 322. MOLLUSCA, p. 324. Larval Protonephridia and Adult Coelomic Kidneys and Genital Ducts, p. 325. Relation of these to Germ- layers, p. 327. Their Interpretation as Coelmoducts, p. 329. Gastropoda, p. 328. Lamellibranchia, p. 330. Possible segmentation, Solenogastnes, Polyplaca- phora, Cephalopoda, p. 330. Development of Larval Protonephridia, p. 331. General summary for Mollusca, p. 334. Acanthocephala, p. 337. Priapulida, p. 339. Chaeto- gnatha, p. 342. Sipunculida, p. 344. Phoronida, p. 345. Brachiopoda, p. 349. Hemichordata, p. 349. Tunicata, p. 349. Echinodermata, p. 352. Vertebrata, p. 353. General Morphology of the Excretory Tubules and Genital Ducts of Craniata, p. 353. Protonephridia of the Acrania; paired Protonephridia, p. 358. The Unpaired Protonephridium of Hatschek, p. 364. Development of Hatschek's Protonephridium, p. 364. Development of the paired Protonephridia, p. 367. GENERAL CONCLUSION 373 SUMMARY ........... 378 Phylum Arthropoda. Before 1895 various authors (Leydig, Kowalevsky, Lankester, Sedgwick, Grobben, Weldon, Allen, and others) had compared the excretory organs of the Arthropoda to the segmental organs of the Annelida. These arthropod organs were then and are still now often called 'nephridia'. But the comparison was general and somewhat vague, since at that time the distinction between 4 rue nephridia and coelomoducts had not yet been pointed out.
    [Show full text]
  • The Evolutionary Transition to Sideways-Walking Gaits In
    Arthropod Structure & Development 42 (2013) 443e454 Contents lists available at ScienceDirect Arthropod Structure & Development journal homepage: www.elsevier.com/locate/asd The evolutionary transition to sideways-walking gaits in brachyurans was accompanied by a reduction in the number of motor neurons innervating proximal leg musculature Andrés G. Vidal-Gadea a,*, Jim H. Belanger b,1 a Biological Sciences, Louisiana State University, Baton Rouge, LA, USA b Department of Biology, West Virginia University, 3139 Life Sciences Building, Morgantown, WV 26506, USA article info abstract Article history: The forwards-walking portly crab, Libinia emarginata is an ancient brachyuran. Its phylogenetic position Received 19 April 2013 and behavioral repertoire make it an excellent candidate to reveal the adaptations, which were required Accepted 16 July 2013 for brachyuran crabs to complete their transition to sideways-walking from their forwards-walking ancestors. Previously we showed that in common with other forwards-walking (but distantly related) Keywords: crustaceans, L. emarginata relies more heavily on its more numerous proximal musculature to propel Crustacea itself forward than its sideways-walking closer relatives. We investigated if the proximal musculature of Locomotion L. emarginata is innervated by a greater number of motor neurons than that of sideways-walking bra- Neuroethology Anatomy chyurans. We found the distal musculature of spider crabs is innervated by a highly conserved number of motor neurons. However, innervation of its proximal musculature is more numerous than in closely- related (sideways-walking) species, resembling in number and morphology those described for forwards-walking crustaceans. We propose that transition from forward- to sideways-walking in crus- taceans involved a decreased role for the proximal leg in favor of the more distal merusecarpus joint.
    [Show full text]
  • Journal of Anatomy and Physiology
    (Tos) INDEX TO THE JOURNAL OF ANATOMY AND PHYSIOLOGY NORMAL AND PATHOLOGICAL, HUMAI^ AISTD OOMPAEATIYE. VOLS. XXL—XXX. 1887-1896. 7 .. <( INDEX TO THE JOURNAL OF ANATOMY AND PHYSIOLOGY NORMAL AND PATHOLOGICAL, HUMAN AND COMPAKATIVE. VOLS. XXL-XXX.-1887-1896. NEW SERIES, VOLS. I.-X. LONDON: CHARLES GRIFFIN AND COMPANY, Ld. EXETER STREET, STRAND. 1897. ft'^Y 5 2 1966 ) Qn '"; 10?8S^ ' T6 PREFATORY NOTE. This Index to Vols. XXT.-XXX. of the Journal of Anatomy and Physiology has been compiled, under the direction of the Anatomical Society of Great Britain and Ireland, by Mr A. W. Kappel, by whom the Index to Vols. I. to XX., issued with Vol. XXVIII., had also been prepared. The Index appears in Vol. XXXI. of the Journal. The Editors desire to acknow- ledge their indebtedness to the Society, and to express their thanks for the handsome contribution from its funds towards this object. It should be explained that the Roman numerals mark the Volume and the Arabic numerals the page ; but when the Eomau numeral is preceded by the letter p., the page of the Proceedings of the Anatomical Society in the volume is referred to. ; ; INDEX. Abbe's Apochromatic Micro-objectives xxv. 154 ; Blood Supply of Displaced and Compensating Eye-pieces Kidney, xxviii. 304 ; Branches of (Sclmlze), xxi. 515-524. Abdominal Aorta, xxvii. p. iv ; Car- Abbott, F. C, Specimen of Right diac Valves (Lawrence), xxv. pp. xv- Aortic Arch, xxvi. p. xiii ; Specimen xvii ; Course of Left Phrenic Nerve of Left Aortic Arch with Abnormal relative to Sub-clavian Vein, xxviii.
    [Show full text]
  • THE UNIVERSITY of HULL Effects of Hypersalinity on the Behaviour
    THE UNIVERSITY OF HULL Effects of hypersalinity on the behaviour, physiology and survival of commercially important North Sea crustaceans being a Thesis submitted for the Degree of Doctor of Philosophy in the University of Hull by Katie Louise Smyth, B.Sc. (hons), M.Sc. (dist) September 2011 i Contents Contents ................................................................................................................................ i List of figures ......................................................................................................................... v List of tables .......................................................................................................................... vii Glossary ................................................................................................................................ ix List of abbreviations used in this thesis ................................................................................ ix Acknowledgements................................................................................................................ x Abstract ................................................................................................................................. xi Chapter 1 General Introduction ...................................................................................... 1 1.1 Salinity ................................................................................................................................ 1 1.1.1 Importance of salinity to
    [Show full text]
  • Sexual Dimorphism in Aegla Marginata (Decapoda: Anomura)
    Nauplius 20(1): 75-86, 2012 75 Sexual dimorphism in Aegla marginata (Decapoda: Anomura) André Trevisan, Murilo Zanetti Marochi, Marcelo Costa, Sandro Santos and Setuko Masunari (AT, MZM, MC, SM) Department of Zoology, Institute of Biological Sciences, Federal University of Paraná. Centro Politécnico, Jardim das Américas, Caixa Postal 19020, 81531-980, Curitiba, Paraná, Brazil. E-mails: (AT) [email protected]; (SM) [email protected] (SS) Laboratory of Carcinology, Federal University of Santa Maria. Av. Roraima 1000, Cidade Universi- tária, Bairro Camobi, 97105-900, Santa Maria, Rio Grande do Sul, Brazil. E-mail: [email protected] Abstract A study on sexual dimorphism in Aegla marginata was conducted using geometric morphometric methods. The carapace of 47 females and 75 males and the left and right cheliped propodus of 29 females and 40 males were analyzed. Eighteen landmarks were established in the carapace and 10 in the cheliped propodus. A Generalized Procrustes Analysis based on landmark configurations was used to separate the components of size and shape. A Student t-test was used to determine whether statistically significant sexual dimorphism was shown by the carapace and the cheliped propodus. The variation in the shape of the structures was evaluated with a discriminant analysis. Our results show that there is no sexual dimorphism in the carapace of A. marginata. However, the size of the propodus differed statistically between the sexes. The carapace shape differed between the sexes: the females showed a wider posterior area and a narrower anterior area than the males. The shape of the cheliped propodus also differed between the sexes: overall, the females had a longer and narrower cheliped propodus than the males.
    [Show full text]
  • Serotonergic and Octopaminergic Systems in the Squat Lobster Munida Quadrispina (Anomura, Galatheidae)
    THE JOURNAL OF COMPARATIVE NEUROLOGY 439:450–468 (2001) Serotonergic and Octopaminergic Systems in the Squat Lobster Munida quadrispina (Anomura, Galatheidae) BRIAN L. ANTONSEN1 AND DOROTHY H. PAUL2* 1Biology Department, Georgia State University, Atlanta, Georgia 2Biology Department, University of Victoria, BC, Canada V8W 3N5 ABSTRACT Immunocytochemical mapping of serotonergic and octopaminergic neurons in the central nervous system of the squat lobster Munida quadrispina reveal approximately 120 serotonin- immunoreactive cell bodies (distributed throughout the neuromeres except in abdominal gan- glion 5) and 48 octopamine-immunoreactive cell bodies (in brain and thoracic neuromeres but none in the circumesophageal or abdominal ganglia). Immunopositive neuropils for both amines are distributed in multiple areas in each neuromere and overlap extensively. Serotonergic and octopaminergic neurons have extensive bilateral projections in abdominal ganglia, whereas the majority of projections in thoracic and subesophageal ganglia are unilateral (contralateral to soma). This difference correlates with typical differences between abdominal and thoracic motor system coordination. Processes of immunoreactive cells for both amines form extensive, periph- eral, neurosecretory-like structures. Serotonin seems to be released peripherally in more seg- ments, and from more nerves per segment, than octopamine. M. quadrispina has fewer seroto- nergic and octopaminergic immunoreactive cells, in particular, fewer segmentally repeated cells, than other species studied to date. Nevertheless, the general organization of the aminergic systems is similar, and several aminergic cells have locations and morphologies that strongly suggest homology with identified aminergic cells in other crustaceans. Among these are segmen- tally repeated neurons that, in M. quadrispina, form serotonin-immunopositive tubular struc- tures in the thoracic hemiganglia innervating pereiopods 1–3 that are unlike anything reported previously for any species.
    [Show full text]
  • Morphological Requirements in Limulid and Decapod Gills: a Case Study in Deducing the Function of Lamellipedian Exopod Lamellae
    Morphological requirements in limulid and decapod gills: A case study in deducing the function of lamellipedian exopod lamellae YUTARO SUZUKI, AKIYOSHI KONDO, and JAN BERGSTRÖM Suzuki, Y., Kondo, A., and Bergström, J. 2008. Morphological requirements in limulid and decapod gills: A case study in deducing the function of lamellipedian exopod lamellae. Acta Palaeontologica Polonica 53 (2): 275–283. According to one hypothesis, the exopods of extinct lamellipedian arthropods functioned as gills. To evaluate this hy− pothesis, the growth rates in Limulus polyphemus for total gill surface, average area per single gill lamella and number of gill lamellae are documented. The rates are compared with corresponding rates in decapod crustaceans in order to make deductions on morphological constraints in multi−foliated gills. The growth rates are given as allometric scaling expo− nents relative to the animal dry−body weight. The comparisons reveal that each allometric exponent is similar among ex− amined species irrespective of differences in gill morphology or animal body plans. The numerical growth of lamellae ob− viously is much smaller than the growth of the total respiratory surface. To fulfill these trends in multi−foliated gills, the overall profile tends to become conical, with the result that the surface area is a couple of magnitudes larger at the base of the cone than at the tip. This geometrical shape appears to keep the numerical value of the total respiratory area (total lamellar surface) proportional to the cube of the total number of lamellae. The situation is entirely different in animals with lamellipedian exopods. In the latter, lamellae are slender structures carried in a straight row and, as exemplified by Naraoia, their increase in number during the growth is only half that required for the exopod lamellae to have functioned as an arthropod multi−foliated gill cone.
    [Show full text]
  • The Crustacea
    TREATISE ON ZOOLOGY –ANATOMY,TAXONOMY,BIOLOGY THE CRUSTACEA COMPLEMENTARY TO THE VOLUMES TRANSLATED FROM THE FRENCH OF THE TRAITÉ DE ZOOLOGIE [Founded by P.-P. GRASSÉ (†)] Edited by F. R. SCHRAM and J. C. von VAUPEL KLEIN Advisory Editors M. CHARMANTIER-DAURES and J. FOREST VOLUME 9 PART B EUCARIDA: DECAPODA: ASTACIDEA P.P. (ENOPLOMETOPOIDEA, NEPHROPOIDEA), GLYPHEIDEA, AXIIDEA, GEBIIDEA, and ANOMURA With contributions by S. T. Ahyong, A. Asakura, J. S. Cobb, P. C. Dworschak, J. Factor, D. L. Felder, M. Jaini, D. Tshudy, C. C. Tudge, R. A. Wahle BRILL LEIDEN · BOSTON 2012 © 2012 Koninklijke Brill NV CONTENTS Preface.................................................................... 1 RICHARD A. WAHLE,DALE TSHUDY,J.STANLEY COBB,JAN FACTOR & MAHIMA JAINI, Infraorder Astacidea Latreille, 1802 p.p.: the marine clawed lobsters ................................................................. 3 PETER C. DWORSCHAK,DARRYL L. FELDER &CHRISTOPHER C. TUDGE, Infraorders Axiidea de Saint Laurent, 1979 and Gebiidea de Saint Laurent, 1979 (formerly known collectively as Thalassinidea) ............................. 109 CHRISTOPHER C. TUDGE,AKIRA ASAKURA &SHANE T. AHYONG, Infraorder Anomura MacLeay, 1838 ................................................. 221 List of contributors ................................................... ...... 335 Taxonomic index ................................................... ........ 339 Subject index ................................................... ........... 349 © 2012 Koninklijke Brill NV CHAPTER 70 INFRAORDER ANOMURA
    [Show full text]