Inicio > Matemáticas y ciencia > Biologia, ciencias de la vida > How Flying Bees Pilot, and other arthropod wonders
How Flying Bees Pilot, and other arthropod wonders

How Flying Bees Pilot, and other arthropod wonders

Adrian Horridge

15,88 €
IVA incluido
Disponible
Editorial:
Peacock Press
Año de edición:
2022
Materia
Biologia, ciencias de la vida
ISBN:
9781914934421
15,88 €
IVA incluido
Disponible

Selecciona una librería:

  • Librería Perelló (Valencia)
  • Librería Aciertas (Toledo)
  • El AlmaZen del Alquimista (Sevilla)
  • Librería Elías (Asturias)
  • Librería Kolima (Madrid)
  • Donde los libros
  • Librería Proteo (Málaga)

After publishing, with Ted Bullock, the two-volume work on Invertebrate Neurobiology, in 1962 Adrian selected a new topic, and built up a group at St Andrews (and later at the Australian National University), specializing in the optics, neuron anatomy and electrophysiology of the arthropod compound eye, which offered a wide variety of topics.Neuron anatomy of insect visual systems was a classical study in the early 20th century, but yielded few explanations of how nerve cells, fibres, and their connections could explain anything. The electrophysiology began in mid-century as a novelty and generated a great deal of interesting biophysics of neurons, and their membranes and synapses (useful for medical sciences), but few explanations of the origin of behavioural patterns. The problem was that recordings were of the activity, but the meanings of the messages in the neurons were not revealed except in the peripheral sensory systems. By 1990, interest had shifted to the perception of colour and recognition of place by the honeybee, which is easily trained to return to a target. This analysis revealed a small number of responsible feature detectors that together revealed the nature of the messages, but not which neurons were active. However, we could explain how honeybees recognize, distinguish, and learn places, including foraging places.The final step, which is now progressively rolled out in this account of recent discoveries, is the innate detection and analysis of the honeybee’s own three-dimensional surroundings, without reward, to detect the positions of surrounding objects from the relative motions caused by parallax as the bees themselves move in flight. This leads to an explanation of the amazing resolution and vast number of axes of the insect eye.These results further illustrate the advantage of sticking on one natural system or family of research efforts, and become deeply embedded in related topics, because it takes a persistent effort to understand the antiintuitive natural world.More information is available on my website: www.adrian-horridge.org

Artículos relacionados

  • Viral Replication Complexes
    Viruses are obligate intracellular parasites that need to co-opt a living cell’s machinery for replication. At the heart of the viral replication machinery are the nucleic acid polymerases, which are responsible for efficiently copying the viral genome. This process must often be coordinated with other viral processes, including protein translation and viral packaging. The poly...
    Disponible

    99,07 €

  • Advances in Flavivirus Research
    The flaviviruses are composed almost entirely of arthropod-borne viruses, a subset of which are responsible for millions of cases of human disease each year. Among these viruses are dengue virus—a scourge throughout the tropical regions of Asia and the Americas; yellow fever virus—the “original” hemorrhagic fever virus; and the recently emerged Zika virus. While the flaviviruse...
    Disponible

    51,85 €

  • Brain Asymmetry of Structure and/or Function
    Lesley J. Rogers / Lesley JRogers
    This edited book brings together research reports on the asymmetry of brain function in various species, including humans, dogs, birds, lizards and bees. As shown in a wide range of species, and, as we now know, not solely in humans, the left and right sides of the brain process information in different ways and control different responses or patterns of behaviour. Since this d...
    Disponible

    51,71 €

  • Fungal Pigments
    With the impact of globalization in research trends, the search for healthier life styles, the increasing public demand for natural, organic, and ‘clean labelled’ products, as well as the growing global market for natural colorants in economically fast-growing countries all over the world, filamentous fungi started to be investigated as readily available sources of chemically d...
    Disponible

    43,80 €

  • The Epithelialto- Mesenchymal Transition ( EMT ) in Cancer
    Joëlle Roche
    The epithelial-to-mesenchymal transition (EMT) is a highly dynamic process with multiple transitional states, by which epithelial cells can convert into a mesenchymal phenotype. This process involves loss of cellular adhesion and cellular polarity, and an improvement in migratory and invasive properties. It occurs during normal embryonic development, tissue regeneration, organ ...
    Disponible

    67,86 €

  • Acanthamoeba
    Naveed Ahmed Khan
    This fully up-to-date book covers all aspects of Acanthamoeba biology. Following the success of the first edition, the author has extensively revised and expanded the text to produce a new volume that includes all the latest research and information on every aspect of this organism. There is a particular emphasis on the Acanthamoeba genome sequence and the novel insights gained...

Otros libros del autor

  • Vision of the Honeybee Mimic
    Adrian Horridge
    Among the fly family Syrphidae are many examples of bee mimics, mostly of the genus Eristalis, among which we found the world-wide common dronefly, Eristalis tenax, most convenient for detailed study, as there is no sting. As would be expected for a fly, the eye is much larger than that of the honeybee.Our analysis revealed it as a typical fly visual system with some specialise...
    Disponible

    13,04 €

  • HOW DO BEES (AND HUMANS) SEE GREY LEVELS?
    Adrian Horridge
    There are several sources of serious confusion in the investigations of how bees and humans see grey and black. First, von Frisch trained bees to go to a coloured paper, and then tested whether they could distinguish that colour from a palette of 15 shades of grey placed together on a test board. Unfortunately, he used papers made from wood pulp, which do not reflect ultraviole...
    Disponible

    15,23 €

  • Honeybees Vision
    Adrian Horridge
    Professor Adrian Horridge has thoroughly enjoyed a long and productive career in scientific research. At 17 he won a scholarship to St John’s College Cambridge, where he spent 10 years, from student to a fellowship, ending in the Zoology Department working with new techniques of recording from nerve cells. Some of this time was spent at the Naples Marine Laboratory and at the D...
    Disponible

    15,23 €