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Aquaculture Virology

為了解決aquatic animals draw的問題，作者Kibenge, Frederick (EDT)/ Godoy, Marcos (EDT) 這樣論述：

To date textbooks on viruses infecting fish, crustaceans and molluscs, the three main aquatic animal farmed groups, have been on the whole "diseases-centric" and individual viral diseases selected based on "epizoo-centric" approaches with little to no coverage of the basic biology of the viruses, in

contrast to textbooks on viruses infecting terrestrial - farmed, pet, and free-range (wild) - animals and humans. Despite considerable advances in animal virology in recent years coupled with an economically important global aquaculture industry, knowledge of viruses of animal aquaculture is still

sparse and in some cases outdated although these viruses are closely related to well-known virus families. The last book in fish virology (Fish viruses and fish viral diseases 1988, Wolf, K.) was published in the 1980s. A lot of work has been done on fish viruses and many new aquatic animal viruses

continue to be discovered. Aquaculture Virology provides the current state of knowledge of aquatic animal viruses within the current virus classification and taxonomic context thereby allowing the reader to draw on the principles of general virology. This book is a systematic and concise resource us

eful to anyone involved with or looking to move into aquaculture and fisheries. Clinical veterinarians, aquaculture disease practitioners, biologists, farmers, and all those in industry, government or academia who are interested in aquatic animal virology will find this book extremely useful. Provid

es unique comprehensive information on animal viruses for aquaculture and fisheriesPresents high quality illustrations of viral structure, diagrams of viral disease processes, gross pathology and histopathology lesions, and summary tables to aid in understandingDescribes aquatic animal viruses of th

e three major aquatic animals, fish, crustaceans, and molluscs, within the current virus classification and taxonomic context thereby allowing the reader to draw on the principles of general virology

Animal Messengers: An A-Z Guide to Signs and Omens in the Natural World

為了解決aquatic animals draw的問題，作者Meyer, Regula/ Godwin, Ariel (TRN) 這樣論述：

An animal-by-animal guide that reveals the meaning behind each encounter we have with animals - Provides sophisticated psychological insight into encounters with more than 150 animals, birds, reptiles, insects, and aquatic life - Explores how animals reflect our inner world, drawing our attention to

inner turmoil, relationship issues, spiritual growth, and the deepest needs of the soul - Explains how the meaning of each encounter depends on whether the animal was hunting, fleeing, hiding, or acting indifferent when sighted We each feel connections to animals in our own way. Some of us have pet

s. Others admire animals in the wild. Because the outer world often reflects our internal states and animals are highly sensitive to our energies, each encounter with an animal signals something about our inner world and innermost concerns. The spontaneous, surprising contacts are the telling ones:

a sparrow landing next to you, a fox darting across the road, or a bee alighting on your hand. However, even regular encounters with our pets can draw attention to our inner world and what needs to be thought over and grappled with, from psychic turmoil and relationship issues to spiritual growth an

d the deepest needs of the soul. Providing sophisticated psychological insight into encounters with more than 150 animals, birds, reptiles, insects, and aquatic life, Regula Meyer explores the messages each animal provides for us on a personal level when we encounter them. She explains how the meani

ng of each encounter depends on whether the animal was hunting, fleeing, hiding, or acting indifferent when sighted. For example, a fleeing animal is prompting you to pursue a subject consciously, while a hiding animal tells you to patiently observe something and draw insights from it. The author sh

ows how animal encounters in the wild cause us to contemplate the present moment and inspire the flow of our perceptions, leading us to meditate on important concerns we may be ignoring or unaware of. Pets and other animals we see every day act as intensifiers of the energy for which they stand. Wit

h this animal-by-animal guide, you can discover the deep meaning behind your encounters with animals and the messages they bring as oracles of our souls. Regula Meyer is a spiritual channeler with a deep connection to animals. She teaches workshops in Switzerland on guided meditation, the Medicine

Wheel, life’s spiritual purpose, and power animals. She offers individual life-coaching and spiritual guidance consultations. She lives in Sevelen, Switzerland.

藤壺幼體游泳機制學

為了解決aquatic animals draw的問題，作者王敬湧 這樣論述：

Adult barnacles display fascinating morphological variations and are adapted to a wide range of habitats, in some cases little morphological similarities are left in extremely modified taxa. Larval characters, such as the presence of frontal horns on nauplius larvae and the presence of an additiona

l distinct cypris larva in life cycle, have served to define the monophyly of this diverse group. However, the functional significance of these taxonomically important larval characters remains little understood. Barnacle nauplii swim to disperse, feed, and avoid predators. While the limbs are clear

ly involved in propelling their body through water and drawing food particle laden water towards their feeding apparatus, there has been few mechanistic studies showing empirical evidence of flow manipulation. By analyzing small scale hydrodynamics around swimming barnacle larvae, this thesis aimed

at resolving fundamental questions on how barnacle larvae interact with surrounding water to swim and feed, and to examine the morphology-flow relationships with emphasis on the consequences of having frontal horns and transition into a distinct cypris larva. A comparative analysis of naupliar body

forms from 102 species of barnacles with geometric morphometrics shows that major variations are in aspect ratio and relative frontal horns length, which are significantly explained by larval size and trophic modes, respectively. Specifically, nauplii adopted a lecithotrophic trophic mode (non-feedi

ng) have relatively shorter frontal horns than planktotrophic (feeding) nauplii, suggesting a possible feeding-related function. Observation of swimming planktotrophic nauplii by particle image velocimetry technique shows that nauplii depended on feeding current generated during recovery stroke to d

raw particles towards body. This observation confirms the long proposed ‘hypothetical’ feeding flow as feasible mechanism for nauplius to swim and feed simultaneously. Compared to lecithotrophic nauplii with shorter frontal horns, planktotrophic nauplii had less backward movement during recovery str

oke, which in turn help align the feeding chamber with suction current. However, the accurate feeding aided by ‘anchoring effect’ from having a high drag morphology with long frontal horns and tail spine was achieved at the cost of having slower swimming and higher predation risk than lecithotrophic

nauplii due to pronounced fluid signal produced. To confirm the ‘anchoring effect’ of frontal horns, nauplii’s frontal horns were experimentally ablated. Nauplii with frontal horns ablated swam with relatively higher backward movement during recovery stroke than intact nauplii, after accounting for

individual variability in swimming speed. Flow paths of suction current produced by the ablated group also appeared to be straight, as oppose to the curved flow paths laterally converging to nauplius’ body observed in the intact group. Analysis of flow field component perpendicular to nauplius’ bod

y axis confirmed the intact group did indeed draw water from a significantly wider area than the ablated group, which increase water clearance for food particles. Zooplankton morphology with long projecting spines that is sub-optimal for swimming performance has long perplexed biologists. These find

ings support the hypothesis that such morphological traits confer feeding advantage but at the cost of swimming. The swimming-feeding tradeoffs has the potential to affect morphological evolution of larval form not only between taxa, but also through larval development as relative importance between

swimming and feeding shift. Barnacles end larval period with a distinct non-feeding larval phase that specialized in settling onto substrate to complete their transition into sessile adults, which requires better swimming capability. Comparison of swimming between nauplii and cyprids shows that cyp

rids were better swimmer capable of moving more body length per beat cycle through maximizing relative duration of power stroke and asymmetry in appendages’ configuration between power and recovery stroke. Given the streamlined fusiform shape and swimming kinematics, cyprids generated fluid field di

stinctive from that of the nauplii, and in particular with little return flow during recovery stroke. This shift to become better swimmers compromise cyprids ability to feed, highlighted the change in ecological role and requirement during development could shape larval morphology and kinematics. No

tably, this change of swimming performance between nauplius and cyprid does not involve an increase in size, indicating that morphological change alone is sufficient to result in performance shift, without the switch from viscosity-dominated to inertia-dominated fluid regimes through coupled change

in size and shape commonly seen during larval development of other marine invertebrates. In summary, this thesis shows that biomechanical constraints are important in shaping evolution of taxonomically important larval characters in the model system of barnacle larvae.