The Development of Fiddler Crabs (Uca Spp.) as a Comparative Model System for the Parasitic Dinoflagellate, Hematodinium Perezi and Its Natural Host the Blue Crab, Callinectes Sapidus PDF Download
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Author: Patricia Anne O'Leary Publisher: ISBN: Category : Blue crab Languages : en Pages : 133
Book Description
Herein, I have completed several experiments which encompass developing fiddler crabs as a model system, as well as sentinel and temperature studies to investigate biotic and abiotic factors in parasite transmission. My studies show which factors prevent, delay, or accelerate transmission and progression of H. perezi. The fiddler crab experiments by chapter are as follows: Chapter 1. I screened adult and juvenile fiddler crab populations for naturally occurring H. perezi infections at endemic and non-endemic sites. No natural infections were found in the adult or juvenile populations (Chapter 1 and 3). I completed inoculation trials with U. minax, U. pugnax, and U. pugilator, demonstrating that the parasite can survive and replicate in these species. Fiddler crabs can live for several months with patent infections. For example, I successfully transferred H. perezi from blue crab to fiddler crab and back to blue crab. Through serial inoculations I was able to serially maintain the parasite in the lab year-round. Building on the above experiments, I completed minimum dose studies which showed that a minimum inoculum of 1,000 parasite cells was required for patent infections. Additionally, I evaluated parasite progression through studies using Uca minax. These studies which used an inoculum in the ameboid trophont and clump colony stages showed that H. perezi progresses through its life-history stages in fiddler crabs as it would in blue crabs, with the filamentous trophont stage first observed in the hemolymphs smears followed by the ameboid trophont stage. Chapter 2. Intertidal environments are well known as areas of environmental extremes, and accordingly the animals that reside there have adapted to those conditions out of necessity. One abiotic factor that can have large diel variation is temperature. to address the impact of temperature variation of the marsh and subtidal habitat on H. perezi, I developed laboratory temperature experiments with nascent infections (7 °C, 15°C, 20°C, 25°C, 30°C), with patent infections (10°C, 15°C, 20°C, 30°C), and a progression series over fine scale (15°C, 17°C, 19°C, 20°C) temperature increments. These studies demonstrated that growth of the parasite is limited at the higher and lower temperatures, and that H. perezi is eliminated from the host at 30°C. This was confirmed by hemolymph smears, histology, and PCR. Chapter 3. The successful laboratory inoculations and lack of infections in fiddler crabs from endemic areas led to additional field deployments. These experiments aimed to address the dissonance of the initial results. My sentinel studies included fiddler crabs deployed in a crab pot from a pier touching bottom, deployed from the pier approximately mid-tidal height, deployed mid-marsh in mesh cages without access to bury, and deployed mid-marsh with access to bury. Fiddler crabs can obtain H. perezi infections in the marsh when caged without access to bury or when fully or partially submerged from a pier. However, they do not obtain H. perezi infections when given access to bury. Natural behaviors, such as burying along with elevated marsh temperatures likely prevent the establishment of H. perezi in the natural fiddler crab population.
Author: Patricia Anne O'Leary Publisher: ISBN: Category : Blue crab Languages : en Pages : 133
Book Description
Herein, I have completed several experiments which encompass developing fiddler crabs as a model system, as well as sentinel and temperature studies to investigate biotic and abiotic factors in parasite transmission. My studies show which factors prevent, delay, or accelerate transmission and progression of H. perezi. The fiddler crab experiments by chapter are as follows: Chapter 1. I screened adult and juvenile fiddler crab populations for naturally occurring H. perezi infections at endemic and non-endemic sites. No natural infections were found in the adult or juvenile populations (Chapter 1 and 3). I completed inoculation trials with U. minax, U. pugnax, and U. pugilator, demonstrating that the parasite can survive and replicate in these species. Fiddler crabs can live for several months with patent infections. For example, I successfully transferred H. perezi from blue crab to fiddler crab and back to blue crab. Through serial inoculations I was able to serially maintain the parasite in the lab year-round. Building on the above experiments, I completed minimum dose studies which showed that a minimum inoculum of 1,000 parasite cells was required for patent infections. Additionally, I evaluated parasite progression through studies using Uca minax. These studies which used an inoculum in the ameboid trophont and clump colony stages showed that H. perezi progresses through its life-history stages in fiddler crabs as it would in blue crabs, with the filamentous trophont stage first observed in the hemolymphs smears followed by the ameboid trophont stage. Chapter 2. Intertidal environments are well known as areas of environmental extremes, and accordingly the animals that reside there have adapted to those conditions out of necessity. One abiotic factor that can have large diel variation is temperature. to address the impact of temperature variation of the marsh and subtidal habitat on H. perezi, I developed laboratory temperature experiments with nascent infections (7 °C, 15°C, 20°C, 25°C, 30°C), with patent infections (10°C, 15°C, 20°C, 30°C), and a progression series over fine scale (15°C, 17°C, 19°C, 20°C) temperature increments. These studies demonstrated that growth of the parasite is limited at the higher and lower temperatures, and that H. perezi is eliminated from the host at 30°C. This was confirmed by hemolymph smears, histology, and PCR. Chapter 3. The successful laboratory inoculations and lack of infections in fiddler crabs from endemic areas led to additional field deployments. These experiments aimed to address the dissonance of the initial results. My sentinel studies included fiddler crabs deployed in a crab pot from a pier touching bottom, deployed from the pier approximately mid-tidal height, deployed mid-marsh in mesh cages without access to bury, and deployed mid-marsh with access to bury. Fiddler crabs can obtain H. perezi infections in the marsh when caged without access to bury or when fully or partially submerged from a pier. However, they do not obtain H. perezi infections when given access to bury. Natural behaviors, such as burying along with elevated marsh temperatures likely prevent the establishment of H. perezi in the natural fiddler crab population.
Author: Jeffrey David Shields Publisher: ISBN: Category : Callinectes Languages : en Pages : 0
Book Description
Hematodinium perezi is a lethal parasitic dinoflagellate that lives in the hemolymph of brachyuran crabs. The parasite is found along the eastern seaboard of the USA where it occurs in epizootics in the commercially important blue crab, Callinectes sapidus. Crab mortalities associated with the disease occur in high salinity waters, typically in poorly draining estuaries. The parasite is prevalent in the seaside bays of the Delmarva Peninsula in the spring and fall, and spreads to the lower reaches of Chesapeake Bay in the fall. In October 1996, the prevalence of the disease along the Virginia portion of the Delmarva Peninsula varied from 20 - 50% in legal crabs. Lower prevalences (1-10%) were noted for crabs caught between Cape Henry and Cape Charles, i.e., the mouth of the bay. In November, the prevalence of the disease was notably higher in crabs caught between Cape Henry and Cape Charles (10-30%). The disease can spread into the breeding grounds of adult female crabs, but its prevalence is generally low during the prebreeding and ovigerous season. In Spring and Fall, 1997, the disease had a higher prevalence in the coastal bays and creeks. Infected crabs frequently show signs of weakness and lethargy, and often die due to stress-related handling from fishing. The parasite proliferates to extremely high densities in the host (up to 100 million parasites/ml of hemolymph) over 3 to 6 weeks. The hemolymph undergoes radical changes as evinced by its lack of clotting ability, and marked discoloration. Hemolymph levels of total proteins and acid phosphatase activity change with infection, and indicate a gradual decline in the hosts metabolic resources. The effects of other species of Hematodinium on several crab and lobster fisheries, and data from the present study indicate that H. perezi may have a significant impact on the coastal blue crab fisheries along the Atlantic seaboard of the USA.
Author: Gokare A. Ravishankar Publisher: Academic Press ISBN: 0128233052 Category : Business & Economics Languages : en Pages : 828
Book Description
Global Perspectives on Astaxanthin: From Industrial Production to Food, Health, and Pharmaceutical Applications explores the range of practical applications for this molecule, focusing on nutraceutical, pharmaceutical and cosmeceutical products, along with food and feed. This volume brings together the most relevant research, background and future thinking on astaxanthin, focusing on its health benefits. Chapters cover phytopharmaceuticals, industrial production, feeds, downstream processing, regulations, products, color, pigment, cosmetics, bioactive compounds, relationships to other carotenoids, and skin care. The detailed information on its production, processing, utilization and future applications will be of particular use to academic and industry researchers in pharmaceutical sciences, pharmacology and nutrition. Provides detailed information on astaxanthin, including its production, processing, utilization and future applications Includes discussion on the commercial analysis procedure Offers critical analysis on current and potential applications of astaxanthin as contributed by 121 authors from 22 countries in academia, research institutes and industries
Author: Peter Castro Publisher: BRILL ISBN: 900419083X Category : Science Languages : en Pages : 1233
Book Description
This volume, 9C, in two parts, covers the Brachyura. With the publication of the ninth volume in the Treatise on Zoology: The Crustacea, we departed from the sequence one would normally expect. Some crustacean groups, mainly comprising the Decapoda, never had a French version produced, and the organization and production of these “new” chapters began independently from the preparation of the other chapters and volumes. Originally envisioned to encompass volume 9 of the series, it quickly became evident that the depth of material for such a volume must involve the printing of separate fascicles. The new chapters have now been completed, and the production of volume 9 was started while volumes 3 through 8 were (and in part still are) in preparation; with this vol. 9C-I & II this volume 9 is now concluded; vols. 1-5 have also been published and vols. 6-8 are being prepared.
Author: BACC Author Team Publisher: Springer ISBN: 9783642091896 Category : Science Languages : en Pages : 0
Book Description
This book offers an up-to-date overview of the latest scientific findings in regional climate research on the Baltic Sea basin. This includes climate changes in the recent past, climate projections up until 2100 using the most sophisticated regional climate models available, and an assessment of climate change impacts on terrestrial, freshwater and marine ecosystems. The authors demonstrate that the regional climate has already started to change, and will continue to do so.
Author: J.C. von Vaupel Klein Publisher: BRILL ISBN: 9004264930 Category : Science Languages : en Pages : 469
Book Description
This part B of the fourth volume of The Crustacea contains chapters on: ● Crustaceans in the Biosphere ● Crustaceans and Mankind ● Crustaceans in Art ● Orders Lophogastrida, Stygiomysida, and Mysida [collectively known as Mysidacea] As evident from the number 4B tagged to this volume, vol. 4 as originally planned had to be split into two fascicles, 4A and 4B, simply because of the numbers of pages covered by the various contributions meant for volume 4. The chapters in this book grew out of those in the French edition volumes 7(II) and 7(III)(A). Overall, this constitutes the seventh tome published in this English series, viz., preceded by volumes 1 (2004), 2 (2006), 9A (2010), 9B (2012), 3 (2012), and 4A (2013). Readers/users should note that from vol. 4A onward we have had to abandon publishing the chapters in the serial sequence as originally envisaged by the late Prof. J. Forest, because the various contributions, i.e., both the updates and the entirely new chapters, have become available in a more or less random order.
Author: Robert Poulin Publisher: Smithsonian Institution ISBN: 1935623494 Category : Science Languages : en Pages : 225
Book Description
This comprehensive, groundbreaking book on the biodiversity of parasites offers a clear and accessible explanation of how parasite biodiversity provides insight into the history and biogeography of other organisms, the structure of ecosystems, and the processes that lead to the diversification of life.
Author: Giuseppe Mazza Publisher: CABI ISBN: 1786390981 Category : Nature Languages : en Pages : 210
Book Description
Invasive alien plants and animals are known for their disruption of ecosystems and threat to biodiversity. This book highlights their major impact on human health. This includes not only direct effects through contact with the species via bites, wounds and disease, but also indirect effects caused by changes induced in ecosystems by invasive species, such as more water hyacinth increasing mosquito levels and thereby the potential for malaria. Covering a wide range of case studies from different taxa (animals and plants), and giving an overview of the diverse impacts of invasive species on health in developed and developing countries, the book is a significant contribution that will help in prioritizing approaches to controlling invasive species and mitigating their health effects. It covers invasive plants, marine species, spiders and other arachnids, ticks and dust mites, insects, mosquitos and other diptera, freshwater species (invertebrates and fishes), amphibians and reptiles, birds and mammals. The broad spectrum of the analyzed case studies will ensure the appeal of the book to a wide public, including researchers of biological invasions, doctors, policy-makers and managers, and students of invasive species in ecology, animal and plant biology and public health medicine.
Author: Patricia Anne O'Leary
Author: Patricia Anne O'Leary
Author: Jeffrey David Shields
Author: John M Tiggelaar (II.)
Author: Gokare A. Ravishankar
Author: Peter Castro
Author: BACC Author Team
Author: J.C. von Vaupel Klein
Author: Robert Poulin
Author: United States. National Marine Fisheries Service
Author: Giuseppe Mazza