Jan H. Landsberg

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Jan H. Landsberg is a biologist, researcher, and author. Her professional research interests in biology [1] have particular focus on aquatic animal and environmental health.

Contents

Early life and education

Landsberg was born in London, England on 2 April 1954 and grew up in North Finchley, London. She currently resides in St. Petersburg, Florida, U.S.

Landsberg's early education took place in North Finchley, where she attended Comrie House elementary school, and high school, Woodhouse Grammar School. She received a BSc in Zoology from the University of Exeter, Exeter, England in 1975 and her Ph.D. (Biology) from Queen Mary College, University of London in 1981.

Research

Landsberg currently works for the Florida Fish and Wildlife Conservation Commission [2]

Landsberg has authored dozens of peer-reviewed papers including Effects of Harmful Algal Blooms on Aquatic Organisms, [3] which was published in Reviews in Fisheries Science in 2002. The paper has been cited in over 1,000 papers. [4] Much of her early research largely focused on coccidian and other parasites in fish. [5] [6] [7] [8] [9] [10] Additionally, she has researched fibropapillomatosis in Florida sea turtles. [11] Landsberg is widely recognized for her work with biotoxins including the Florida red tide organism Karenia brevis . [12]

Beginning in 2002, she was the agency lead on an investigation of human illness from consuming puffer fish caught in the Indian River Lagoon (IRL), [13] in Florida. The investigation included the coordination of a multiagency (state, federal) team that identified, for the first time in the U.S., that saxitoxin was produced by the harmful algal bloom species Pyrodinium bahamense , and was the source of the poisonings. [14] Saxitoxin in Florida pufferfish can be fatal to humans. The findings from this investigation led to the closure of the pufferfish fishery in the IRL and the continuing monitoring of shellfish beds to ensure they are not contaminated with the toxin.

Landsberg is currently involved in two major multi-partner collaborative research investigations in estuaries and coastal areas in Florida. The first is to determine why manatees have been dying in the IRL since 2013. The second is to identify the cause of a major unidentified disease(s) affecting multiple species of corals in the Florida reefs. The diseases are having a major impact and killing thousands of corals. It is a national and international issue.

Writing

Landsberg's interest in the environment and sciences extends to her work as a writer. Her writing focuses on nature's mysteries and myths.

Her first novel, The Curse of the Crystal Kuatzin was published in 2013. [15] In 2014, the book received a Gold from the Literary Classics International Book Awards and Reviews in the Young Adult Fiction category, [16] and was a finalist in the 2014 Dante Rossetti Award in the Young Adult Novels category. [17]

Her second book, an exposé of UFOs and their origin, UFOs Unmasked, [18] was published in August 2018.

Related Research Articles

<span class="mw-page-title-main">Tetraodontidae</span> Family of pufferfish

Tetraodontidae is a family of primarily marine and estuarine fish of the order Tetraodontiformes. The family includes many familiar species variously called pufferfish, puffers, balloonfish, blowfish, blowers, blowies, bubblefish, globefish, swellfish, toadfish, toadies, toadle, honey toads, sugar toads, and sea squab. They are morphologically similar to the closely related porcupinefish, which have large external spines.

<span class="mw-page-title-main">Algal bloom</span> Spread of planktonic algae in water

An algal bloom or algae bloom is a rapid increase or accumulation in the population of algae in freshwater or marine water systems. It is often recognized by the discoloration in the water from the algae's pigments. The term algae encompasses many types of aquatic photosynthetic organisms, both macroscopic multicellular organisms like seaweed and microscopic unicellular organisms like cyanobacteria. Algal bloom commonly refers to the rapid growth of microscopic unicellular algae, not macroscopic algae. An example of a macroscopic algal bloom is a kelp forest.

<span class="mw-page-title-main">Fugu</span> Various species of pufferfish

The fugu in Japanese, bogeo or bok (복) in Korean, and hétún in Standard Modern Chinese is a pufferfish, normally of the genus Takifugu, Lagocephalus, or Sphoeroides, or a porcupinefish of the genus Diodon, or a dish prepared from these fish.

<span class="mw-page-title-main">Florida Bay</span> The bay between the southern end of the Florida mainland and the Florida Keys in the United States

Florida Bay is the bay located between the southern end of the Florida mainland and the Florida Keys in the United States. It is a large, shallow estuary that while connected to the Gulf of Mexico, has limited exchange of water due to various shallow mudbanks covered with seagrass. The banks separate the bay into basins, each with its own unique physical characteristics.

<span class="mw-page-title-main">Cyanotoxin</span> Toxin produced by cyanobacteria

Cyanotoxins are toxins produced by cyanobacteria. Cyanobacteria are found almost everywhere, but particularly in lakes and in the ocean where, under high concentration of phosphorus conditions, they reproduce exponentially to form blooms. Blooming cyanobacteria can produce cyanotoxins in such concentrations that they can poison and even kill animals and humans. Cyanotoxins can also accumulate in other animals such as fish and shellfish, and cause poisonings such as shellfish poisoning.

<span class="mw-page-title-main">Saxitoxin</span> Paralytic shellfish toxin

Saxitoxin (STX) is a potent neurotoxin and the best-known paralytic shellfish toxin. Ingestion of saxitoxin by humans, usually by consumption of shellfish contaminated by toxic algal blooms, is responsible for the illness known as paralytic shellfish poisoning (PSP).

<i>Catopsis berteroniana</i> Species of carnivorous plant

Catopsis berteroniana, commonly known as the powdery strap airplant or the lantern of the forest, is an epiphytic bromeliad thought to be a possible carnivorous plant, similar to Brocchinia reducta, although the evidence is equivocal. Its native range is from southern Florida to southern Brazil. It generally grows on the unshaded twigs of trees, and has been shown experimentally to trap more insects in its tank than other bromeliads of comparable size. There are several other species in the genus, none of which is believed to be carnivorous.

<span class="mw-page-title-main">Fish as food</span> Fish eaten by humans

Many species of fish are caught by humans and consumed as food in virtually all regions around the world. Fish has been an important dietary source of protein and other nutrients.

<span class="mw-page-title-main">Paralytic shellfish poisoning</span> Syndrome of shellfish poisoning

Paralytic shellfish poisoning (PSP) is one of the four recognized syndromes of shellfish poisoning, which share some common features and are primarily associated with bivalve mollusks. These shellfish are filter feeders and accumulate neurotoxins, chiefly saxitoxin, produced by microscopic algae, such as dinoflagellates, diatoms, and cyanobacteria. Dinoflagellates of the genus Alexandrium are the most numerous and widespread saxitoxin producers and are responsible for PSP blooms in subarctic, temperate, and tropical locations. The majority of toxic blooms have been caused by the morphospecies Alexandrium catenella, Alexandrium tamarense, Gonyaulax catenella and Alexandrium fundyense, which together comprise the A. tamarense species complex. In Asia, PSP is mostly associated with the occurrence of the species Pyrodinium bahamense.

<i>Karenia brevis</i> Species of dinoflagellate

Karenia brevis is a microscopic, single-celled, photosynthetic organism in the genus Karenia. It is a marine dinoflagellate commonly found in the waters of the Gulf of Mexico. It is the organism responsible for the "Florida red tides" that affect the Gulf coasts of Florida and Texas in the U.S., and nearby coasts of Mexico. K. brevis has been known to travel great lengths around the Florida peninsula and as far north as the Carolinas.

<span class="mw-page-title-main">Brevetoxin</span> Class of chemical compounds produced naturally

Brevetoxin (PbTx), or brevetoxins, are a suite of cyclic polyether compounds produced naturally by a species of dinoflagellate known as Karenia brevis. Brevetoxins are neurotoxins that bind to voltage-gated sodium channels in nerve cells, leading to disruption of normal neurological processes and causing the illness clinically described as neurotoxic shellfish poisoning (NSP).

<span class="mw-page-title-main">St. Lucie River</span> River in the United States of America

The St. Lucie River is a 35-mile-long (56 km) estuary linked to a coastal river system in St. Lucie and Martin counties in the U.S. state of Florida. The St. Lucie River and St. Lucie Estuary are an "ecological jewel" of the Treasure Coast, central to the health and well-being of the surrounding communities. The river is part of the larger Indian River Lagoon system, the most diverse estuarine environment in North America with more than 4,000 plant and animal species, including manatees, oysters, dolphins, sea turtles and seahorses.

<span class="mw-page-title-main">Harmful algal bloom</span> Population explosion of organisms that can kill marine life

A harmful algal bloom (HAB), or excessive algae growth, is an algal bloom that causes negative impacts to other organisms by production of natural algae-produced toxins, mechanical damage to other organisms, or by other means. HABs are sometimes defined as only those algal blooms that produce toxins, and sometimes as any algal bloom that can result in severely lower oxygen levels in natural waters, killing organisms in marine or fresh waters. Blooms can last from a few days to many months. After the bloom dies, the microbes that decompose the dead algae use up more of the oxygen, generating a "dead zone" which can cause fish die-offs. When these zones cover a large area for an extended period of time, neither fish nor plants are able to survive. Harmful algal blooms in marine environments are often called "red tides".

<i>Karenia</i> (dinoflagellate) Genus of single-celled organisms

Karenia is a genus that consists of unicellular, photosynthetic, planktonic organisms found in marine environments. The genus currently consists of 12 described species. They are best known for their dense toxic algal blooms and red tides that cause considerable ecological and economical damage; some Karenia species cause severe animal mortality. One species, Karenia brevis, is known to cause respiratory distress and neurotoxic shellfish poisoning (NSP) in humans.

<i>Canthigaster rostrata</i> Species of fish

Canthigaster rostrata, commonly known as the Caribbean sharp-nose puffer, is a pufferfish from the Western Central Atlantic. The Caribbean sharp-nose puffer is a small fish with a maximum length of 12 cm or approximately 4.7 inches. It can be encountered from the coast of South Carolina to Venezuela, including Bermuda, the Gulf of Mexico, and in the Caribbean Sea. They can live up to 10 years in the wild, females typically live longer due to aggressive male territory behavior. The Caribbean sharp-nose puffer is a highly toxic species of marine fish due to the presence of tetrodotoxin in its tissues and organs. Despite its toxicity, the sharp-nose pufferfish occasionally makes its way into the aquarium trade.

Chromera velia, also known as a "chromerid", is a unicellular photosynthetic organism in the superphylum Alveolata. It is of interest in the study of apicomplexan parasites, specifically their evolution and accordingly, their unique vulnerabilities to drugs.

Goussia is a taxonomic genus, first described in 1896 by Labbé, containing parasitic protists which largely target fish and amphibians as their hosts. Members of this genus are homoxenous and often reside in the gastrointestinal tract of the host, however others may be found in organs such as the gallbladder or liver. The genera Goussia, as current phylogenies indicate, is part of the class Conoidasida, which is a subset of the parasitic phylum Apicomplexa; features of this phylum, such as a distinct apical complex containing specialized secretory organelles, an apical polar ring, and a conoid are all present within Goussia, and assist in the mechanical invasion of host tissue. The name Goussia is derived from the French word gousse, meaning pod. This name is based on the bi-valve sporocyst morphology which some Goussians display. Of the original 8 classified Goussians, 6 fit the “pod” morphology. As of this writing, the genera consists of 59 individual species.

Phycotoxins are complex allelopathic chemicals produced by eukaryotic and prokaryotic algal secondary metabolic pathways. More simply, these are toxic chemicals synthesized by photosynthetic organisms. These metabolites are not harmful to the producer but may be toxic to either one or many members of the marine food web. This page focuses on phycotoxins produced by marine microalgae; however, freshwater algae and macroalgae are known phycotoxin producers and may exhibit analogous ecological dynamics. In the pelagic marine food web, phytoplankton are subjected to grazing by macro- and micro-zooplankton as well as competition for nutrients with other phytoplankton species. Marine bacteria try to obtain a share of organic carbon by maintaining symbiotic, parasitic, commensal, or predatory interactions with phytoplankton. Other bacteria will degrade dead phytoplankton or consume organic carbon released by viral lysis. The production of toxins is one strategy that phytoplankton use to deal with this broad range of predators, competitors, and parasites. Smetacek suggested that "planktonic evolution is ruled by protection and not competition. The many shapes of plankton reflect defense responses to specific attack systems". Indeed, phytoplankton retain an abundance of mechanical and chemical defense mechanisms including cell walls, spines, chain/colony formation, and toxic chemical production. These morphological and physiological features have been cited as evidence for strong predatory pressure in the marine environment. However, the importance of competition is also demonstrated by the production of phycotoxins that negatively impact other phytoplankton species. Flagellates are the principle producers of phycotoxins; however, there are known toxigenic diatoms, cyanobacteria, prymnesiophytes, and raphidophytes. Because many of these allelochemicals are large and energetically expensive to produce, they are synthesized in small quantities. However, phycotoxins are known to accumulate in other organisms and can reach high concentrations during algal blooms. Additionally, as biologically active metabolites, phycotoxins may produce ecological effects at low concentrations. These effects may be subtle, but have the potential to impact the biogeographic distributions of phytoplankton and bloom dynamics.

<span class="mw-page-title-main">Mixotrophic dinoflagellate</span> Plankton

Dinoflagellates are eukaryotic plankton, existing in marine and freshwater environments. Previously, dinoflagellates had been grouped into two categories, phagotrophs and phototrophs. Mixotrophs, however include a combination of phagotrophy and phototrophy. Mixotrophic dinoflagellates are a sub-type of planktonic dinoflagellates and are part of the phylum Dinoflagellata. They are flagellated eukaryotes that combine photoautotrophy when light is available, and heterotrophy via phagocytosis. Dinoflagellates are one of the most diverse and numerous species of phytoplankton, second to diatoms.

Patricia Marguerite Glibert is a marine scientist known for her research on nutrient use by phytoplankton and harmful algal blooms in Chesapeake Bay. She is an elected fellow of the American Association for the Advancement of Science.

References

  1. Dr. Jan H. Landsberg. gulfbase. https://www.gulfbase.org/people/dr-jan-h-landsberg
  2. Ecosystem Assessment and Restoration: Jan Landsberg, retrieved November 30, 2017 from http://myfwc.com/research/about/careers/staff-spotlight/jan-landsberg/
  3. Landsberg, J.H. (2002). Effects of Harmful Algal Blooms on Aquatic Organisms. Review in Fisheries Science, 10(2):113-390 https://doi.org/10.1080/20026491051695
  4. "Google Scholar".
  5. Landsberg, J.H. and Paperna, I. (1985). Goussia cichlidarum n. sp. (Barrouxidae, Apicomplexa), a coccidian parasite in the swimbladder of cichlid fish. Zeitschrift für Parasitenkunde, 32:194-201
  6. Landsberg, J.H. and Paperna, I. (1986). Ultrastructural study of the coccidian Cryptosporidium sp. from stomachs of juvenile cichlid fish. Diseases of Aquatic Organisms, 2:13-20
  7. Landsberg, J.H. (1993). Two new species of coccidian parasites (Apicomplexa, Eimeriorina) from red drum, Sciaenops ocellatus (L.)(Sciaenidae). Diseases of Aquatic Organisms, 16:83-90
  8. Landsberg, J.H. et al. (1998). Parasites of fish as indicators of environmental stress. Environmental Monitoring and Assessment, 51:211-232
  9. Landsberg, J.H. (1993). Myxosporean parasites of the common snook, Centropomus undecimalis (Bloch, 1792) in Florida. Journal of Aquatic Animal Health, 5:102-109
  10. Landsberg, J.H. et al. (1992). Effect of serum and mucus of blue tilapia, Oreochromis aureus on infectivity of the parasitic dinoflagellate, Amyloodinium ocellatum in cell culture. Fish Pathology, 27:163-169
  11. Landsberg, J.H. et al. (1999). The potential role of natural tumor promoters in marine turtle fibropapillomatosis. Journal of Aquatic Animal Health, 11:199-210
  12. Landsberg, J.H. et al. (2009). Karenia brevis red tides, brevetoxins in the food web, and impacts on natural resources: decadal advancements. Harmful Algae, 8:598-607 https://doi.org/10.1016/j.hal.2008.11.010
  13. Indian River Lagoon National Estuary Program. (2017). Retrieved from http://www.irlcouncil.com Retrieved June 14, 2017
  14. Landsberg, J.H. et al. (2006). Saxitoxin puffer fish poisoning in the United States, with the first report of Pyrodinium bahamense as the putative toxin source. Environmental Health Perspectives, 114:91502-1507
  15. Landsberg, Jan H. (2013). The Curse of the Crystal Kuatzin. CreateSpace. ISBN   978-1-4826-3514-0
  16. Literary Classics. (n.d).2014 Award Winning Books. Retrieved May 15, 2017 from http://www.clcawards.org/2014AwardRecipients.html
  17. Chanticleer Book Reviews. (n.d). The Dante Rossetti Awards 2014 for Young Adult Novels – Official Finalist List. Retrieved May 15, 2017 from https://www.chantireviews.com/2015/03/06/the-dante-rossetti-awards-2014-for-young-adult-novels-official-finalist-list/
  18. Landsberg, Jan H. (2018). UFOs Unmasked. CreateSpace. ISBN   978-1-5187-6282-6