Danielle Dixson

Last updated
Danielle Dixson
Alma mater James Cook University
Scientific career
FieldsMarine ecology
Thesis Smelling home: the use of olfactory cues for settlement site selection by coral reef fish larvae  (2012)
Doctoral advisor
  • Philip Munday
  • Geoffrey Jones
  • Morgan Pratchett

Danielle L. Dixson was previously an Associate Professor of Marine Ecology in the School of Marine Science and Policy at the University of Delaware. [1] Her research focusses on how human-induced change to marine ecosystems impacts animal behaviour. [2] Her work, now known to be fraudulent, [3] was about understanding how ocean acidification affects the behaviour of coral reef fishes. [4]

Contents

Academic career

Dixson studied Marine Science at the University of Tampa in Florida, obtaining her B.S. in 2005. She went on to obtain her Ph.D. in 2012 under the supervision of Philip Munday, Geoffrey Jones, and Morgan Pratchett at James Cook University, Australia. [5] From 2011, she worked as postdoctoral researcher at Georgia Institute of Technology until her appointment as an Assistant Professor in 2013. [6] In 2015 she began as an assistant professor at the University of Delaware before becoming an associate professor in 2019. [1]

Dixson is the author of Sea Stories, a children's book series based on scientific literature that aims to promote awareness of marine conservation, STEM subjects, and visibility of minorities from an early age. [7] She is a member of the International Society of Chemical Ecology and was the recipient of their Early Career Award in 2019. [8]

Research

Dixson's research broadly focuses on the relationship of how marine animals sense their environment and how this influences their decisions. [9] Her major research areas include the role of chemical cues in corals and coral reef fishes, and the influence of ocean acidification on fish behaviour. [10]

Misconduct allegations

Dixson has been accused of fabricating primary data by other researchers in the field and is the subject of ongoing institutional investigations. [11] On August 9, 2022, Science published a piece announcing that an investigation by the University of Delaware found Dixson guilty of scientific misconduct, including data fabrication and falsification related to her work on coral reef fish behaviour. [3] A separate investigation is reportedly being conducted by the Georgia Institute of Technology. [3]

Honours and awards

See also

Selected publications

Related Research Articles

<span class="mw-page-title-main">James Cook University</span> Public university in North Queensland, Australia

James Cook University (JCU) is a public university in North Queensland, Australia. The second oldest university in Queensland, JCU is a teaching and research institution. The university's main campuses are located in the tropical cities of Cairns and Townsville, and one in the city state of Singapore. JCU also has study centres in Mount Isa, Mackay, Thursday Island and Rockhampton. A Brisbane campus, operated by Russo Higher Education, delivers undergraduate and postgraduate courses to international students. The university's main fields of research include environmental sciences, biological sciences, mathematical sciences, earth sciences, agricultural and veterinary sciences, technology and medical and health sciences.

<span class="mw-page-title-main">Orange clownfish</span> Species of fish

The orange clownfish also known as percula clownfish and clown anemonefish, is widely known as a popular aquarium fish. Like other clownfishes, it often lives in association with sea anemones. A. percula is associated specifically with Heteractis magnifica and Stichodactyla gigantea, and as larvae use chemical cues released from the anemones to identify and locate the appropriate host species to use them for shelter and protection. This causes preferential selection when finding their anemone host species. Although popular, maintaining this species in captivity is rather complex. The Great Barrier Reef Marine Park Authority regulates the number of collection permits issued to aquarium fish dealers who seek this, and other tropical fish within the Great Barrier Reef Marine Park. The symbiosis between anemonefish and anemones depends on the presence of the fish drawing other fish to the anemone, where they are stung by its venomous tentacles. The anemone helps the fish by giving it protection from predators, which include brittle stars, wrasses, and other damselfish, and the fish helps the anemone by feeding it, increasing oxygenation, and removing waste material from the host. Various hypotheses exist about the fish's ability to live within the anemone without being harmed. One study carried out at Marineland of the Pacific by Dr. Demorest Davenport and Dr. Kenneth Noris in 1958 revealed that the mucus secreted by the anemone fish prevented the anemone from discharging its lethal stinging nematocysts. A second hypothesis is that A. percula has acquired immunity towards the sea anemone's toxins, and a combination of the two has been shown to be the case. The fish feed on algae, zooplankton, worms, and small crustaceans.

<span class="mw-page-title-main">Coral bleaching</span> Phenomenon where coral expel algae tissue

Coral bleaching is the process when corals become white due to loss of symbiotic algae and photosynthetic pigments. This loss of pigment can be caused by various stressors, such as changes in temperature, light, or nutrients. Bleaching occurs when coral polyps expel the zooxanthellae that live inside their tissue, causing the coral to turn white. The zooxanthellae are photosynthetic, and as the water temperature rises, they begin to produce reactive oxygen species. This is toxic to the coral, so the coral expels the zooxanthellae. Since the zooxanthellae produce the majority of coral colouration, the coral tissue becomes transparent, revealing the coral skeleton made of calcium carbonate. Most bleached corals appear bright white, but some are blue, yellow, or pink due to pigment proteins in the coral.

<span class="mw-page-title-main">Ocean acidification</span> Decrease of pH levels in the ocean

Ocean acidification is the ongoing decrease in the pH of the Earth's ocean. Between 1950 and 2020, the average pH of the ocean surface fell from approximately 8.15 to 8.05. Carbon dioxide emissions from human activities are the primary cause of ocean acidification, with atmospheric carbon dioxide levels exceeding 422 ppm. CO2 from the atmosphere is absorbed by the oceans. This chemical reaction produces carbonic acid which dissociates into a bicarbonate ion and a hydrogen ion. The presence of free hydrogen ions lowers the pH of the ocean, increasing acidity. Marine calcifying organisms, such as mollusks and corals, are especially vulnerable because they rely on calcium carbonate to build shells and skeletons.

<span class="mw-page-title-main">Marine ecosystem</span> Ecosystem in saltwater environment

Marine ecosystems are the largest of Earth's aquatic ecosystems and exist in waters that have a high salt content. These systems contrast with freshwater ecosystems, which have a lower salt content. Marine waters cover more than 70% of the surface of the Earth and account for more than 97% of Earth's water supply and 90% of habitable space on Earth. Seawater has an average salinity of 35 parts per thousand of water. Actual salinity varies among different marine ecosystems. Marine ecosystems can be divided into many zones depending upon water depth and shoreline features. The oceanic zone is the vast open part of the ocean where animals such as whales, sharks, and tuna live. The benthic zone consists of substrates below water where many invertebrates live. The intertidal zone is the area between high and low tides. Other near-shore (neritic) zones can include mudflats, seagrass meadows, mangroves, rocky intertidal systems, salt marshes, coral reefs, lagoons. In the deep water, hydrothermal vents may occur where chemosynthetic sulfur bacteria form the base of the food web.

Marine larval ecology is the study of the factors influencing dispersing larvae, which many marine invertebrates and fishes have. Marine animals with a larva typically release many larvae into the water column, where the larvae develop before metamorphosing into adults.

<span class="mw-page-title-main">Wild fisheries</span> Area containing fish that are harvested commercially

A wild fishery is a natural body of water with a sizeable free-ranging fish or other aquatic animal population that can be harvested for its commercial value. Wild fisheries can be marine (saltwater) or lacustrine/riverine (freshwater), and rely heavily on the carrying capacity of the local aquatic ecosystem.

<span class="mw-page-title-main">Coral Triangle</span> Ecoregion of Asia

The Coral Triangle (CT) is a roughly triangular area in the tropical waters around the Philippines, Indonesia, Malaysia, Papua New Guinea, the Solomon Islands and Timor-Leste. This area contains at least 500 species of reef-building corals in each ecoregion. The Coral Triangle is located between the Pacific and Indian oceans and encompasses portions of two biogeographic regions: the Indonesian-Philippines Region, and the Far Southwestern Pacific Region. As one of eight major coral reef zones in the world, the Coral Triangle is recognized as a global centre of marine biodiversity and a global priority for conservation. Its biological resources make it a global hotspot of marine biodiversity. Known as the "Amazon of the seas", it covers 5.7 million square kilometres (2,200,000 sq mi) of ocean waters. It contains more than 76% of the world's shallow-water reef-building coral species, 37% of its reef fish species, 50% of its razor clam species, six out of seven of the world's sea turtle species, and the world's largest mangrove forest. In 2014, the Asian Development Bank (ADB) reported that the gross domestic product of the marine ecosystem in the Coral Triangle is roughly $1.2 trillion per year and provides food to over 120 million people. According to the Coral Triangle Knowledge Network, the region annually brings in about $3 billion in foreign exchange income from fisheries exports, and another $3 billion from coastal tourism revenues.

<i>Ostorhinchus cyanosoma</i> Species of fish

Ostorhinchus cyanosoma, commonly known as the yellow-striped cardinalfish, goldenstriped cardinalfish, or the orange-lined cardinalfish, is a species of marine fish in the cardinalfish family of order Perciformes. It is native to the Indo-West Pacific.

<i>Pseudochromis fuscus</i> Species of fish

Pseudochromis fuscus is a species of saltwater fish in the dottyback family. Dottybacks are generally very bright in color and relatively small, factors which have made them popular among aquarium enthusiasts. Besides their coloration and size, they are probably best known for their aggressive temperament. While many of the more common dottybacks are in the Pseudochromis genus, there are also species in other genera. Common names for this particular species include the brown dottyback, the golden dottyback, and the musky dottyback. The common name “Golden dottyback” is shared with another species of dottyback, the Pseudochromis pseudoplesiopinae. The species name, fuscus, means dark or dusky in Latin.

<i>Gobiodon histrio</i> Species of fish

Gobiodon histrio, the Broad-barred goby, is a species of goby native to the Indian Ocean from the Red Sea to the western Pacific Ocean to southern Japan, Samoa and the Great Barrier Reef. This species is a reef dweller, being found at depths of from 2 to 15 metres. It can reach a length of 3.5 centimetres (1.4 in) TL. This species can also be found in the aquarium trade.

<span class="mw-page-title-main">Environmental issues with coral reefs</span> Factors which adversely affect tropical coral reefs

Human activities have substantial impact on coral reefs, contributing to their worldwide decline. Damaging activities encompass coral mining, pollution, overfishing, blast fishing, as well as the excavation of canals and access points to islands and bays. Additional threats comprise disease, destructive fishing practices, and the warming of oceans.[2] Furthermore, the ocean's function as a carbon dioxide sink, alterations in the atmosphere, ultraviolet light, ocean acidification, viral infections, the repercussions of dust storms transporting agents to distant reefs, pollutants, and algal blooms represent some of the factors exerting influence on coral reefs. Importantly, the jeopardy faced by coral reefs extends far beyond coastal regions. The ramifications of climate change, notably global warming, induce an elevation in ocean temperatures that triggers coral bleaching—a potentially lethal phenomenon for coral ecosystems.

The resilience of coral reefs is the biological ability of coral reefs to recover from natural and anthropogenic disturbances such as storms and bleaching episodes. Resilience refers to the ability of biological or social systems to overcome pressures and stresses by maintaining key functions through resisting or adapting to change. Reef resistance measures how well coral reefs tolerate changes in ocean chemistry, sea level, and sea surface temperature. Reef resistance and resilience are important factors in coral reef recovery from the effects of ocean acidification. Natural reef resilience can be used as a recovery model for coral reefs and an opportunity for management in marine protected areas (MPAs).

<span class="mw-page-title-main">Mesophotic coral reef</span> Marine ecosystem

A mesophotic coral reef or mesophotic coral ecosystem (MCE), originally from the Latin word meso (meaning middle) and photic (meaning light), is characterized by the presence of both light-dependent coral and algae, and organisms that can be found in water with low light penetration. Mesophotic coral ecosystems occur at depths beyond those typically associated with coral reefs as the mesophotic ranges from brightly lit to some areas where light does not reach. Mesophotic coral ecosystem (MCEs) is a new, widely-adopted term used to refer to mesophotic coral reefs, as opposed to other similar terms like "deep coral reef communities" and "twilight zone", since those terms sometimes are confused due to their unclear, interchangeable nature. Many species of fish and corals are endemic to the MCEs making these ecosystems a crucial component in maintaining global diversity. Recently, there has been increased focus on the MCEs as these reefs are a crucial part of the coral reef systems serving as a potential refuge area for shallow coral reef taxa such as coral and sponges. Advances in recent technologies such as remotely operated underwater vehicles (ROVs) and autonomous underwater vehicles (AUVs) have enabled humans to conduct further research on these ecosystems and monitor these marine environments.

<span class="mw-page-title-main">Luiz A. Rocha</span> Ichthyology Brazilian-American

Luiz Alves Rocha is the Curator and Follett Chair of Ichthyology at the California Academy of Sciences. He is also an adjunct professor at the University of California Santa Cruz and San Francisco State University.

<span class="mw-page-title-main">Pamela Hallock</span> American marine biologist

Pamela Hallock Muller is a scientist, oceanographer and professor at the University of South Florida in the College of Marine Science.

<span class="mw-page-title-main">Jean-Pierre Gattuso</span> French ocean scientist (born 1958)

Jean-Pierre Gattuso is a French ocean scientist conducting research globally, from the pole to the tropics and from nearshore to the open ocean. His research addresses the biology of reef-building corals, the biogeochemistry of coastal ecosystems, and the response of marine plants, animals and ecosystems to global environmental change. He is also interested in transdisciplinary research, collaborating with social scientists to address ocean-based solutions to minimize climate change and its impacts. He is currently a CNRS Research Professor at Sorbonne University.

Joan Ann ("Joanie") Kleypas is a marine scientist known for her work on the impact of ocean acidification and climate change on coral reefs, and for advancing solutions to environmental problems caused by climate change.

Janice Lough is a climate scientist at the Australian Institute of Marine Science (AIMS) at James Cook University, researching climate change, and impacts of temperature and elevated CO2 on coral reefs. She was elected to the Australian Academy of Science in 2022 for her research in climate change, coral reefs, and developing high resolution environmental and growth histories from corals, particularly the Great Barrier Reef.

<span class="mw-page-title-main">Fredrik Jutfelt</span> Swedish scientist

Fredrik Jutfelt is a Swedish scientist. His field of study is animal physiology, and his current research focus is on the effects of warming and ocean acidification on the physiology and behaviour of fish. He is a professor at the Department of Biology at the Norwegian University of Science and Technology (NTNU) in Trondheim, Norway, where he is the leader of the animal physiology section. His research group is called the Jutfelt Fish Ecophysiology Lab, and they investigate how fish respond physiologically and behaviourally to changes in the environment. Much of the research is based on laboratory studies of zebrafish, and he has built a zebrafish research facility at NTNU. The research group also studies the impacts of climate change on marine animals.

References

  1. 1 2 "Danielle Dixson | School of Marine Science & Policy | College of Earth, Ocean and Environment | University of Delaware". www.udel.edu. Retrieved 2021-03-01.
  2. "Danielle Dixson". 500 Queer Scientists. Retrieved 2021-03-01.
  3. 1 2 3 Enserink, Martin (2022). "Star marine ecologist committed misconduct, university says". Science. Retrieved Aug 9, 2022.
  4. "Danielle Dixon". www.jcu.edu.au. 2020-04-26. Archived from the original on 2021-06-28. Retrieved 2021-03-01.
  5. Dixson, Danielle Lynn (August 2011). Smelling home: the use of olfactory cues for settlement site selection by coral reef fish larvae (phd thesis). James Cook University.
  6. "Danielle Dixson, Biologist Since the Tender Age of 5 | School of Biological Sciences | Georgia Institute of Technology | Atlanta, GA | Georgia Institute of Technology | Atlanta, GA". biosciences.gatech.edu. Retrieved 2021-03-01.
  7. "Sea Story Books: Children's Books Based on REAL Science". seastorybooks. Retrieved 2021-03-01.
  8. 1 2 "International Society of Chemical Ecology". www.chemecol.org. Retrieved 2021-03-01.
  9. "Dr. Danielle Dixson". The Dixson Lab. Archived from the original on 2021-06-28. Retrieved 2021-03-01.
  10. "Research". The Dixson Lab. Archived from the original on 2021-06-28. Retrieved 2021-03-01.
  11. "Does ocean acidification alter fish behavior? Fraud allegations create a sea of doubt". Science Magazine. Retrieved 2021-06-10.
  12. "UD's Danielle Dixson wins NSF Career Award". www.udel.edu. Retrieved 2021-03-01.
  13. "James Cook University". alumni.jcu.edu.au. Retrieved 2021-03-01.