Jeremy Jackson (scientist)

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Jeremy Bradford Cook Jackson
JeremyJackson1243.jpg
Jeremy B.C. Jackson presenting at the National Museum of Natural History in Washington, D.C., on June 6, 2010
Born
Jeremy Bradford Cook Jackson

(1942-11-13) November 13, 1942 (age 81)
NationalityAmerican
Alma materPh.D. Yale University, 1971
George Washington University
Spouse Nancy Knowlton (m. 1983)
Children2
AwardsBenchley Award for Science (2009)
Harvard Museum of Natural History Roger Tory Peterson Medal (2008)
Edward T. LaRoe Memorial Award for Outstanding Contributions to Conservation Biology (2007)
International Award for Research in Ecology and conservation Biology of the BBVA Foundation, Madrid (2007)
Scientific career
Fields Marine Biologist, Paleontologist, Conservationist
Institutions University of California, San Diego
Smithsonian Institution

Jeremy Bradford Cook Jackson [1] (born November 13, 1942) is an American ecologist, paleobiologist, and conservationist. He is an emeritus professor at the Scripps Institution of Oceanography, senior scientist emeritus at the Smithsonian Institution, and visiting scientist at the American Museum of Natural History Center for Biodiversity and Conservation. He studies threats and solutions to human impacts on the environment and the ecology and evolution of tropical seas. Jackson has more than 170 scientific publications and 11 books, with nearly 40,000 citations listed on Google Scholar.

Contents

He is a powerfully engaging public speaker and has lectured widely about the environmental crisis, including his TED talk “How we wrecked the oceans’ [2] that has been viewed over half a million times. Jackson is a Fellow of the American Association for the Advancement of Science and the American Academy of Arts and Sciences.

He has received more than a dozen prizes and awards including the BBVA International Prize in Ecology and Conservation, the Paleontological Medal [3] [ circular reference ], and the Darwin Medal of the International Society for Reef Studies. Jackson's work on the collapse of coastal ecosystems was chosen by Discover magazine as the outstanding scientific achievement of 2001. [4] His new book Breakpoint: Tending to America's Environmental Crises, was released by Yale in April 2018.

Biography

Jackson was born in Louisville, Kentucky but had moved to New York City by the age of one. He grew up in Miami, Florida and Washington, D.C. He completed his bachelor in zoology at George Washington University. He received his Ph.D. in geology from Yale University in 1971. Jeremy Jackson is married to Nancy Knowlton. They met in the Caribbean and married in 1983. [5] They have one daughter, Rebecca. Jackson also has a son, Stephen, from a previous marriage. Jackson lives in New York City and Brooksville, Maine, where he guest reads to elementary school students about environmental issues in Maine.

Career

Dr. Jackson started his career as a marine biologist studying the distribution of bryozoans and their behavior. His work on marine bryozoans provided some of the strongest evidence to date for the controversial punctuated equilibrium model of evolutionary change. In addition to the bryozoan work, Jackson produced influential studies on coral reef communities and served as a central figure in a Smithsonian Institution investigation of ecosystems in Panama and the surrounding regions.

Jackson also studied the impact of Hurricane Allen on reefs in Jamaica. The resulting paper [6] confidently predicted recovery of the reef. A few years later, in Jamaica Jackson led a study concerning the impact of an oil spill on the nearshore regions affected. The result: corals affected by the spill died, but so did others, outside the stressed region. The reason for lack of recovery inside impacted regions and deterioration outside such regions, Jackson decided, was human activity.

Concerned about the increasing effect of human impacts on marine ecosystems, Jackson created what is now known as "historical ecology" of marine ecosystems. Using historical and ecological sources, Jackson demonstrated that green sea turtles in the pre-Columbian Caribbean used to exist by the tens of millions, greater than current populations. After that first attempt at understanding what pristine marine ecosystems looked like, Jackson assembled an international team of ecologists, anthropologists, archeologists, and historians, to reconstruct marine ecosystem dynamics from the last several hundred years.

The first result of this interdisciplinary working group was a paper [7] led by Jackson showing that fishing predated any other major disturbance to marine ecosystems in the Holocene. This paper was chosen as the most important contribution of the year 2001 by Discover Magazine. [8] It is, so far, the most cited paper coming out of the National Center for Ecological Analysis and Synthesis (NCEAS) in Santa Barbara, and one of the most cited papers in marine ecology. Jackson also led the definitive assessment [9] for the International Coral Reef Initiative of the declining status and trends of Caribbean coral reef ecosystems over last 50 years.

Jeremy B.C. Jackson is also the founder of the Panama Paleontology Project which uses paleontology and geology to unravel the evolution of Caribbean marine ecosystems over the past 10 million years, in response to the emergence of the Central American Isthmus which isolated the Caribbean from the Pacific and changed global climate. He was also the Ocean Biology Deputy Editor for the journal Science Advances, served on the NOAA Scientific Advisory Board and the World Wildlife Fund USA National Board, and currently serves on Board of the Yale Institute of Biospheric Studies.

Public Lectures and Media

In addition to his positions as a researcher and educator, as a public lecturer Jackson has spoken in regards to the "brave new ocean," where clear and productive coastal seas turn into oxygen-starved dead zones, and thriving food webs degrade to seas of slime and disease. He has spoken to the United States Senate about ocean issues and held conference at the U.S. Naval War College on the degradation of the ocean environment and its implications for human wellbeing and US national security. He is also a proponent of the shifting baseline concept and spoke at the Shifting Baselines Ocean Media Project's Hollywood Ocean Night in 2004. Jeremy B.C. Jackson was also a featured scientist in the Leonardo DiCaprio film The 11th Hour and Fisher Stevens's Before the Flood . [10] [11]

Select Publications

Related Research Articles

<span class="mw-page-title-main">Marine biology</span> Scientific study of organisms that live in the ocean

Marine biology is the scientific study of the biology of marine life, organisms that inhabit the sea. Given that in biology many phyla, families and genera have some species that live in the sea and others that live on land, marine biology classifies species based on the environment rather than on taxonomy.

<span class="mw-page-title-main">Coral reef</span> Outcrop of rock in the sea formed by the growth and deposit of stony coral skeletons

A coral reef is an underwater ecosystem characterized by reef-building corals. Reefs are formed of colonies of coral polyps held together by calcium carbonate. Most coral reefs are built from stony corals, whose polyps cluster in groups.

<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">Marine conservation</span> Protection and preservation of saltwater ecosystems

Marine conservation, also known as ocean conservation, is the protection and preservation of ecosystems in oceans and seas through planned management in order to prevent the over-exploitation of these marine resources. Marine conservation is informed by the study of marine plants and animal resources and ecosystem functions and is driven by response to the manifested negative effects seen in the environment such as species loss, habitat degradation and changes in ecosystem functions and focuses on limiting human-caused damage to marine ecosystems, restoring damaged marine ecosystems, and preserving vulnerable species and ecosystems of the marine life. Marine conservation is a relatively new discipline which has developed as a response to biological issues such as extinction and marine habitats change.

<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.

<i>Orbicella annularis</i> Species of coral

Orbicella annularis, commonly known as the Boulder star coral, is a species of coral that lives in the western Atlantic Ocean and is the most thoroughly studied and most abundant species of reef-building coral in the Caribbean to date. It also has a comprehensive fossil record within the Caribbean. This species complex has long been considered a generalist that exists at depths between 0 and 80 meters that grew into varying colony shapes in response to differing light conditions. Only recently with the help of molecular techniques has O. annularis been shown to be a complex of at least three separate species. Those species are divided into O. annularis, O. faveolata, and O. franksi. This coral was originally described as Montastraea annularis.

<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.

The Future of Marine Animal Populations (FMAP) project was one of the core projects of the international Census of Marine Life (2000–2010). FMAP's mission was to describe and synthesize globally changing patterns of species abundance, distribution, and diversity, and to model the effects of fishing, climate change and other key variables on those patterns. This work was done across ocean realms and with an emphasis on understanding past changes and predicting future scenarios.

<span class="mw-page-title-main">Hotspot Ecosystem Research and Man's Impact On European Seas</span> International multidisciplinary project that studies deep-sea ecosystems

Hotspot Ecosystem Research and Man's Impact On European Seas (HERMIONE) is an international multidisciplinary project, started in April 2009, that studies deep-sea ecosystems. HERMIONE scientists study the distribution of hotspot ecosystems, how they function and how they interconnect, partially in the context of how these ecosystems are being affected by climate change and impacted by humans through overfishing, resource extraction, seabed installations and pollution. Major aims of the project are to understand how humans are affecting the deep-sea environment and to provide policy makers with accurate scientific information, enabling effective management strategies to protect deep sea ecosystems. The HERMIONE project is funded by the European Commission's Seventh Framework Programme, and is the successor to the HERMES project, which concluded in March 2009.

<span class="mw-page-title-main">Nancy Knowlton</span> American biologist

Nancy Knowlton is a coral reef biologist and a former Sant Chair for Marine Science at the Smithsonian National Museum of Natural History.

Enric Sala is a former university professor who saw himself writing the obituary of ocean life, and quit academia to become a full-time conservationist as a National Geographic Explorer-in-Residence. Sala’s present goals are to help protect critical marine ecosystems worldwide, and to develop new business models for marine conservation. He also produces documentary films and other media to raise awareness about the importance of a healthy environment, and to inspire country leaders to protect more of the natural world.

<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).

Les Kaufman is an evolutionary ecologist specializing in the biology and conservation of aquatic ecosystems. He has special expertise in coral reef biology, the evolution and ecology of tropical great lakes fishes, and ecosystem-based management of marine resources.

Timothy R. McClanahan is a biologist and a senior conservation zoologist at the Wildlife Conservation Society (WCS) and is known for his work on the ecology of coral reefs. He lives and works in Mombasa, Kenya, where he studies the marine tropical ecosystems of the western Indian Ocean, and is the director of the WCS coral reefs program for eastern Africa.

<span class="mw-page-title-main">Terry Hughes (biologist)</span> Irish biologist

Terence P. Hughes is a professor of marine biology at James Cook University in Queensland, Australia. He is known for research on the global coral bleaching event caused by climate change. Nature dubbed him "Reef sentinel" in 2016 for the global role he plays in applying multi-disciplinary science to securing reef sustainability. He is an Australian Research Council Laureate Fellow and Director of the Australian Research Council (ARC) Centre of Excellence for Coral Reef Studies. His research interests encompass coral reef ecology, macroecology and evolution, as well as social-ecological interactions. His recent work has focused on marine ecology, macroecology, climate change, identifying safe planetary boundaries for human development, and on transformative governance of the sea in Australia, Chile, China, the Galapagos Islands, Gulf of Maine and the Coral Triangle. His career citations in Google Scholar exceed 88,000.

<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">Coral reefs of Jamaica</span>

Jamaica, an island located within the Caribbean Sea, known for being a popular tourist destination because of its pristine white sand beaches, is now faced with the issue of mass coral depletion. Both environmental and human factors contribute to the destruction of these corals, which inevitably affect Jamaica's environmental sustainability and economy. Actions have been put in place to counteract the negative consequences associated with the loss of the corals, which act as a symbol of hope for the revival of Jamaica's environment.

Nyawira A. Muthiga is an African conservation zoologist who is Director of the Western Indian Ocean Marine Science Association Marine Programme in Kenya. She is a conservation scientist for the Wildlife Conservation Society.

<span class="mw-page-title-main">Marine coastal ecosystem</span> Wildland-ocean interface

A marine coastal ecosystem is a marine ecosystem which occurs where the land meets the ocean. Worldwide there is about 620,000 kilometres (390,000 mi) of coastline. Coastal habitats extend to the margins of the continental shelves, occupying about 7 percent of the ocean surface area. Marine coastal ecosystems include many very different types of marine habitats, each with their own characteristics and species composition. They are characterized by high levels of biodiversity and productivity.

References

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  3. Paleontological Society Medal
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