Erle Ellis

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Erle Ellis
Erle Ellis (March 2021).jpg
Ellis in 2021
Born(1963-03-11)March 11, 1963
Alma mater Cornell University
Scientific career
Fields Environmental geography
Institutions University of Maryland, Baltimore County
Doctoral advisor Roger M. Spanswick

Erle Christopher Ellis (born 11 March 1963 in Washington, DC) is an American environmental scientist. Ellis's work investigates the causes and consequences of long-term ecological changes caused by humans at local to global scales, including those related to the Anthropocene. As of 2015 he is a professor of Geography and Environmental Systems at the University of Maryland, Baltimore County where he directs the Laboratory for Anthroecology.

Contents

Education and career

Ellis received an A.B. in Biology in 1986 and a Ph.D. in Plant Biology from Cornell University in 1990 with Roger Spanswick. After receiving his Ph.D., Ellis taught English at Nanjing Agricultural University in 1990/1991, and returned to China to study nitrogen cycling in China's village landscapes from 1993-1996. [1] [2] From 1996 to 2000, he worked with Stephen Gliessman at the University of California, Santa Cruz. In 2000 he was hired as an assistant professor in the department of Geography and Environmental Systems of the University of Maryland, Baltimore County; he was promoted to professor in 2015. He is a fellow of the Global Land Programme (Scientific Steering Committee 2012-2017) of Future Earth, a former member of the Anthropocene Working Group of the International Commission on Stratigraphy, a Senior Fellow at the Breakthrough Institute (and coauthor of the Ecomodernist Manifesto), and an advisor to the Nature Needs Half movement. He has taught ecology as a visiting professor at the Harvard Graduate School of Design (2013-2015) and was a visiting professor at the Carnegie Institution's Department of Global Ecology (2006/2007).

Work

Ellis' research has explored long-term ecological changes in China's villages, [1] [2] [3] and in 2008, he produced the first global map of anthropogenic biomes (and coined the term "anthrome") together with Navin Ramankutty. [4] [5] [6] In 2019, he helped to lead a massive collaboration of archaeologists to map land use changes around the world over the past 10,000 years. [7]

Ellis has published more than 100 scientific articles relating to global and local ecological changes caused by humans, [8] and is a Global Highly Cited Researcher (Cross-Field, 2018, 2019, 2020). He has also written a number of articles and opinions communicating his work and other matters relating to humans as agents of ecological change, at Science, [9] Nature, [10] New Scientist , [11] [12] The New York Times , [13] [14] Breakthrough Journal, [15] [16] and other venues. His first book, Anthropocene: A Very Short Introduction, [17] was published in 2018.

Awards

Related Research Articles

<span class="mw-page-title-main">Ecology</span> Study of organisms and their environment

Ecology is the natural science of the relationships among living organisms, including humans, and their physical environment. Ecology considers organisms at the individual, population, community, ecosystem, and biosphere level. Ecology overlaps with the closely related sciences of biogeography, evolutionary biology, genetics, ethology, and natural history.

<span class="mw-page-title-main">Holocene extinction</span> Ongoing extinction event caused by human activity

The Holocene extinction, or Anthropocene extinction, is the ongoing extinction event caused by humans during the Holocene epoch. These extinctions span numerous families of plants and animals, including mammals, birds, reptiles, amphibians, fish, and invertebrates, and affecting not just terrestrial species but also large sectors of marine life. With widespread degradation of biodiversity hotspots, such as coral reefs and rainforests, as well as other areas, the vast majority of these extinctions are thought to be undocumented, as the species are undiscovered at the time of their extinction, which goes unrecorded. The current rate of extinction of species is estimated at 100 to 1,000 times higher than natural background extinction rates and is increasing. During the past 100–200 years, biodiversity loss and species extinction have accelerated, to the point that most conservation biologists now believe that human activity has either produced a period of mass extinction, or is on the cusp of doing so. As such, after the "Big Five" mass extinctions, the Holocene extinction event has also been referred to as the sixth mass extinction or sixth extinction; given the recent recognition of the Capitanian mass extinction, the term seventh mass extinction has also been proposed for the Holocene extinction event.

<span class="mw-page-title-main">Biodiversity</span> Variety and variability of life forms

Biodiversity or biological diversity is the variety and variability of life on Earth. Biodiversity is a measure of variation at the genetic, species, and ecosystem level. Biodiversity is not distributed evenly on Earth; it is usually greater in the tropics as a result of the warm climate and high primary productivity in the region near the equator. Tropical forest ecosystems cover less than 10% of earth's surface and contain about 90% of the world's species. Marine biodiversity is usually higher along coasts in the Western Pacific, where sea surface temperature is highest, and in the mid-latitudinal band in all oceans. There are latitudinal gradients in species diversity. Biodiversity generally tends to cluster in hotspots, and has been increasing through time, but will be likely to slow in the future as a primary result of deforestation. It encompasses the evolutionary, ecological, and cultural processes that sustain life.

<span class="mw-page-title-main">Land use</span> Classification of land resources based on what can be built and on its use

Land use involves the management and modification of natural environment or wilderness into built environment such as settlements and semi-natural habitats such as arable fields, pastures, and managed woods. Land use by humans has a long history, first emerging more than 10,000 years ago. It has been defined as "the purposes and activities through which people interact with land and terrestrial ecosystems" and as "the total of arrangements, activities, and inputs that people undertake in a certain land type." Land use is one of the most important drivers of global environmental change.

<span class="mw-page-title-main">Human ecology</span> Study of the relationship between humans and their natural, social, and built environments

Human ecology is an interdisciplinary and transdisciplinary study of the relationship between humans and their natural, social, and built environments. The philosophy and study of human ecology has a diffuse history with advancements in ecology, geography, sociology, psychology, anthropology, zoology, epidemiology, public health, and home economics, among others.

<span class="mw-page-title-main">Anthropocene</span> Proposed geologic epoch for present time

The Anthropocene is a proposed geological epoch dating from the commencement of significant human impact on Earth's geology, landscape, limnology and ecosystems, including, but not limited to, anthropogenic climate change. The nature of the effects of human activities on Earth can be seen for example in biodiversity loss, climate change, biogeography and nocturnality parameters, changes in geomorphology and stratigraphy.

<span class="mw-page-title-main">Paul J. Crutzen</span> Dutch climatologist (1933–2021)

Paul Jozef Crutzen was a Dutch meteorologist and atmospheric chemist. He and Mario Molina and Frank Sherwood Rowland were awarded the Nobel Prize in Chemistry in 1995 for their work on atmospheric chemistry and specifically for his efforts in studying the formation and decomposition of atmospheric ozone. In addition to studying the ozone layer and climate change, he popularized the term Anthropocene to describe a proposed new epoch in the Quaternary period when human actions have a drastic effect on the Earth. He was also amongst the first few scientists to introduce the idea of a nuclear winter to describe the potential climatic effects stemming from large-scale atmospheric pollution including smoke from forest fires, industrial exhausts, and other sources like oil fires.

<span class="mw-page-title-main">William E. Rees</span>

William Rees, FRSC, is Professor Emeritus at the University of British Columbia and former director of the School of Community and Regional Planning (SCARP) at UBC.

<span class="mw-page-title-main">River ecosystem</span> Type of aquatic ecosystem with flowing freshwater

River ecosystems are flowing waters that drain the landscape, and include the biotic (living) interactions amongst plants, animals and micro-organisms, as well as abiotic (nonliving) physical and chemical interactions of its many parts. River ecosystems are part of larger watershed networks or catchments, where smaller headwater streams drain into mid-size streams, which progressively drain into larger river networks. The major zones in river ecosystems are determined by the river bed's gradient or by the velocity of the current. Faster moving turbulent water typically contains greater concentrations of dissolved oxygen, which supports greater biodiversity than the slow-moving water of pools. These distinctions form the basis for the division of rivers into upland and lowland rivers.

<span class="mw-page-title-main">Anthropogenic biome</span>

Anthropogenic biomes, also known as anthromes, human biomes or intensive land-use biome, describe the terrestrial biosphere (biomes) in its contemporary, human-altered form using global ecosystem units defined by global patterns of sustained direct human interaction with ecosystems. Anthromes are generally composed of heterogeneous mosaics of different land uses and land covers, including significant areas of fallow or regenerating habitats.

<span class="mw-page-title-main">Ruth DeFries</span> American geographer

Ruth S. DeFries is an environmental geographer who specializes in the use of remote sensing to study Earth's habitability under the influence of human activities, such as deforestation, that influence regulating biophysical and biogeochemical processes. She was one of 24 recipients of the 2007 MacArthur Fellowship, and was elected to the United States National Academy of Sciences in 2006.

<span class="mw-page-title-main">Environmental issues</span> Concerns and policies regarding the biophysical environment

Environmental issues are disruptions in the usual function of ecosystems. Further, these issues can be caused by humans or they can be natural. These issues are considered serious when the ecosystem cannot recover in the present situation, and catastrophic if the ecosystem is projected to certainly collapse.

<span class="mw-page-title-main">Planetary boundaries</span> Limits not to be exceeded if humanity wants to survive in a safe ecosystem

Planetary boundaries are a framework to describe limits to the impacts of human activities on the Earth system. Beyond these limits, the environment may not be able to self-regulate anymore. This would mean the Earth system would leave the period of stability of the Holocene, in which human society developed. The framework is based on scientific evidence that human actions, especially those of industrialized societies since the Industrial Revolution, have become the main driver of global environmental change. According to the framework, "transgressing one or more planetary boundaries may be deleterious or even catastrophic due to the risk of crossing thresholds that will trigger non-linear, abrupt environmental change within continental-scale to planetary-scale systems."

Novel ecosystems are human-built, modified, or engineered niches of the Anthropocene. They exist in places that have been altered in structure and function by human agency. Novel ecosystems are part of the human environment and niche, they lack natural analogs, and they have extended an influence that has converted more than three-quarters of wild Earth. These anthropogenic biomes include technoecosystems that are fuelled by powerful energy sources including ecosystems populated with technodiversity, such as roads and unique combinations of soils called technosols. Vegetation associations on old buildings or along field boundary stone walls in old agricultural landscapes are examples of sites where research into novel ecosystem ecology is developing.

<span class="mw-page-title-main">Carl Folke</span> Swedish environmental scientist (born 1955)

Carl Folke, is a trans-disciplinary environmental scientist and a member of the Royal Swedish Academy of Sciences. He is a specialist in economics, resilience, and social-ecological systems, viewing such systems as intertwined and potentially unexpected in their interactions. As a framework for resource management, this perspective brings important insights to environmental management, urban planning, and climate adaptation. He suggests ways to improve our ability to understand complex social-ecological interactions, deal with change, and build resilience, often working at smaller scales as a step towards addressing larger scales.

<span class="mw-page-title-main">Lian Pin Koh</span> Singaporean politician

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<span class="mw-page-title-main">Geological event</span> Earth

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<span class="mw-page-title-main">Jens-Christian Svenning</span> Danish ecologist, biogeographer and academic

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References

  1. 1 2 Mervis, Jeff (1995). "Field research also needs the human touch". Science. 270 (5239): 1145. doi:10.1126/science.270.5239.1145. S2CID   129371454.
  2. 1 2 Ellis, Erle; Wang, Si Ming (1997). "Sustainable traditional agriculture in the Tai Lake Region of China". Agriculture, Ecosystems & Environment. 61 (2–3): 177–193. Bibcode:1997AgEE...61..177E. doi: 10.1016/S0167-8809(96)01099-7 . S2CID   85270811.
  3. Ellis, Erle; Neerchal, Nagaraj; Peng, Kui; Xiao, Hong Sheng; Wang, Hongqing; Yan, Zhuang; Li, Shou Cheng; Wu, Jun Xi; Jiao, Jia Guo; Ouyang, Hua; Cheng, Xu; Yang, Lin Zhang (2009). "Estimating long-term changes in China's village landscapes". Ecosystems. 12 (2): 279–297. Bibcode:2009Ecosy..12..279E. CiteSeerX   10.1.1.567.3873 . doi:10.1007/s10021-008-9222-4. S2CID   23726932.
  4. Ellis, Erle; Ramankutty, Navin (2008). "Putting people in the map: anthropogenic biomes of the world". Frontiers in Ecology and the Environment. 6 (8): 439–447. Bibcode:2008FrEE....6..439E. doi: 10.1890/070062 .
  5. Madrigal, Alexis (2007). "Mapping the Humanized World". Wired.
  6. Holden, Constance (2007). "Humankind's global footprint". Science. 318 (5858): 1839. doi:10.1126/science.318.5858.1839c. S2CID   220093764.
  7. Ellis, Erle; Goldewijk, Kees Klein; Gaillard, Marie-José; Kaplan, Jed O.; Thornton, Alexa; Powell, Jeremy; Garcia, Santiago Munevar; Beaudoin, Ella; Zerboni, Andrea (2019-08-30). "Archaeological assessment reveals Earth's early transformation through land use". Science. 365 (6456): 897–902. Bibcode:2019Sci...365..897S. doi:10.1126/science.aax1192. hdl: 10150/634688 . ISSN   0036-8075. PMID   31467217. S2CID   201674203.
  8. Google Scholar Report
  9. Ellis, Erle C. (2019-06-28). "Sharing the land between nature and people". Science. 364 (6447): 1226–1228. Bibcode:2019Sci...364.1226E. doi: 10.1126/science.aax2608 . ISSN   0036-8075. PMID   31249042.
  10. Ellis, Erle; Maslin, Mark; Boivin, Nicole; Bauer, Andrew (2016). "Involve social scientists in defining the Anthropocene". Nature. 540 (7632): 192–193. doi: 10.1038/540192a . hdl: 11858/00-001M-0000-002C-1979-2 .
  11. Ellis, Erle (March 9, 2013). "Time to forget global tipping points". NewScientist. No. 2907.
  12. Ellis, Erle (June 14, 2011). "Forget Mother Nature: This is a World of Our Making". NewScientist. No. 2816.
  13. Ellis, Erle (September 13, 2013). "Overpopulation Is Not the Problem". The New York Times.
  14. Ellis, Erle (August 11, 2018). "Opinion | Science Alone Won't Save the Earth. People Have to Do That". The New York Times. Retrieved 2018-08-16.
  15. Ellis, Erle (2017). "Nature for the People: Toward A Democratic Vision for the Biosphere". Breakthrough Journal (7): 15–25.
  16. Ellis, Erle (2011). "The Planet of No Return: Human Resilience on an Artificial Earth". Breakthrough Journal (2): 39–44.
  17. Ellis, Erle (2018). Anthropocene: A Very Short Introduction. Vol. 1. Oxford University Press. doi:10.1093/actrade/9780198792987.001.0001. ISBN   9780198792987.
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