Earth:Novel ecosystem

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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 (including urban, suburban, and rural), they lack natural analogs, and they have extended an influence that has converted more than three-quarters of wild Earth [citation needed]. These anthropogenic biomes include technoecosystems that are fuelled by powerful energy sources (fossil and nuclear) 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.

Overview

Human society has transformed the planet to such an extent that we may have ushered in a new epoch known as the anthropocene. The ecological niche of the anthropocene contains entirely novel ecosystems that include technosols, technodiversity, anthromes, and the technosphere. These terms describe the human ecological phenomena marking this unique turn in the evolution of Earth's history.[1][2][3][4][5] The total human ecosystem (or anthrome) describes the relationship of the industrial technosphere to the ecosphere.

Technoecosystems interface with natural life-supporting ecosystems in competitive and parasitic ways.[1][6] [7] Odum (2001) [8] attributes this term to a 1982 publication by Zev Naveh:[5] "Current urban-industrial society not only impacts natural life-support ecosystems, but also has created entirely new arrangements that we can call techno-ecosystems, a term believed to be first suggested by Zev Neveh (1982). These new systems involve new, powerful energy sources (fossil and atomic fuels), technology, money, and cities that have little or no parallels in nature."[8]:137 The term technoecosystem, however, appears earliest in print in a 1976 technical report[9] and also appears in a book chapter (see [10] in Lamberton and Thomas (1982) written by Kenneth E. Boulding).[11]

Novel Ecosystems

A novel ecosystem is one that has been heavily influenced by humans but is not under human management. A working tree plantation doesn't qualify; one abandoned decades ago would.

Marris 2009[12]:450

Novel ecosystems "differ in composition and/or function from present and past systems".[13] Novel ecosystems are the hallmark of the recently proposed anthropocene epoch. They have no natural analogs due to human alterations on global climate systems, invasive species, a global mass extinction, and disruption of the global nitrogen cycle.[13][14][15][16] Novel ecosystems are creating many different kinds of dilemmas for terrestrial[17] and marine[18] conservation biologists. On a more local scale, abandoned lots, agricultural land, old buildings, field boundary stone walls or residential gardens provide study sites on the history and dynamics of ecology in novel ecosystems.[12][19][20][21]

Anthropogenic biomes

Anthropogenic biomes tell a completely different story, one of “human systems, with natural ecosystems embedded within them”. This is no minor change in the story we tell our children and each other. Yet it is necessary for sustainable management of the biosphere in the 21st century.[22]:445

Ellis (2008)[22] identifies twenty-one different kinds of anthropogenic biomes that sort into the following groups: 1) dense settlements, 2) villages, 3) croplands, 4) rangeland, 5) forested, and 6) wildlands. These anthropogenic biomes (or anthromes for short) create the technosphere that surrounds us and are populated with diverse technologies (or technodiversity for short). Within these anthromes the human species (one species out of billions) appropriates 23.8% of the global net primary production. "This is a remarkable impact on the biosphere caused by just one species." [23]

Noosphere

Main page: Philosophy:Noosphere

Noosphere (sometimes noösphere) is the "sphere of human thought".[24] The word is derived from the Greek νοῦς (nous "mind") + σφαῖρα (sphaira "sphere"), in lexical analogy to "atmosphere" and "biosphere".[25] Introduced by Pierre Teilhard de Chardin 1922 [26] in his Cosmogenesis".[27] Another possibility is the first use of the term by Édouard Le Roy, who together with Chardin was listening to lectures of Vladimir Vernadsky at Sorbonne. In 1936 Vernadsky presented on the idea of the Noosphere in a letter to Boris Leonidovich Lichkov (though, he states that the concept derives from Le Roy).

Technosphere

The technosphere is the part of the environment on Earth where technodiversity extends its influence into the biosphere.[4][5][28] "For the development of suitable restoration strategies, a clear distinction has to be made between different functional classes of natural and cultural solar-powered biosphere and fossil-powered technosphere landscapes, according to their inputs and throughputs of energy and materials, their organisms, their control by natural or human information, their internal self-organization and their regenerative capacities."[29] The weight of Earth's technosphere has been calculated as 30 trillion tons, a mass greater than 50 kilos for every square metre of the planet's surface.[30]

Technoecosystems

The concept of technoecosystems has been pioneered by ecologists Howard T. Odum and Zev Naveh. Technoecosystems interfere with and compete against natural systems. They have advanced technology (or technodiversity) money-based market economies and have a large ecological footprints. Technoecosystems have far greater energy requirements than natural ecosystems, excessive water consumption, and release toxic and eutrophicating chemicals.[1][5][8][29] Other ecologists have defined the extensive global network of road systems as a type of technoecosystem.[3]

Technoecotypes

"Bio-agro- and techno-ecotopes are spatially integrated in larger, regional landscape units, but they are not structurally and functionally integrated in the ecosphere. Because of the adverse impacts of the latter and the great human pressures on bio-ecotopes, they are even antagonistically related and therefore cannot function together as a coherent, sustainable ecological system."[29]:136

Technosols

Technosols are a new form of ground group in the World Reference Base for Soil Resources (WRB).[31] Technosols are " mainly characterised by anthropogenic parent material of organic and mineral nature and which origin can be either natural or technogenic."[32]:537

Technodiversity

Technodiversity refers to the varied diversity of technological artifacts that exist in technoecosystems.[2][33][34][35][36][37]

References

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  2. 2.0 2.1 Stairs, D. (1997). "Biophilia and technophilia: Examining the nature/culture split in design theory.". Design Issues 13 (3): 37–44. doi:10.2307/1511939. 
  3. 3.0 3.1 Lugoa, A. E.; Gucinski, H. (2000). "Function, effects, and management of forest roads.". Forest Ecology and Management 133 (3): 249–262. doi:10.1016/s0378-1127(99)00237-6. http://www.fsl.orst.edu/~waring/Umatilla%20Nat.%20Forest%20Wilcat%20Thinning%20and%20Fuel%20Mgmt%20Plan/Lugo%20and%20Gucinski%202000.pdf. 
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  5. 5.0 5.1 5.2 5.3 Naveh, Z. (1982). Landscape ecology as an emerging branch of human ecosystem science.. 12. 189–237. doi:10.1016/S0065-2504(08)60079-3. ISBN 9780120139125. https://archive.org/details/advancesecologic12macf/page/189. 
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  12. 12.0 12.1 Marris, E. (2009). "Ragamuffin Earth". Nature 460 (7254): 450–453. doi:10.1038/460450a. PMID 19626087. http://www.nature.com/news/2009/090722/pdf/460450a.pdf. 
  13. 13.0 13.1 Hobbs, R. J.; Higgs, E.; Harris, J. A. (2009). "Novel ecosystems: implications for conservation and restoration". Trends in Ecology & Evolution 24 (11): 599–605. doi:10.1016/j.tree.2009.05.012. PMID 19683830. 
  14. Jackson, S. T.; Hobbs, R. J. (2009). "Ecological restoration in the light of ecological history". Science 325 (5940): 567–569. doi:10.1126/science.1172977. PMID 19644108. Bibcode2009Sci...325..567J. http://environmentportal.in/files/Ecological%20restoration.pdf. 
  15. Seastedt, T. R.; Hobbs, R. J.; Suding, K. N. (2008). "Management of novel ecosystems: Are novel approaches required?". Frontiers in Ecology and the Environment 6 (10): 547–553. doi:10.1890/070046. https://api.research-repository.uwa.edu.au/files/1573482/11401_PID11401.pdf. 
  16. Rockström, J. et al. (September 2009). "A safe operating space for humanity". Nature 461 (7263): 472–475. doi:10.1038/461472a. PMID 19779433. Bibcode2009Natur.461..472R. 
  17. Lindenmayer, D. B. et al. (2008). "Novel ecosystems resulting from landscape transformation create dilemmas for modern conservation practice". Conservation Letters 1 (3): 129–135. doi:10.1111/j.1755-263X.2008.00021.x. http://fog.ccsf.cc.ca.us/ldigirol/documents/novelecosystemscreatedilemmasformodernconservation.pdf. 
  18. Schläppy, Marie-Lise; Hobbs, Richard J. (2019). "A triage framework for managing novel, hybrid and designed marine ecosystems". Global Change Biology 25 (10): 3215–3223. doi:10.1111/gcb.14757. PMID 31313869. Bibcode2019GCBio..25.3215S. 
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  20. Archibald, Carla L.; McKinney, Matthew; Mustin, Karen; Shanahan, Danielle F.; Possingham, Hugh P. (2017-06-01). "Assessing the impact of revegetation and weed control on urban sensitive bird species" (in en). Ecology and Evolution 7 (12): 4200–4208. doi:10.1002/ece3.2960. ISSN 2045-7758. PMID 28649333. 
  21. Rogers, Andrew M.; Chown, Steven L. (2014-01-01). "Novel ecosystems support substantial avian assemblages: the case of invasive alien Acacia thickets" (in en). Diversity and Distributions 20 (1): 34–45. doi:10.1111/ddi.12123. ISSN 1472-4642. 
  22. 22.0 22.1 Ellis, E. C.; Ramankutty, N. (2008). "Putting people in the map: Anthropogenic biomes of the world". Frontiers in Ecology and the Environment 6 (8): 439–447. doi:10.1890/070062. http://ecotope.org/people/ellis/papers/ellis_2008.pdf. 
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  24. Georgy S. Levit: The Biosphere and the Noosphere Theories of V. I. Vernadsky and P. Teilhard de Chardin: A Methodological Essay. International Archives on the History of Science/Archives Internationales D'Histoire des Sciences, 50 (144) - 2000: S. 160-176 "Archived copy". Archived from the original on 2005-05-17. https://web.archive.org/web/20050517081543/http://www2.uni-jena.de/biologie/ehh/personal/glevit/Teilhard.pdf. Retrieved 2005-05-17. 
  25. Lane, David H. (1996) (in en). The Phenomenon of Teilhard: Prophet for a New Age. Mercer University Press. ISBN 978-0-86554-498-7. https://books.google.com/books?id=QrwityQkdxkC. 
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  27. Tambov State Technical University: Russian Scientist V.I.Vernadsky, in Russian
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  31. FOA (Food and Agriculture Organization of the United Nations) (2006), "World reference base for soil resources 2006. A framework for international classification, correlation and communication", World Soil Resour Rep 132: 145 
  32. Monserie, M.; Watteau, F.; Villemin, G.; Ouvrard, S.; Morel, J. (2009). "Technosol genesis: identification of organo-mineral associations in a young Technosol derived from coking plant waste materials". J Soils Sediments 9 (6): 537–546. doi:10.1007/s11368-009-0084-y. 
  33. Cooper, B. (2000). "Modelling research and development: How do firms solve design problems?". Journal of Evolutionary Economics 10 (4): 395–413. doi:10.1007/s001910000040. 
  34. Sorensen, K. H.; Williams, R., eds (2002). Shaping technology, guiding policy: Concepts, spaces and tools.. Cheltenham, UK & Northampton: Edward Elgar Publishing Ltd. pp. 404. ISBN 978-1-84064-649-8. 
  35. Adams, C. (2009). "Applied catalysis: A predictive socioeconomic history". Topics in Catalysis 52 (8): 924–934. doi:10.1007/s11244-009-9251-z. 
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  37. Williams, R.; Sörensen, K. H., eds (2002). "The cultural shaping of technologies and the politics of technodiversity.". Shaping Technology, Guiding Policy: Concepts, Spaces & Tools. Cheltenham: Edward Elgar. pp. 173–194. ISBN 978-1-84064-649-8. 



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