Biological integrity is associated with how "pristine" an environment is and its function relative to the potential or original state of an ecosystem before human alterations were imposed. Biological integrity is built on the assumption that a decline in the values of an ecosystem's functions are primarily caused by human activity or alterations. The more an environment and its original processes are altered, the less biological integrity it holds for the community as a whole. If these processes were to change over time naturally, without human influence, the integrity of the ecosystem would remain intact. The integrity of the ecosystem relies heavily on the processes that occur within it because those determine what organisms can inhabit an area and the complexities of their interactions. Most of the applications of the notion of biological integrity have addressed aquatic environments, but there have been efforts to apply the concept to terrestrial environments.[1] Determining the pristine condition of the ecosystem is in theory scientifically derived, but deciding which of the many possible states or conditions of an ecosystem is the appropriate or desirable goal is a political or policy decision and is typically the focus of policy and political disagreements.[2] Ecosystem health is a related concept but differs from biological integrity in that the "desired condition" of the ecosystem or environment is explicitly based on the values or priorities of society.[3]
History
editThe concept of biological integrity first appeared in the 1972 amendments to the U.S. Federal Water Pollution Control Act, also known as the Clean Water Act.[4] The United States Environmental Protection Agency (EPA) had used the term as a way to gauge the standards to which water should be maintained, but the vocabulary instigated years of debate about the implications of not only the meaning of biological integrity, but also how it can be measured. EPA sponsored the first conference about the term in March 1975. The conference, called "The Integrity of Water", provided the first accepted definition of biological integrity.[5] In 1981, EPA assembled a field of experts from the U.S. Fish and Wildlife Service, academia, and its own staff to further refine the definition and identify key indicators to quantitatively measure biological integrity. The conference not only identified a definition, but also methods to evaluate the community, and they established that multiple sites should be used to determine the condition of the environment.[6]
Definition
editToday, the accepted definition is "the capability of supporting and maintaining a balanced, integrated, adaptive community of organisms having a species composition, diversity, and functional organization comparable to that of the natural habitat of the region."[7] This definition was adapted from David Frey's paper delivered at the 1975 "Integrity of Water" conference.[5]: 127–140 The implications of this definition are that living systems have a variety of scales relative to which they exist, that one can quantify the parts that sustain or contribute to a system's functioning and that all systems must be seen in the context of their environments and evolutionary history. This term primarily refers to aquatic environments because the vocabulary is derived from the Clean Water Act, but the concepts can be applied to other ecosystems.
Evaluation methods
editIn order to quantify and evaluate the biological integrity of a system, the index of biological integrity (IBI) was formulated by James Karr in 1981.[8][9] In this index the baseline biological integrity (its function before human influence) and the current functions of an ecosystem are measured against one another to evaluate how much of ecosystem's function has been preserved. The IBI evaluates the ecosystem by utilizing biosurveys and comparing species richness, indicator taxa, hybrids, and invasive species. IBIs are used primarily to evaluate aquatic ecosystems although the concept is applicable to measuring biological integrity in any natural ecosystem.
See also
editReferences
edit- ^ Andreasen, James; O'Neill, Robert; Noss, Reed; Sloser, Nicholas (2001). "Considerations for the development of a terrestrial index of ecological integrity". Ecological Indicators. 1 (1): 21-35. doi:10.1016/S1470-160X(01)00007-3.
- ^ Landis, Wayne G. (2009). "The Exxon Valdez oil spill revisited and the dangers of normative science". Integrated Environmental Assessment and Management. 3 (3): 439–431. doi:10.1002/ieam.5630030312. PMID 17695114.
- ^ Wicklum, D.; Davies, Ronald W. (1995). "Ecosystem health and integrity?". Canadian Journal of Botany. 73 (7): 997–1000. doi:10.1139/b95-108.
- ^ United States. Clean Water Act (1972). "The objective of this chapter is to restore and maintain the chemical, physical, and biological integrity of the Nation's waters." Section 101(a), 33 U.S.C. § 1251(a).
- ^ a b Ballentine, R. Kent; Guarraia, Leonard J., eds. (1975). The Integrity of Water. Proceedings of a Symposium, March 10–12, 1975. Washington, D.C.: U.S. Environmental Protection Agency. EPA 832-R-75-103.
- ^ Hughes, R.M., J.H. Gakstatter, M.A. Shirazi.and J.M. Omernik (1982). "An approach for determining biological integrity in flowing waters." Archived June 12, 2010, at the Wayback Machine Pages 877-888 in T.B. Brown (editor), In Place Resource Inventories: Principles and Practices, A National Workshop. Paper presented at the workshop August 9–14, 1981. Society of American Foresters Archived 2016-05-19 at the Wayback Machine, Bethesda, MD.
- ^ Karr, James R.; Dudley, Daniel R. (January 1991). "Ecological perspective on water quality goals". Environmental Management. 5. Springer Nature: 55–68. doi:10.1007/BF01866609. S2CID 153568249.
- ^ Karr, James R. (1981). "Assessment of biotic integrity using fish communities". Fisheries. 6 (6): 21–27. doi:10.1577/1548-8446(1981)006<0021:AOBIUF>2.0.CO;2. ISSN 1548-8446.
- ^ Karr, James R. (1991-02-01). "Biological Integrity: A Long-Neglected Aspect of Water Resource Management". Ecological Applications. 1 (1). Ecological Society of America: 66–84. doi:10.2307/1941848. hdl:10919/46860. JSTOR 1941848. PMID 27755684. S2CID 207356437.
External links
edit- EPA Bioindicators - Biological Integrity
- Online biomonitoring by recording bivalve mollusc activity worldwide 24/7, the MolluSCAN eye Archived 2016-11-13 at the Wayback Machine project.