Evelyn Chrystalla Pielou
Pielou in the meadows above Kelowna and Okanagan Lake in spring
Born(1924-02-20)20 February 1924
Died16 July 2016(2016-07-16) (aged 92)
EducationUniversity of London
SpousePatrick Pielou
Scientific career
InstitutionsCanadian Department of Forestry
Canadian Department of Agriculture
Queen's University
Dalhousie University
University of Lethbridge

Evelyn Chrystalla "E. C." Pielou (February 20, 1924 – July 16, 2016) was a Canadian statistical ecologist.

Biography

Pielou studied at the University of London, where she obtained her bachelor's degree in botany in 1951 and her PhD in 1962.[1] From 1963 to 1964, she worked as a researcher for the Canadian Department of Forestry, followed by the Canadian Department of Agriculture between 1964 and 1967. Later she was professor of biology at Queen's University, Kingston, Ontario (1968–71) and at Dalhousie University in Halifax, Nova Scotia (1974–81) and then Oil Sands Environmental Research Professor working out of the University of Lethbridge, Alberta (1981–86).

Pielou was the second woman to win the Eminent Ecologist Award (1986) from the Ecological Society of America. She has contributed significantly to the development of mathematical ecology, the mathematical modeling of natural systems, and wrote six academic books on the subject. She lived in Comox, British Columbia, Canada, and wrote popular books on natural history until her death in July, 2016.[2]

Contributions

Pielou's evenness

Pielou's evenness[3] is an index that measures diversity along with species richness. While species richness is the number of different species in a given area, evenness is the count of individuals of each species in an area. A calculated value of Pielou's evenness ranges from 0 (no evenness) to 1 (complete evenness). When taken into account along with other indices such as Simpson's index or Shannon's index, a more thorough description of a community's structure can be interpreted.[4]

Mathematical ecology

Pielou's approach added mathematical modelling to ecology.[5] Quantifiable analyses could be done with theoretical ecology in areas like population and community ecology. Mathematics would provide insight into, for example, which factors are most significant to ecosystem stability and by how much compared to others.[1]

One of Pielou's papers mentioned the importance and uses of mathematical modelling in ecology as well as their limitations.[6] Population dynamics was better explained as to why they behaved in the ways that they did through modelling. Predictions to an ecosystem's behaviour and its outcomes became more of an explanation as to why, rather than simply a forecast, through the use of such models. If a model was unrealistic, it did not mean that it was wrong. Mathematical modelling allowed the creation of new hypotheses looking into why the model did not match observations. An outcome was not always one or the other, as it might have been different due to unforeseen circumstances or conditions initially thought as unimportant. This allowed mathematical models in ecology to be used as a standard for comparisons with other systems. No two ecosystems are identical, and the significant differences between them could be more easily identified.

Selected works

Scholarly books

  • Introduction to Mathematical Ecology (1969). Wiley-Interscience, New York. ISBN 0-471-68918-1
  • Population and community ecology: principles and methods (1974). Gordon and Breach, New York. ISBN 0-677-03580-2
  • Ecological diversity (1975). Wiley, New York. ISBN 0-471-68925-4
  • Mathematical ecology (1977). Wiley, New York. ISBN 0-471-01993-3
  • Biogeography (1979). Wiley, New York. ISBN 0-471-05845-9
  • The interpretation of ecological data: a primer on classification and ordination (1984). Wiley, New York. ISBN 0-471-88950-4

References

  1. 1 2 "A Homage to EC Pielou: One of the 20th Century's Most Accomplished Scientists". British Ecological Society. 2017.
  2. "Chris Pielou (Saturday, 16 Jul 2016 )". Campbell River Mirror. Archived from the original on 2016-09-18.
  3. "How to Calculate Species Evenness". Sciencing. 2017.
  4. Heip, Carlo; Herman, Peter (2001). "Indices of diversity and evenness". Océanis. 24: 61–87. ISSN 0182-0745.
  5. Bentley, Barbara (1987). "Eminent Ecologist, E. C. Pielou". The Bulletin of the Ecological Society of America. 68 (1): 30–31. doi:10.2307/20166558. JSTOR 20166558. S2CID 162472858.
  6. Pielou, EC (1981). "The Usefulness of Ecological Models: A Stock-Taking". The Quarterly Review of Biology. 56: 17–31. doi:10.1086/412081. S2CID 84887700.
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