Ten Suggestions to Strengthen the Science of Ecology

Abstract There are few well-documented, general ecological principles that can be applied to pressing environmental issues. When they discuss them at all, ecologists often disagree about the relative importance of different aspects of the science's original and still important issues. It may be that the sum of ecological science is not open to universal statements because of the wide range of organizational, spatial, and temporal phenomena, as well as the sheer number of possible interactions. We believe, however, that the search for general principles has been inadequate to establish the extent to which generalities are possible. We suggest that ecologists may need to reconsider how we view our science. This article lists 10 suggestions for ecology, recognizing the many impediments to finding generalizations in this field, imposed in part by the complexity of the subject and in part by limits to funding for the study of ecology.

[1]  C. Darwin Charles Darwin The Origin of Species by means of Natural Selection or The Preservation of Favoured Races in the Struggle for Life , 2004 .

[2]  E. Rastetter,et al.  Using Mechanistic Models to Scale Ecological Processes across Space and Time , 2003 .

[3]  J. Magnuson,et al.  Disturbance Dynamics and Ecological Response: The Contribution of Long-Term Ecological Research , 2003 .

[4]  J. Hobbie,et al.  Scientific Accomplishments of the Long Term Ecological Research Program: An Introduction , 2003 .

[5]  M. Harmon,et al.  Ecological Variability in Space and Time: Insights Gained from the US LTER Program , 2003 .

[6]  DEBRA P. C. PETERS,et al.  Long-Term and Large-Scale Perspectives on the Relationship between Biodiversity and Ecosystem Functioning , 2003 .

[7]  Pierre Legendre,et al.  Integrating heterogeneity across spatial scales: interactions between Atrina zelandica and benthic macrofauna , 2002 .

[8]  F. Keesing,et al.  Frontiers of Ecology , 2001 .

[9]  C. Margules,et al.  Indicators of Biodiversity for Ecologically Sustainable Forest Management , 2000 .

[10]  E. David Ford,et al.  Scientific Method for Ecological Research , 2000 .

[11]  Douglas H. Johnson The Insignificance of Statistical Significance Testing , 1999 .

[12]  S. Carpenter,et al.  Readings in ecology , 1999 .

[13]  Kimberly A. With The Theory of Conservation Biology , 1997 .

[14]  R. Hilborn,et al.  The Ecological Detective: Confronting Models with Data , 1997 .

[15]  Jacob Weiner,et al.  On the Practice of Ecology , 1995 .

[16]  A. Magurran,et al.  Biological diversity : the coexistence of species on changing landscapes , 1994 .

[17]  A. Moffat Theoretical ecology: winning its spurs in the real world. , 1994, Science.

[18]  D. Botkin Forest Dynamics: An Ecological Model , 1993 .

[19]  Kristin Shrader-Frechette,et al.  Method in Ecology: Strategies for Conservation , 1993 .

[20]  Eugene P. Odum,et al.  GREAT IDEAS IN ECOLOGY FOR THE 1990S , 1992 .

[21]  Lawrence B. Slobodkin,et al.  A Critique for Ecology , 1991 .

[22]  J. L. Gittleman,et al.  Foundations of Ecology: Classic Papers with Commentaries , 1991 .

[23]  M. Pagel,et al.  The comparative method in evolutionary biology , 1991 .

[24]  C. Young Larval ecology of marine invertebrates: A sesquicentennial history , 1990 .

[25]  Nelson G. Hairston,et al.  Ecological Experiments: Purpose, Design and Execution , 1989 .

[26]  C. Loehle Philosophical tools: potential contributions to ecology , 1988 .

[27]  E. Mayr Toward a new philosophy of biology: observations of an evolutionist , 1988 .

[28]  T. Malthus An essay on the principle of population, as it affects the future improvement of society , 2006 .

[29]  M. Levandowsky,et al.  Modeling Nature: Episodes in the History of Population Ecology , 1985 .

[30]  S. Hurlbert Pseudoreplication and the Design of Ecological Field Experiments , 1984 .

[31]  Thomas W. Schoener,et al.  Field Experiments on Interspecific Competition , 1983, The American Naturalist.

[32]  Imre Lakatos,et al.  The methodology of scientific research programmes: Contents , 1978 .

[33]  Imre Lakatos,et al.  The Methodology of Scientific Research Programmes , 1978 .

[34]  A. Macfadyen SOME THOUGHTS ON THE BEHAVIOUR OF ECOLOGISTS , 1975 .

[35]  G. Kolata Theoretical ecology: beginnings of a predictive science. , 1974, Science.

[36]  P. Dayton,et al.  Two Cases of Resource Partitioning in an Intertidal Community: Making the Right Prediction for the Wrong Reason , 1973, The American Naturalist.

[37]  R. Macarthur Mathematical Ecology and Its Place among the Sciences. (Book Reviews: Geographical Ecology. Patterns in the Distribution of Species) , 1974 .

[38]  S. Fretwell Populations in a seasonal environment. , 1973, Monographs in population biology.

[39]  T. Schoener The Biological Domain , 1972, Science.

[40]  C. E. King,et al.  Readings in population biology , 1971 .

[41]  C. Darwin On the Origin of Species by Means of Natural Selection: Or, The Preservation of Favoured Races in the Struggle for Life , 2019 .

[42]  W. E. Hazen Readings in Population and Community Ecology , 1964 .

[43]  F. E. Egler In Defense of Ecology , 1964 .

[44]  Kenneth E. F. Watt,et al.  Use of Mathematics in Population Ecology , 1962 .

[45]  G. E. Hutchinson,et al.  Homage to Santa Rosalia or Why Are There So Many Kinds of Animals? , 1959, The American Naturalist.

[46]  D. Lack The natural regulation of animal numbers , 1954 .

[47]  H. G. Andrewartha,et al.  The distribution and abundance of animals. , 1954 .

[48]  G. E. Hutchinson,et al.  Ecological Studies on Populations , 1949 .

[49]  Ernst Haeckel,et al.  Generelle Morphologie der Organismen: Allgemeine Grundzüge der organischen Formen-Wissenschaft, mechanisch begründet durch die von Charles Darwin reformierte Descendenz-Theorie. Band 1: Allgemeine Anatomie. Band 2: Allgemeine Entwicklungsgeschichte , 1866 .

[50]  Ernst Haeckel Generelle morphologie der organismen. Allgemeine grundzüge der organischen formen-wissenschaft, mechanisch begründet durch die von Charles Darwin reformirte descendenztheorie, von Ernst Haeckel , 1866 .