Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 7-Day Trial for You or Your Team.

Learn More →

DeepDyve requires Javascript to function. Please enable Javascript on your browser to continue.

Energy Storage and the Balance of Producers and Decomposers in Ecological Systems

Olson, Jerry S.

Ecology , Volume 44 (2) – Apr 1, 1963

Read Article

Download PDF

Share Full Text for Free

10 pages

Loading next page...

References (49)

J. Ovington, D. Heitkamp (1960)
THE ACCUMULATION OF ENERGY IN FOREST PLANTATIONS IN BRITAIN
Journal of Ecology, 48
J. Ovington (1961)
Some Aspects of Energy Flow in Plantations of Pinus sylvestris L.
Annals of Botany, 25
E. Odum, Alfred Smalley (1959)
COMPARISON OF POPULATION ENERGY FLOW OF A HERBIVOROUS AND A DEPOSIT-FEEDING INVERTEBRATE IN A SALT MARSH ECOSYSTEM.
Proceedings of the National Academy of Sciences of the United States of America, 45 4
W. Wallis (1942)
Compounding Probabilities from Independent Significance Tests
Econometrica, 10
(1936)
Pinus palustris (longleaf pine, LLP), Pinus elliotii (slash pine, SHP
(1958)
Oak Ridge Nat. Lab., ORNL-2806. . 1959b. Exponential equations relating productivity, decay, and accumulation of forest litter
(1936)
Field characteristics and partial chemical analyses of the humus layer of longleaf pine forest soils
R. Beyers (1963)
The Metabolism of Twelve Aquatic Laboratory Microecosystems
Ecological Monographs, 33
A. Smalley (1960)
Energy Flow of a Salt Marsh Grasshopper Population
Ecology, 41
(1957)
Analog computer models for movement of radionuclides through ecosystems
(1930)
Northern pine forest data from Minnesota adapted from Alway and Zon
Raymond Lindeman (1942)
The trophic-dynamic aspect of ecology
Bulletin of Mathematical Biology, 53
(1949)
emphasized the high accumulation of litter in the California profiles
P. Parsons (1958)
Competition between Genotypes in Drosophila melanogaster
Nature, 182
(1952)
Associated measurements
R. Shanks, J. Olson (1961)
First-Year Breakdown of Leaf Litter in Southern Appalachian Forests
Science, 134
(1955)
The effects of population density and composition on viability in Drosophila viielcanogaster
L. Metz (1954)
Forest Floor in the Piedmont Region of South Carolina1
Soil Science Society of America Journal, 18
A. Sokoloff (1955)
COMPETITION BETWEEN SIBLING SPECIES OF THE PSEUDOOBSCURA SUBGROUP OF DROSOPHILA
Ecological Monographs, 25
G. Schlager (1963)
THE ECOLOGICAL GENETICS OF THE MUTANT SOOTY IN POPULATIONS OF TRIBOLIUM CASTANEUM ,
Evolution, 17
(1960)
litter, and incorporated humus like the analog computer graphs of Neel and Olson
F. Golley (1960)
Energy Dynamics of a Food Chain of an Old‐Field Community
Ecological Monographs, 30
L. Metz (1952)
Weight and Nitrogen and Calcium Content of the Annual Litter Fall of Forests in the South Carolina Piedmont
Soil Science Society of America Journal, 16
E. Kuenzler (1961)
STRUCTURE AND ENERGY FLOW OF A MUSSEL POPULATION IN A GEORGIA SALT MARSH1
Limnology and Oceanography, 6
H. Cowles (1899)
The Ecological Relations of the Vegetation on the Sand Dunes of Lake Michigan [Continued]
Botanical Gazette, 27
R. Sokal, I. Huber (1963)
Competition Among Genotypes in Tribolium castaneum at Varying Densities and Gene Frequencies (The Sooty Locus)
The American Naturalist, 97
(1930)
Quantity and nutrient content of pine leaf litter
T. Hiroyoshi (1961)
The linkage map of the house fly, Musca domestica L.
Genetics, 46
L. Birch (1955)
SELECTION IN DROSOPHILA PSEUDOOBSCURA IN RELATION TO CROWDING
Evolution, 9
R. Neel, J. Olson (1962)
Use of analog computers for simulating the movement of isotopes in ecological systems.
ORNL. U.S. Atomic Energy Commission, 3172
(1963)
Where L and k can be estimated independently of X, then their ratio might be used to predict the steady-state level yet to be accumulated in an ecosystem
W. Langford (1959)
Statistical Methods
Nature, 184
J. Mcginnis (1958)
Forest Litter and Humus Types of East Tennessee
J. Ovington (1957)
Dry-matter Production by Pinus sylvestris L.
Annals of Botany, 21
(1960)
Ecological potential and analog circuits for the ecosystem
(1963)
Tracer studies of the breakdown of forest litter
(1954)
Les cycles d'elements minearaux et de matiere organique en foret equatoriale congolaise
D. Greenland, P. Nye (1959)
INCREASES IN THE CARBON AND NITROGEN CONTENTS OF TROPICAL SOILS UNDER NATURAL FALLOWS
European Journal of Soil Science, 10
(1941)
Other workers have pointed out that drawdown operations are useful in the production and utilization of crops of annual food plants such as millets and smartweeds (Bellrose
E. Odum (1960)
Organic Production and Turnover in Old Field Succession
Ecology, 41
G. Ullyett (1950)
Competition for food and allied phenomena in sheep-blowfly populations
Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences, 234
H. Jenny (1950)
CAUSES OF THE HIGH NITROGEN AND ORGANIC MATTER CONTENT OF CERTAIN TROPICAL FOREST SOILS
Soil Science, 69
H. Jenny, S. Gessel, F. Bingham (1949)
COMPARATIVE STUDY OF DECOMPOSITION RATES OF ORGANIC MATTER IN TEMPERATE AND TROPICAL REGIONS
Soil Science, 171
(1958)
Competition in house fly larvae
(1934)
Une experience de selection naturelle
Unversity of Tennessee
J. Olson (1958)
Rates of Succession and Soil Changes on Southern Lake Michigan Sand Dunes
Botanical Gazette, 119
(1942)
Phormia groenlandica et entre ces deux espeZces. [In Russian, French summary] Meditsinkaya Parazitologiya i Parazitarneye Bolezni 7:755777
R. Sullivan, R. Sokal (1963)
The Effects of Larval Density on Several Strains of the House Fly
Ecology, 44

Publisher: Wiley
Copyright: © Society for Community Research and Action
ISSN: 0012-9658
eISSN: 1939-9170
DOI: 10.2307/1932179
Publisher site: See Article on Publisher Site

There are no references for this article.