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References (11)
-
R. Eisenberg (1966)
The Regulation of Density in a Natural Population of the Pond Snail, Lymnaea ElodesEcology, 47
-
P. Larkin (1956)
Interspecific Competition and Population Control in Freshwater FishWsq: Women's Studies Quarterly, 13
-
A. Watson, D. Jenkins (1968)
Experiments on Population Control by Territorial Behaviour in Red GrouseJournal of Animal Ecology, 37
-
W. Murdoch (1966)
Population Stability and Life History PhenomenaThe American Naturalist, 100
-
R. Paine (1965)
Natural History, Limiting Factors and Energetics of the Opisthobranch Navanax InermisEcology, 46
-
J. Dempster (1963)
THE NATURAL PREY OF THREE SPECIES OF ANTHOCORIS (HETEROPTERA: ANTHOCORIDAE) LIVING ON BROOM (SAROTHAMNUS SCOPARIUS L.)Entomologia Experimentalis et Applicata, 6
-
L. Rice (1954)
Observations on the Biology of Ten Notonectoid Species Found in the Douglas Lake, Michigan RegionAmerican Midland Naturalist, 51
-
C. Istock (1973)
Population Characteristics of a Species Ensemble of Waterboatmen (Corixidae)Ecology, 54
-
J. Edington (1965)
SOME OBSERVATIONS ON STREAM TEMPERATUREOikos, 15
-
J. Lund, H. Hynes (1971)
The Ecology of Running Waters -
R. Lord, C. Elton (1967)
The Pattern of Animal CommunitiesJournal of Wildlife Management, 32
- Publisher
- Wiley
- Copyright
- © Society for Community Research and Action
- ISSN
- 0012-9658
- eISSN
- 1939-9170
- DOI
- 10.2307/1936297
- Publisher site
- See Article on Publisher Site
Abstract
The freshwater hemipteran predator, Notonecta hoffmanni, has one generation per year. Eggs are first laid in late winter and begin hatching in April; most nymphs hatch in mid—June. A short period of heavy mortality of instar I nymphs in eary summer is followed by a more gradual decline in the numbers of older individuals until autumn. The mortality of young nymphs shifts the age—distribution towards older individuals early in summer and increases the changes for the first nymphs hatched in spring to survive and breed successfully. Three alternative hypotheses about the causes of nymphal mortality are proposed and I argue that the primary cause is a reduction in food availability resulting in increased cannibalism. Reduction in spatial refuges also influences cannibalism rates. Field and laboratory experiments show that delayed reproduction by young adults is related to food availability. I suggest that a second generation of N. hoffmanni is possible if sufficient food were available when young adults mature in August.
Journal
Ecology – Wiley
Published: Jul 1, 1975