Access the full text.
Sign up today, get DeepDyve free for 14 days.
Anne Lubbers, M. Lechowicz (1989)
Effects of Leaf Removal on Reproductions vs. Belowground Storage in Trillium GrandiflorumEcology, 70
G. Eaton, A. Shawa, P. Bowen (1983)
Productivity of individual cranberry uprights in Washington and British ColumbiaScientia Horticulturae, 20
A. Snow, D. Whigham (1989)
Costs of Flower and Fruit Production in Tipularia Discolor (Orchidaceae)Ecology, 70
R. Primack, P. Hall (1990)
Costs of Reproduction in the Pink Lady's Slipper Orchid: A Four-Year Experimental StudyThe American Naturalist, 136
T. Baumann, G. Eaton (1986)
Competition Among Berries on the Cranberry UprightJournal of the American Society for Horticultural Science
S. Chaplin, John Walker (1982)
Energetic Constraints and Adaptive Significance of the Floral Display of a Forest MilkweedEcology, 63
P. Curtis, A. Snow, Amy Miller (1994)
Genotype-specific effects of elevated CO2 on fecundity in wild radish (Raphanus raphanistrum)Oecologia, 97
J. Silander (1979)
Microevolution and Clone Structure in Spartina patensScience, 203
T. Roper, E. Stang, G. Hawker (1992)
Early Season Leaf Removal Reduces Fruit Set and Size in Cranberry (Vaccinium macrocarpon Ait.)Hortscience, 27
J. Ackerman, A. Montalvo (1990)
SHORT- AND LONG-TERM LIMITATIONS TO FRUIT PRODUCTION IN A TROPICAL ORCHID'Ecology, 71
W. Abrahamson, H. Caswell (1982)
On the Comparative Allocations of Biomass, Energy, and Nutrients in PlantsEcology, 63
L. Jackson, C. Dewald (1994)
Predicting Evolutionary Consequences of Greater Reproductive Effort in Tripsacum Dactyloides, a Perennial GrassEcology, 75
Thomas. Meacher, Janis Anonovics (1982)
The population biology of Chamaelirium luteum, a dioecious member of the lily family : life history studies.Ecology, 63
Lin Wu, J. Antonovics (1975)
EXPERIMENTAL ECOLOGICAL GENETICS IN PLANTAGONew Phytologist, 75
D. Haig, M. Westoby, J. Doust, L. Doust (1988)
Inclusive fitness, seed resources, and maternal care.
T. Meagher, J. Shaw (1990)
Clonal structure in the moss, Climacium americanum Brid.Heredity, 64
L. Delph (1990)
Sex‐Differential Resource Allocation Patterns in the Subdioecious Shrub Hebe SubalpinaEcology, 71
M. Geber (1990)
THE COST OF MERISTEM LIMITATION IN POLYGONUM ARENASTRUM: NEGATIVE GENETIC CORRELATIONS BETWEEN FECUNDITY AND GROWTHEvolution, 44
J. Harper (1979)
Population Biology of Plants
C. Galen (1993)
COST OF REPRODUCTION IN POLEMONIUM VISCOSUM: PHENOTYPIC AND GENETIC APPROACHESEvolution, 47
M. Watson (1984)
Developmental Constraints: Effect on Population Growth and Patterns of Resource Allocation in a Clonal PlantThe American Naturalist, 123
R. Law (1979)
The Cost of Reproduction in Annual Meadow GrassThe American Naturalist, 113
E. Reekie, F. Bazzaz (1992)
Cost of reproduction as reduced growth in genotypes of two congeneric species with contrasting life historiesOecologia, 90
M. Geber, M. Watson, R. Furnish (1992)
Genetic differences in clonal demography in Eichhornia crassipesJournal of Ecology, 80
E. Reekie, F. Bazzaz (1987)
Reproductive Effort in Plants. 3. Effect of Reproduction on Vegetative ActivityThe American Naturalist, 129
A. Stephenson (1980)
Fruit Set, Herbivory, Fruit Reduction, and the Fruiting Strategy of Catalpa Speciosa (Bignoniaceae)Ecology, 61
R. Armstrong (1983)
On the Quantitative Theory of Resource Partitioning in Rhizomatous Perennial Plants: The Influences of Canopy Structure, Rhizome Branching Pattern, and Self‐ThinningEcology, 64
R. Primack, J. Antonovics (1982)
EXPERIMENTAL ECOLOGICAL GENETICS IN PLANTAGO. VII. REPRODUCTIVE EFFORT IN POPULATIONS OF P. LANCEOLATA L.Evolution, 36
M. Stanton (1984)
Seed variation in wild radish: effect of seed size on components of seedling and adult fitnessEcology, 65
M. Cipollini, D. Whigham (1994)
Sexual dimorphism and cost of reproduction in the dioecious shrub Lindera benzoin (Lauraceae)American Journal of Botany, 81
Patterns of resource allocation to growth, current reproduction, and potential future reproduction were quantified in six genetically distinct cultivars of Vaccinium macrocarpon . For all cultivars (genotypes), vegetative size is positively correlated with some measures of current reproduction (fruit and flower number) but negatively correlated with others (seed number per fruit, seed weight per fruit). Vegetative growth in the current year is significantly related to the production of reproductive terminal buds, a measure of the potential for reproduction in the following year. Stems with low levels of current reproduction — lower flower number, fruit number, and seed weight — were more likely to form reproductive terminal buds than stems with higher levels of current reproduction. Individual genotypes differed significantly for vegetative size, fruit number, fruit weight, seed number, and seed weight, as well as for the frequency of fruiting stems and reproductive terminal buds produced. Genotypes were segregated in principal component space, indicating overall differences between them in allocation to the suite of variables measured. These results indicate the possibility of fitness differences among cultivars due to genetically determined allocation strategy, which has implications for fitness differences among genotypes within natural populations.
Oecologia – Springer Journals
Published: Mar 1, 1996
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.