Allocation to Reproduction in a Hawkmoth: A Quantitative Analysis Using Stable Carbon Isotopes

Allocation to Reproduction in a Hawkmoth: A Quantitative Analysis Using Stable Carbon Isotopes

There is great interest in the importance of nectar nutrients to fecundity in the Lepidoptera, but nutrient allocation has been difficult to measure quantitatively. Here we trace the allocation of nectar nutrients in the hawkmoth Amphion floridensis using naturally occurring variation in plant stabl...

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Bibliographic Details
Published in:Ecology (Durham) Vol. 81; no. 10; pp. 2822 - 2831
Main Authors: O'Brien, Diane M., Schrag, Daniel P., del Rio, Carlos Martinez
Format: Journal Article
Language:English
Published: Washington, DC Ecological Society of America 01-10-2000
Subjects:
allocation
Amino acids
Amino sugars
Amphion floridensis
Animal and plant ecology
Animal reproduction
Animal, plant and microbial ecology
Animals
Autoecology
Biological and medical sciences
Butterflies & moths
Carbon
carbon turnover
Diet
Eggs
Female animals
Fundamental and applied biological sciences. Psychology
Larvae
Lepidoptera
Nectar
nectar feeding
Nutrients
Nutrition
Oviposition
Protozoa. Invertebrata
reproduction
Sphingidae
stable isotopes
United States
North America
New Jersey
America
Isotopic analysis
Insecta
Vitis
Resource allocation
Sphingidae
Reproduction
Vitidaceae
Dicotyledones
Angiospermae
Female
Energy flow
Nectar
Egg
Carbon
Nectarivorous
Feeding
Diet
Arthropoda
Aminoacid
Lepidoptera
Liana
Nutrient
Spermatophyta
Invertebrata
Fecundity
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Summary:There is great interest in the importance of nectar nutrients to fecundity in the Lepidoptera, but nutrient allocation has been difficult to measure quantitatively. Here we trace the allocation of nectar nutrients in the hawkmoth Amphion floridensis using naturally occurring variation in plant stable carbon isotopes and thereby derive a descriptive model of carbon flow into eggs. Because13C content (expressed as δ13C, the13C:12C ratio relative to a standard) depends on photosynthetic mode, moths were fed sucrose solution made with either either C3or C4sugar (beet or cane), both of which were distinct from larval host plant. In addition, two of four experimental diets contained an amino acid supplement distinct in δ13C from either sugar or larval host plant. Females were hand fed daily from experimental diets, and their eggs were collected and analyzed for δ13C. Egg δ13C increased rapidly from a value resembling larval δ13C, and followed an asymptotic pattern of carbon incorporation. The presence of amino acids in the diet had no effect on either fecundity or egg δ13C. Because egg δ13C equilibrated at a value lower than δ13C diet, we invoke an allocation model in which carbon is contributed to eggs by two separate pools. One pool of carbon comes into isotopic equilibrium with adult diet, whereas the other does not, contributing carbon with an exclusively larval signature across a female's lifetime. Carbon fractional turnover rate and the relative contribution of the two pools were estimated by fitting the model to the data with nonlinear regression. The resulting model fitted the data well and indicated that 50-60% of egg carbon is derived from adult nectar sugars after the "mixing pool" has come into equilibrium. Thus, this study demonstrates that adult nectar sugars provide an important source of egg carbon and explores how properties of nutrient mixing and turnover can generate patterns of reproductive allocation.
Bibliography:dmobrien@leland.stanford.edu
Present address: Center for Conservation Biology, Department of Biological Sciences, Stanford University, Stanford, California 94305‐5020 USA. E‐mail
ObjectType-Article-2
SourceType-Scholarly Journals-1
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ISSN:0012-9658
1939-9170
DOI:10.1890/0012-9658(2000)081[2822:ATRIAH]2.0.CO;2