Register      Login
Australian Journal of Zoology Australian Journal of Zoology Society
Evolutionary, molecular and comparative zoology
RESEARCH ARTICLE

Spatial trade-offs in the digestive and reproductive systems of grape phylloxera

K. B. Andrews A B D , D. Kemper B , K. S. Powell C and P. D. Cooper B E
+ Author Affiliations
- Author Affiliations

A Department of Primary Industries – Attwood, 475 Mickleham Road, Attwood, Vic. 3049, Australia.

B Research School of Biology, Australian National University, Canberra, ACT 0200, Australia.

C Department of Primary Industries – Rutherglen Centre, RMB 1145 Chiltern Valley Road, Rutherglen, Vic. 3685, Australia.

D Author’s previous name: K. B. Kingston.

E Corresponding author. Email: paul.cooper@anu.edu.au

Australian Journal of Zoology 59(6) 392-399 https://doi.org/10.1071/ZO11053
Submitted: 23 July 2011  Accepted: 30 January 2012   Published: 3 April 2012

Abstract

Trade-offs between reproduction and other energy-requiring activities are present in insects. However, feeding and reproduction are not often thought to be trade-offs, although in small insects space may be limiting for both ingestion of food and egg development. This study characterised the structure of the digestive system of radicicolae Daktulosphaira vitifoliae (Hemiptera: Phylloxeridae) to investigate how feeding and egg development occur in this species. Using light and electron microscopy, the midgut of D. vitifoliae was observed to be composed of anterior and posterior regions, separated by a hindgut connection. The midgut is compressed during the development of parthenogenetically produced eggs in adults; individual eggs are ~30% of the adult length and in volume internally occupy 3–5% of the body cavity. The midgut posterior chamber is suggested to be essential for the continual supply of energy during periods of reduced food intake. The presence of the hindgut and an anal opening indicated that waste excretion through the anus was physiologically possible, although honeydew excretion was not observed. The structure of the digestive system of radicicolae D. vitifoliae is atypical, containing adaptations that may assist the survival of the monophagous insect during dispersal events to a new Vitis food source.

Additional keywords: Daktulosphaira vitifoliae, digestion, internal morphology, Phylloxeridae, reproduction.


References

Breider, H. (1952). Beitrage zur Morphologie und Biologie der Reblaus Dactylosphaera vitifolii Shim. Zeitschrift für angewandte Entomologie 33, 517–543.
Beitrage zur Morphologie und Biologie der Reblaus Dactylosphaera vitifolii Shim.Crossref | GoogleScholarGoogle Scholar |

Chapman, R. F. (1969). ‘The Insects: Structure and Function.’ (The English Universities Press Ltd.: London.)

Federov, S. M. (1959). The biological basis of phylloxera (Dactylosphaera vitifolii Schim., Homoptera, Phylloxeridae) control. Entomological Review 38, 74–85.

Granett, J., Bisabri-Ershadi, B., and Carey, J. (1983). Life tables of phylloxera on resistant and susceptible grape rootstocks. Entomologia Experimentalis et Applicata 34, 13–19.
Life tables of phylloxera on resistant and susceptible grape rootstocks.Crossref | GoogleScholarGoogle Scholar |

Granett, J., Timper, P., and Lider, L. A. (1985). Grape phylloxera (Daktulosphaira vitifoliae) (Homoptera: Phylloxeridae) biotypes in California. Journal of Economic Entomology 78, 1463–1467.

Granett, J., Walker, M. A., Kocsis, L., and Omer, A. D. (2001). Biology and management of grape phylloxera. Annual Review of Entomology 46, 387–412.
Biology and management of grape phylloxera.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3MXitlSmtrc%3D&md5=1f95abb3bce8cc47420bea6c46437313CAS |

Herbert, K. S., Umina, P. A., Mitrovski, P. J., Powell, K. S., Viduka, K., and Hoffman, A. A. (2010). Clone lineages of grape phylloxera differ in their performance on Vitis vinifera. Bulletin of Entomological Research 100, 671–678.
Clone lineages of grape phylloxera differ in their performance on Vitis vinifera.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXhtlyjsrnN&md5=ddf31dabfa7e8e512fb8cebab87d1446CAS |

Hinton, H. E. (1981). ‘Biology of Insect Eggs. Vol. I.’ (Pergamon Press: Oxford.)

Kingston, K. B. (2007). Digestive and feeding physiology of grape phylloxera (Daktulosphaira vitifoliae Fitch). Ph.D. Thesis, The Australian National University, Canberra.

Kingston, K. B., Cooper, P. D., and Powell, K. S. (2007). Grape phylloxera external morphology observations under scanning electron microscopy. Acta Horticulturae 733, 107–114.

Kingston, K. B., Powell, K. S., and Cooper, P. D. (2009). Grape phylloxera: new investigations into the biology of an old grapevine pest. Acta Horticulturae 816, 63–70.

Ordish, G. (1987). ‘The Great Wine Blight.’ (Sidgwick & Jackson Limited: London.)

Ponsen, M. B. (1987). Alimentary tract. In ‘Aphids: their Biology, Natural Enemies and Control’. (Eds A. K. Minks and P. Harrewijn.) Vol. 2A. pp. 79–97. (Elsevier: Amsterdam.)

Ponsen, M. B. (1997). A histological description of the alimentary tract and related organs of Phylloxeridae (Homoptera, Aphidoidea). Wageningen Agricultural University Papers 97–1, 1–77.

Ponsen, M. B. (2006). A histological description of the alimentary tract and related organs of Adelgidae (Homoptera, Aphidoidea). Wageningen Agricultural University Papers 06–1, 1–103.

Rasband, W. (2005). ImageJ. version 1.34s. Available at: http://rsb.info.nih.gov/ij/ (retrieved 11 October 2006).

Riley, C. V. (1870). The grape-leaf gall-louse (Phylloxera vitifoliae Fitch). The American Entomologist and Botanist 2, 353–359.

Roff, D. A. (1984). The cost of being able to fly: a study of wing polymorphism in two species of crickets. Oecologia 63, 30–37.
The cost of being able to fly: a study of wing polymorphism in two species of crickets.Crossref | GoogleScholarGoogle Scholar |

Schaller, G. (1960). The amino acid content of the salivary gland secretion of the vine phylloxera, Viteus vitifolii Shimmer, Homoptera. Entomologia Experimentalis et Applicata 3, 128–136.
| 1:CAS:528:DyaF3MXhsVygtQ%3D%3D&md5=5cc5a8565e39f0d62ec9c592fbaddc08CAS |

Sobetskiy, L. A., and Derzhavina, M. A. (1973). A contribution to the study of the physiology of the feeding of the vine phylloxera, Viteus vitifolii Fitch (Homoptera: Phylloxeridae). Entomological Review 52, 357–361.

Wheeler, D. (1996). The role of nourishment in oogenesis. Annual Review of Entomology 41, 407–431.
The role of nourishment in oogenesis.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK28XksVyqsQ%3D%3D&md5=3c5a6e03be6314dcaeb7f0b913fce67bCAS |

Zera, A. J., Potts, J., and Kobus, K. (1998). The physiology of lifehistory trade-offs: experimental analysis of a hormonally induced life-history trade-off in Gryllus assimilis. American Naturalist 152, 7–23.
The physiology of lifehistory trade-offs: experimental analysis of a hormonally induced life-history trade-off in Gryllus assimilis.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD1cnit1yktQ%3D%3D&md5=60083a16120c19965238635057b2d587CAS |