Your search keyword '"Piet Spaak"' showing total 5 results

1. Diapause and its Consequences in the Daphnia galeata – cucullata – hyalina Species Complex

Author

Barbara Keller and Piet Spaak

Subjects

Species complex, Ecology, Diapause, Biology, biology.organism_classification, Daphnia galeata, Sexual reproduction

Published

2007

2. Cladocera: the Biology of Model Organisms

Author

Anton Brancelj, L. De Meester, and Piet Spaak

Subjects

Cladocera, biology, Ecology, ved/biology, ved/biology.organism_classification_rank.species, Zoology, biology.organism_classification, Model organism

Published

1997

3. Differential behaviour and shifts in genotype composition during the beginning of a seasonal period of diel vertical migration

Author

Piet Spaak and J. Ringelberg

Subjects

education.field_of_study, Perch, Ecology, fungi, Population, Branchiopoda, Biology, biology.organism_classification, Daphnia, Predation, Epilimnion, education, Diel vertical migration, Daphnia galeata

Abstract

During the first few weeks of a recurring seasonal period of diel vertical migration in Lake Maarsseveen (The Netherlands), part of the hybrid Daphnia galeata × hyalina population migrated, while another part remained in the epilimnion. In the epilimnion, 0+ perch prey upon daphnids during daytime. Gradually, the number of adult Daphnia in the epilimnion decrease until the epilimnion is nearly devoid of daphnids. The population as a whole may decrease, as in 1991, or may increase as in 1992. Genotype composition, as determined by allozyme analysis, changed substantially within a fortnight in 1992, and one genotype became dominant. Our data are in agreement with the hypothesis that predation on different genotypes (clones) occurs during the beginning of a seasonal period of diel vertical migration, though our data do not allow to exclude alternative explanations.

Published

1997

4. Hybridization in the Daphnia galeata complex: are hybrids locally produced?

Author

Piet Spaak

Subjects

Genetic diversity, Species complex, biology, Range (biology), Botany, UPGMA, Biological dispersal, Zoology, Introgression, biology.organism_classification, Daphnia galeata, Hybrid

Abstract

Within the species complex of Daphnia galeata,D. cucullata and D. hyalina variouscombinations of hybrids and parental taxa occur inlakes throughout Europe. Since daphnids are cyclicparthenogens and mostly reproduce asexually, hybridpopulations can be maintained by asexual reproductionand without recurrent hybridization events. Therefore,it is possible that hybridization events have beenrare, with range expansion occurring by dispersal ofhybrids.Allozyme data from seven European populations wereused to compare genetic variation within and betweenhybrid and parental taxa. An UPGMA cluster analysis ofgenetic distances showed that D. cucullata × galeatahybrids from different lakes grouped indifferent clusters according to the lake from whichthey were isolated, suggesting multiple hybridizationevents. Clonal diversity within hybrid taxa wascomparable to parental taxa. Furthermore, evidence wasfound for introgression of the Pgi-S allele fromD. cucullata to D. galeata in three lakes.These results indicate that multiple hybridizationevents within this species complex are likely, andthat hybrid taxa can reproduce sexually.

Published

1997

5. Cyclomorphosis as a factor explaining success of a Daphnia hybrid in Tjeukemeer

Author

Piet Spaak

Subjects

biology, Cladocera, Ecology, Juvenile, Chaoboridae, Interspecific competition, biology.organism_classification, Daphnia, Daphnia galeata, Life history theory, Predation

Abstract

Recent studies have shown that Daphnia hybrids are intermediate to their parental species for several life history traits, and that they combine advantageous traits of the parental species, thereby decreasing their risk of being preyed upon by planktivorous fish. In this study D. galeata, D. cucullata and their interspecific hybrid are compared with respect to cyclomorphosis and juvenile growth as a potential mechanism to avoid invertebrate predation. Helmets and tail spines are known to reduce predation risk, whereas fast juvenile growth reduces the period that Daphnia are vulnerable to predation. In laboratory cultures, I tested the hypothesis that, with regard to cyclomorphosis, juvenile hybrids are more comparable to the juveniles of D. cucullata, and with respect to growth rate, they are more comparable to D. galeata. The hybrid did not differ significantly from D. galeata in the time needed to reach 0.9 mm body length. In contrast, the relative spine and helmet length of juvenile hybrids were more comparable with those of D. cucullata, whereas in adult instars these characters were more similar to D. galeata. Thus during the first juvenile instars, the hybrids combine the relative long helmet and spine of D. cucullata, with the faster growth of D. galeata. This combination of characteristics might reduce hybrid vulnerability to invertebrate predation in field situations.

Published

1995