Hans Lord scite author profile

Hans Lord

2Publications

23Citation Statements Received

76Citation Statements Given

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University of Gothenburg

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Sexual Dimorphism in Bosmina: The Role of Morphology, Drag, and Swimming

Lord

Lagergren

Svensson

et al. 2006

Ecology

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Some Bosmina water flea species develop morphological antipredatory defenses, such as long antennules and a high carapace, but in Bosmina (Eubosmina) coregoni gibbera these traits are larger and more variable in females than in males. Here we propose that this sexual dimorphism derives from differential costs of hydrodynamic drag and selection for mobility in males. We tested this hypothesis by estimating drag of several Bosmina morphologies by using scale models sinking in glycerin of different concentrations and viscosities. Body forms included males, sexual and asexual females of B. c. gibbera, and males and asexual females of Bosmina (Eubosmina) longispina, a taxon with less variable body shape. For a given body length or body volume, male models had lower drag than models of sexual and asexual females, suggesting that males can swim 14-28% faster with the same energy consumption. Consistent with this conclusion, video recordings showed that males of B. c. gibbera advanced 55-73% farther than females in each swimming stroke. We conclude that hydrodynamic drag may have significant implications for swimming and evolution of sexual dimorphism in water fleas, and we suggest that males lack the defensive structures of females of B. c. gibbera (e.g., high carapaces) because competition over mates favors low drag.

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Influence of temperature on hydrodynamic costs of morphological defences in zooplankton: experiments on models of Eubosmina (Cladocera)

Lagergren¹,

Lord²,

Stenson³

2000

Functional Ecology

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Summary 1.If swimming speed is correlated to fitness (e.g. by affecting food intake or the chance to evade predators) or considerable energy is expended in swimming, zooplankton wearing protruding structures (as predator defence) that significantly increase drag resistance must pay a cost for the better protection against predators that these traits imply. 2. In an experiment with plastic models, the drag and energy consumption of swimming in two species of Eubosmina were examined. Eubosmina longispina has a typical Bosmina morphology with a low carapace and short antennule, whereas E. coregoni gibbera has a very high carapax and long antennule. 3. At 5 ° C, E . c. gibbera had 32-45% higher drag than E . longispina . At 20 ° C, the difference is 20-45%. 4. A mathematical model of swimming predicts that these differences in drag should result in 18-20 (at 5 ° C) or 14-16 (at 20 ° C) percentage lower speed for E . c. gibbera than for E . longispina if they use the same amount of energy in swimming. 5. The relative difference in drag or swimming speed between the two species was highest at low Reynolds number (i.e. low speed or low temperature). These results show that hydrodynamic costs of extreme morphology may increase with decreasing temperature. 6. The increased cost of morphological antipredator defence at low temperatures may be enlightening with regard to the role of temperature in the induction of cyclomorphic traits in zooplankton. This may be one explanation for why extreme forms of E . c. gibbera and some Daphnia are only found in the summer when water temperature is high.

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Hans Lord

Sexual Dimorphism in Bosmina: The Role of Morphology, Drag, and Swimming

Influence of temperature on hydrodynamic costs of morphological defences in zooplankton: experiments on models of Eubosmina (Cladocera)

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