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Accounting for morphological plasticity in phytoplankton populations is relevant for taxonomy, systematic/evolutionary, and
ecological studies. In this work, the green alga Pediastrum tetras (Ehrenberg) Ralfs was used to describe the variation in population size structure over its growth cycle and to analyze responses
to changes in biotic and abiotic factors. Pediastrum cultures reached a final stable concentration in approximately 10 days. This density (8 × 105 cells ml−1) remained stable for at least another 13 days and the intrinsic growth rate was 0.24 ± 0.01 day−1. In the exponential phase, the relative number of single cells and the proportion of large cells (with vesicles inside) within
colonies increased. When density peaked, a relative increase of single cells as well as small cells in new colonies took place.
Finally, during the stationary phase, the trend reversed: fewer single cells and a larger cell size (without vesicles) were
observed. Results indicated that nutrient supply could affect population structure, diminishing the proportion of eight-cell
colonies. Daphnia
magna Straus significantly reduced the Pediastrum population density due to predation, and this led to a significant decrease in the density of the largest colonies. In addition,
info-chemicals induced a slight increase in the density of the largest colonies compared to the control treatment. Our study
suggests a possible trade-off in P. tetras colonial size in natural environments: during the stationary growth period in a lake, Pediastrum populations tend to increase in size for efficient use of nutrients, while they decrease in size in the presence of herbivores.
Handling editor: J. Padisak 相似文献
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Optimising survival under predation: chemical cues modify curvature in Daphnia galeata 总被引:1,自引:0,他引:1
Morphological responses to the presence of predator info-chemicals havebeen described for many Daphnia (Cladocera) species, butD. galeata is generally considered to exhibit almost nomorphological changes that could increase its fitness under predation.Therefore, the aim of our study was to examine the nature and magnitude ofmorphological responses of D. galeata to their predatorsindetail and assess their potential role in decreasing the predation threat. Twoclones of Daphnia were exposed to predator info-chemicals(kairomones) from perch, a fish (Perca), and a phantommidge larvae (Chaoborus) an invertebrate, and a kairomone mixture fromboththese organisms. Laboratory life-table experiments were carried out and fiveparameters characterising the body shape of the daphnids were measured: helmetlength, head- and carapace width, eye diameter and body size. The last-namedthree parameters did not differ significantly between the clones or thetreatments. The differences found between the clones were significant for headwidth and helmet length, but only in combination with the treatment effects.Ourresults on genotype-dependent phenotypic plasticity indicated that, althoughphenotypic plasticity is present, the clonal composition of aDaphnia population can be altered by selection on themorphotype. This potential for a change in clonal frequencies is given by thedifferences measured between the two clones in head width and helmet length,altering the curvature of the Daphina body in response tokairomone presence. 相似文献
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