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Archive for the category “Complexity”


Fanny Monteiro (Bristol) Modelling diversity of marine phytoplankton (BCCS seminar Tuesday, 20/3/2012).

Phytoplankton play an important part of oceanic storage of carbon, they live near the ocean top, absorb carbon, die and sometimes sink to the depth where the carbon is sequestered. They come in diverse types, some with shells, shells of silica or calcium, some that can fix nitrogen. Originally modelling was done in a top down way, with different species examined in the lab and added to a simulation, now, a range of random artificial plankton are created with different efficiency and resource limitation trade-offs, grown in the simulated world oceans and then matched to known populations. This seems to work well, here it was used to examine distributions of nitrogen fixing plankton, the model is consistent with the limited experimental data, and predicts that unicellular nitrogen fixing plankton are more common and more significant than previously believed: the larger, colony based nitrogen fixing plankton are more common where there is more iron in the water, near deserts, and this is where data is more available. The distribution of nitrogen fixing plankton is explained by nitrogen availability, where it is available, usually because of up welling from the depths, they are out competed by other plankton species.


Bumble Bee size.

Margaret Coulvillon (Sussex): The hows and whys of bumble bee size variation (BCCS seminar Tuesday, 6/3/2012).

So bumble bees live in nests, like honey bees, who knew? Unlike other social insects, for bumble bees, there isn’t such a clear distinction between different roles, either by body type, or age. There is, however, a dramatic variation in size, the biggest bumble bees are ten times the size of the smallest. Now, bigger bumble bees are more commonly found foraging and smaller, tending to the young; there is no bimodal size split though. It seems by removing parts of the population it can be observed that bigger bees are better at foraging, surprisingly though, they are also better at looking after the nest. Why the range of sizes then: it turns out that smaller bees survive starvation better so the fitness and robustness curves slope opposite ways with bee size and rather than choosing a sweet spot, it is better to have a variation so some bees survive protracted starvation, by tending the young they ensure the nest’s genetic material will survive.

Bees laid closer to the center of the nest get fed more before they emerge and end up bigger. The egg location depends on the apparently random peregrination of the queen. I wondered if the balance is maintained by always having the same laying behavior or if the queen steers it to the ideal by modifying her laying behavior based on local cues. This isn’t known.

This leaves out lots of the great bumble bee details in the talks and the description of the many experiments on nests to work out what is described here and to rule out other hypothesizes about the bee size.

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