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W2117291237 abstract "Contingency, the persistent influence of past random events, pervades biology. To what extent, then, is each course of ecological or evolutionary dynamics unique, and to what extent are these dynamics subject to a common statistical structure? Addressing this question requires replicate measurements to search for emergent statistical laws. We establish a readily replicated microbial closed ecosystem (CES), sustaining its three species for years. We precisely measure the local population density of each species in many CES replicates, started from the same initial conditions and kept under constant light and temperature. The covariation among replicates of the three species densities acquires a stable structure, which could be decomposed into discrete eigenvectors, or “ecomodes.” The largest ecomode dominates population density fluctuations around the replicate-average dynamics. These fluctuations follow simple power laws consistent with a geometric random walk. Thus, variability in ecological dynamics can be studied with CES replicates and described by simple statistical laws." @default.
W2117291237 created "2016-06-24" @default.
W2117291237 creator A5065540464 @default.
W2117291237 creator A5088016503 @default.
W2117291237 date "2012-05-01" @default.
W2117291237 modified "2023-10-15" @default.
W2117291237 title "Contingency and Statistical Laws in Replicate Microbial Closed Ecosystems" @default.
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W2117291237 doi "https://doi.org/10.1016/j.cell.2012.03.040" @default.
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