Pattern-Multiplicative Average of Nonnegative Matrices Revisited: Eigenvalue Approximation Is the Best of Versatile Optimization Tools

Logofet, Dmitrii O.

doi:10.3390/math11143237

Mathematics

2023

DOI: 10.3390/math11143237

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Pattern-Multiplicative Average of Nonnegative Matrices Revisited: Eigenvalue Approximation Is the Best of Versatile Optimization Tools

Dmitrii O. Logofet

Abstract: Given several nonnegative matrices with a single pattern of allocation among their zero/nonzero elements, the average matrix should have the same pattern, too. This is the first tenet of the pattern-multiplicative average (PMA) concept, while the second one suggests the multiplicative (or geometric) nature of averaging. The original concept of PMA was motivated by the practice of matrix population models as a tool to assess the population viability from long-term monitoring data. The task has reduced to search… Show more

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2024

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Long-term monitoring of population structure: Alpine short-lived perennials on the verge of stability

Logofet,

Golubyatnikov,

Kazantseva

et al. 2024

Žurnal obŝej biologii

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The local population stage structures of the primrose Androsace albana and the Caucasian forget-me-not Eritrichium caucasicum were observed at permanent sites in the alpine belt of the North-West Caucasus annually for 14 years (2009–2022), accumulating data of the “identified individuals” type according to known ontogenetic scales. The data allow us to calibrate the corresponding matrix models of population dynamics, from which we can obtain various quantitative characteristics of the monitoring object, in particular, estimate the measure of viability. A well-known approach to predicting the viability of a local population is to estimate its stochastic growth rate (λS) under a certain scenario of random changes in environmental conditions from those observed during the monitoring period. However, only artificial randomness models involved in λS calculations are proposed in the literature. Our more realistic randomness model (RRM) is associated with variations in the weather and microclimatic conditions of the habitat. It is reconstructed from a sufficiently long (60 years) time series of the weather indicator, which has turned out to be species-specific in the model perennials. The use of RRM in λS calculations by the Monte Carlo method provides the more reliable and accurate estimates of stochastic population growth rates than those using the well-known technique with an artificial randomness model. The obtained λS estimates are compared between the two species, as well as between those for each of the species obtained from the monitoring data of different durations. The comparison allows us to draw the conclusion given in the paper title.

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Long-term monitoring of population structure: Alpine short-lived perennials on the verge of stability

Logofet,

Golubyatnikov,

Kazantseva

et al. 2024

Žurnal obŝej biologii

View full text Add to dashboard Cite

show abstract

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Pattern-Multiplicative Average of Nonnegative Matrices Revisited: Eigenvalue Approximation Is the Best of Versatile Optimization Tools

Cited by 1 publication

References 16 publications

Long-term monitoring of population structure: Alpine short-lived perennials on the verge of stability

Long-term monitoring of population structure: Alpine short-lived perennials on the verge of stability

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