scholarly journals Multi-objective optimization shapes ecological variation

2011 ◽  
Vol 279 (1729) ◽  
pp. 820-825 ◽  
Author(s):  
Pekka Kaitaniemi ◽  
Annette Scheiner ◽  
Tero Klemola ◽  
Kai Ruohomäki
Keyword(s):  
Life History ◽  
Species Interactions ◽  
Life Stages ◽  
Multi Objective Optimization ◽  
Life History Variation ◽  
Multi Objective ◽  
Explanatory Factors ◽  
Mechanistic Analysis ◽  
Theoretical Predictions ◽  
Underlying Causes

Ecological systems contain a huge amount of quantitative variation between and within species and locations, which makes it difficult to obtain unambiguous verification of theoretical predictions. Ordinary experiments consider just a few explanatory factors and are prone to providing oversimplified answers because they ignore the complexity of the factors that underlie variation. We used multi-objective optimization (MO) for a mechanistic analysis of the potential ecological and evolutionary causes and consequences of variation in the life-history traits of a species of moth. Optimal life-history solutions were sought for environmental conditions where different life stages of the moth were subject to predation and other known fitness-reducing factors in a manner that was dependent on the duration of these life stages and on variable mortality rates. We found that multi-objective optimal solutions to these conditions that the moths regularly experience explained most of the life-history variation within this species. Our results demonstrate that variation can have a causal interpretation even for organisms under steady conditions. The results suggest that weather and species interactions can act as underlying causes of variation, and MO acts as a corresponding adaptive mechanism that maintains variation in the traits of organisms.

scholarly journals Life history trade-offs, the intensity of competition, and coexistence in novel and evolving communities under climate change

2017 ◽  
Vol 372 (1712) ◽  
pp. 20160046 ◽  
Author(s):  
Lesley T. Lancaster ◽  
Gavin Morrison ◽  
Robert N. Fitt
Keyword(s):  
Climate Change ◽  
Life History ◽  
Species Interactions ◽  
Life History Theory ◽  
Spatial Scales ◽  
Climatic Variability ◽  
Empirical Work ◽  
Leading Edge ◽  
Life History Variation ◽  
Trade Offs

The consequences of climate change for local biodiversity are little understood in process or mechanism, but these changes are likely to reflect both changing regional species pools and changing competitive interactions. Previous empirical work largely supports the idea that competition will intensify under climate change, promoting competitive exclusions and local extinctions, while theory and conceptual work indicate that relaxed competition may in fact buffer communities from biodiversity losses that are typically witnessed at broader spatial scales. In this review, we apply life history theory to understand the conditions under which these alternative scenarios may play out in the context of a range-shifting biota undergoing rapid evolutionary and environmental change, and at both leading-edge and trailing-edge communities. We conclude that, in general, warming temperatures are likely to reduce life history variation among competitors, intensifying competition in both established and novel communities. However, longer growing seasons, severe environmental stress and increased climatic variability associated with climate change may buffer these communities against intensified competition. The role of life history plasticity and evolution has been previously underappreciated in community ecology, but may hold the key to understanding changing species interactions and local biodiversity under changing climates. This article is part of the themed issue ‘Human influences on evolution, and the ecological and societal consequences’.

A Heuristic Method Based on Multi-Objective Optimization Concept for Solving RNA Multiple Alignment

2017 ◽  
Vol 10 (5) ◽  
pp. 371
Author(s):  
Arakil Chentoufi ◽  
Abdelhakim El Fatmi ◽  
Molay Ali Bekri ◽  
Said Benhlima ◽  
Mohamed Sabbane
Keyword(s):  
Heuristic Method ◽  
Multiple Alignment ◽  
Multi Objective Optimization ◽  
Multi Objective
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