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The value of death in evolution: A lesson from Daisyworld
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0
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80
|
February 18, 2022
|
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The challenge of Daisyworld
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0
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65
|
February 18, 2022
|
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Evolutionary Daisyworld models: A new approach to studying complex adaptive systems
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0
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64
|
February 18, 2022
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Daisyworld homeostasis and the Earth system
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0
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72
|
February 18, 2022
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Daisyworld
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0
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78
|
February 17, 2022
|
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Phase transitions in two-dimensional daisyworld with small-world effects— A study of local and long-range couplings
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0
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81
|
February 17, 2022
|
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Entropy production in an energy balance Daisyworld model
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0
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73
|
February 17, 2022
|
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Consequences of inter-specific competition among multiple adaptive species in Daisyworld
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0
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73
|
February 17, 2022
|
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Emergent patterns in space and time from daisyworld: a simple evolving coupled biosphere–climate model
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0
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91
|
February 17, 2022
|
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The seasonal effect in one-dimensional Daisyworld
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0
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67
|
February 17, 2022
|
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Self-Organizing Spatio-temporal Pattern Formation in Two-Dimensional Daisyworld
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0
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66
|
February 17, 2022
|
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Daisyworld in Two Dimensional Small-World Networks
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0
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103
|
February 17, 2022
|
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Global warming description using Daisyworld model with greenhouse gases
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0
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72
|
February 17, 2022
|
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Daisyworld inhabited with daisies incorporating a seed size/number trade-off: the mechanism of negative feedback on selection from a standpoint of the competition theory
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0
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66
|
February 16, 2022
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Accurate numerical solutions for Daisyworld
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0
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74
|
February 16, 2022
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Catastrophes on Daisyworld
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0
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83
|
February 16, 2022
|
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Comments on ''Chaos in Daisyworld''by X. Zeng et al
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0
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67
|
February 16, 2022
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A fitness based analysis of Daisyworld
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0
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84
|
February 16, 2022
|
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Spatial interactions in a modified Daisyworld model: Heat diffusivity and greenhouse effects
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0
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54
|
February 16, 2022
|
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Regarding mutations in daisyworld models
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0
|
80
|
February 16, 2022
|
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Hysteresis and the Limits of Homeostasis: From Daisyworld to Phototaxis
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0
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71
|
February 16, 2022
|
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Glucose homeostasis with infinite gain: further lessons from the Daisyworld parable?
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0
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76
|
February 16, 2022
|
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Symbiotic physiology promotes homeostasis in Daisyworld
|
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0
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89
|
February 16, 2022
|
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Role of a simplified hydrological cycle and clouds in regulating the climate–biota system of Daisyworld
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0
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72
|
February 16, 2022
|
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Interspecific competition affects temperature stability in Daisyworld
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0
|
72
|
February 16, 2022
|
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Mutation of albedo and growth response produces oscillations in a spatial Daisyworld
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0
|
68
|
February 16, 2022
|
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Maximization principles and daisyworld
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0
|
79
|
February 16, 2022
|
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The Consequence of Maximum Thermodynamic Efficiency in Daisyworld
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0
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79
|
February 16, 2022
|
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“Wet/dry Daisyworld”: a conceptual tool for quantifying the spatial scaling of heterogeneous landscapes and its impact on the subgrid variability of energy fluxes
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0
|
53
|
February 16, 2022
|
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On Homeostasis in Daisyworld
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0
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74
|
February 16, 2022
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