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Category: Physics of Life Reviews

Spatial pattern formation, community assembly and resilience: Comment on “Belowground feedbacks as drivers of spatial self-organization and community assembly” by Inderjit, Ragan M. Callaway, Ehud Meron

Spatial pattern formation, community assembly and resilience: Comment on “Belowground feedbacks as drivers of spatial self-organization and community assembly” by Inderjit, Ragan M. Callaway, Ehud Meron

Publication date: March 2022Source: Physics of Life Reviews, Volume 40Author(s): Max Rietkerk

Towards creating a mechanistic predictive theory of self-organized vegetation patterns: Comment on “Belowground feedbacks as drivers of spatial self-organization and community assembly” by Inderjit, Callaway and Meron

Towards creating a mechanistic predictive theory of self-organized vegetation patterns: Comment on “Belowground feedbacks as drivers of spatial self-organization and community assembly” by Inderjit, Callaway and Meron

Publication date: March 2022Source: Physics of Life Reviews, Volume 40Author(s): Andrew Morozov

On the significance of the electrostatic differences between cancer and normal cells: Comment on: “Improving cancer treatments via dynamical biophysical models” by Kuznetsov et al.

On the significance of the electrostatic differences between cancer and normal cells: Comment on: “Improving cancer treatments via dynamical biophysical models” by Kuznetsov et al.

Publication date: March 2022Source: Physics of Life Reviews, Volume 40Author(s): J.A. Tuszynski

Mathematical oncology: A new frontier in cancer biology and clinical decision making: Comment on “Improving cancer treatments via dynamical biophysical models” by M. Kuznetsov, J. Clairambault & V. Volpert

Mathematical oncology: A new frontier in cancer biology and clinical decision making: Comment on “Improving cancer treatments via dynamical biophysical models” by M. Kuznetsov, J. Clairambault & V. Volpert

Publication date: March 2022Source: Physics of Life Reviews, Volume 40Author(s): Heiko Enderling

Can major breakthroughs in cancer be achieved through theoretical models?: Comment on “Improving cancer treatments via dynamical biophysical models” by M. Kuznetsov, J. Clairambault and V. Volpert

Can major breakthroughs in cancer be achieved through theoretical models?: Comment on “Improving cancer treatments via dynamical biophysical models” by M. Kuznetsov, J. Clairambault and V. Volpert

Publication date: March 2022Source: Physics of Life Reviews, Volume 40Author(s): A. Stéphanou