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To ultimately address this serious issue, this book begins with the nonlinear dynamic characteristics of marine plankton, focusing on the dynamic behavior of both two-dimensional and spatiotemporal patterns. As a critical foundation of marine ecosystems, the frequent outbreaks of marine phytoplankton and the toxicity of planktonic animals pose significant threats to marine ecological security and human health. One of the primary reasons we currently struggle to effectively manage the safety issues surrounding marine plankton is the extremely complex nature of their growth environment, which…mehr

Produktbeschreibung
To ultimately address this serious issue, this book begins with the nonlinear dynamic characteristics of marine plankton, focusing on the dynamic behavior of both two-dimensional and spatiotemporal patterns. As a critical foundation of marine ecosystems, the frequent outbreaks of marine phytoplankton and the toxicity of planktonic animals pose significant threats to marine ecological security and human health. One of the primary reasons we currently struggle to effectively manage the safety issues surrounding marine plankton is the extremely complex nature of their growth environment, which exhibits intricate dynamic and nonlinear characteristics. By constructing reaction-diffusion models and fractional diffusion systems of the planktonic ecosystem, the book characterizes the various factors in different environments and studies the nonlinear behavior of marine organisms. Employing linear stability theory, multi-scale analysis, comparison principle, analytical techniques, andthe construction of Lyapunov functions, the book delves into the following topic: the stability of the plankton ecosystem, Hopf bifurcation, Turing bifurcation and other local bifurcations, spatial self-organization behavior of marine plankton, the formation of spatiotemporal patterns, and the persistence and extinction properties and characteristics. Marine ecology and the marine environment are currently hot research topics internationally, with the behavior of marine organisms being a core area of this research. The goal of exploring these issues is to scientifically understand the features of marine organisms, control their behavior, manage ocean pollution effectively, contribute to human development, and support social advancement. Additionally, the authors aime to make academic contributions and provide guidance to graduate students and researchers dedicated to this field.
Autorenporträt
Prof. Liu received his Ph. D. degree from South China University of Technology in 2002 (jointly trained by the City University of Hong Kong and South China University of Technology). He was awarded one of the One Hundred Excellent Doctoral Dissertations in 2004 in China (jointly organized and implemented by the Academic Degree Office of the State Council and the Ministry of education, discipline of control theory and control engineering). He won the first prize for excellent scientific research achievements in Shandong colleges and universities. He is a member of the Center for Chaos and Complex Networks, a reviewer for American Mathematical Reviews, a member of the American Mathematical Society, and a member of the International WSEAS Automatic Cocmmittee. He serves as  a reviewer for international journals such as Complex Systems, Transactions of the American Mathematical Society, IEEE Transactions on Circuits and Systems I: Regular Papers, Automatica, Fractals, Chaos, Solitons & Fractals, Nonlinear Analysis: Real World Applications, International Journal of Bifurcation and Chaos, Science China, Chinese Science Bulletin, and Acta Automatica Sinica. He has been engaged in scientific research in the fields of nonlinear system theory, fractal and chaos theory, nonlinear control and application, physical oceanography, marine environment, and marine ecology. He has published four monographs in Springer as the first author: "Surface Chaos and Its Applications", "Fractal Control Theory", "Fractal Control and Its Applications," and "Mathematical Principle and Fractal Analysis of Mesoscale Eddy" and more than 200 papers in top journals and other journals both domestically and internationally.   Associate Prof. Zhang received her B.S. degree in mathematics and applied mathematics from University of Jinan in 2003, an M.S. degree from Shandong University in 2006, and a Ph.D. degree from Shandong University in 2011, China. Her current research interests include the control theory of chaos, fractal in social, financial and economic systems, and their applications. She, along with her co-authors, has published 9 journal papers in outlets such as SIAM Journal on Applied Dynamical Systems, Nonlinear Dynamics, Communications in Nonlinear Science and Numerical Simulation, Fractals, and International Journal of Bifurcation and Chaos, as well as 7 conference papers.