Joydev Chattopadhyay
Joydev Chattopadhyay
Agricultural and Ecological Research Unit, ISI, Kolkata, INDIA
Verified email at - Homepage
Cited by
Cited by
A predator-prey model with disease in the prey
J Chattopadhyay, O Arino
Nonlinear analysis 36, 747-766, 1999
Toxin-producing plankton may act as a biological control for planktonic blooms—field study and mathematical modelling
J Chattopadhayay, RR Sarkar, S Mandal
Journal of Theoretical Biology 215 (3), 333-344, 2002
Effect of toxic substances on a two-species competitive system
J Chattopadhyay
Ecological Modelling 84 (1-3), 287-289, 1996
Ratio-dependent predator–prey model: effect of environmental fluctuation and stability
M Bandyopadhyay, J Chattopadhyay
Nonlinearity 18 (2), 913, 2005
Assessment of lockdown effect in some states and overall India: A predictive mathematical study on COVID-19 outbreak
T Sardar, SS Nadim, S Rana, J Chattopadhyay
Chaos, Solitons & Fractals 139, 110078, 2020
Pelicans at risk in Salton sea—an eco-epidemiological model
J Chattopadhyay, N Bairagi
Ecological Modelling 136 (2-3), 103-112, 2001
Towards a resolution of ‘the paradox of the plankton’: A brief overview of the proposed mechanisms
S Roy, J Chattopadhyay
Ecological complexity 4 (1-2), 26-33, 2007
Stability and bifurcation analysis of a three-species food chain model with fear
P Panday, N Pal, S Samanta, J Chattopadhyay
International Journal of Bifurcation and Chaos 28 (01), 1850009, 2018
A delay differential equation model on harmful algal blooms in the presence of toxic substances
J Chattopadhyay, RR Sarkar, A El Abdllaoui
Mathematical Medicine and Biology: A Journal of the IMA 19 (2), 137-161, 2002
Effect of awareness programs by media on the epidemic outbreaks: A mathematical model
S Samanta, S Rana, A Sharma, AK Misra, J Chattopadhyay
Applied Mathematics and Computation 219 (12), 6965-6977, 2013
A delay differential equations model of plankton allelopathy
A Mukhopadhyay, J Chattopadhyay, PK Tapaswi
Mathematical biosciences 149 (2), 167-189, 1998
Effect of hunting cooperation and fear in a predator-prey model
S Pal, N Pal, S Samanta, J Chattopadhyay
Ecological Complexity 39, 100770, 2019
Role of infection on the stability of a predator–prey system with several response functions—a comparative study
N Bairagi, PK Roy, J Chattopadhyay
Journal of Theoretical Biology 248 (1), 10-25, 2007
Infection in prey population may act as a biological control in ratio-dependent predator–prey models
O Arino, J Mikram, J Chattopadhyay
Nonlinearity 17 (3), 1101, 2004
A mathematical model of dengue transmission with memory
T Sardar, S Rana, J Chattopadhyay
Communications in Nonlinear Science and Numerical Simulation 22 (1-3), 511-525, 2015
Short-term predictions and prevention strategies for COVID-19: a model-based study
SS Nadim, I Ghosh, J Chattopadhyay
Applied mathematics and computation 404, 126251, 2021
Awareness programs control infectious disease–multiple delay induced mathematical model
D Greenhalgh, S Rana, S Samanta, T Sardar, S Bhattacharya, ...
Applied Mathematics and Computation 251, 539-563, 2015
Viral infection on phytoplankton–zooplankton system—a mathematical model
J Chattopadhyay, S Pal
Ecological Modelling 151 (1), 15-28, 2002
Occurrence of planktonic blooms under environmental fluctuations and its possible control mechanism—mathematical models and experimental observations
RR Sarkar, J Chattopadhayay
Journal of Theoretical biology 224 (4), 501-516, 2003
The stability of ecosystems: a brief overview of the paradox of enrichment
S Roy, J Chattopadhyay
Journal of biosciences 32, 421-428, 2007
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