I am a pre-doctoral researcher at Complex Systems Lab (CSL) of the Universitat Pompeu Fabra (UPF) in Barcelona, supervised by Ricard Solé , Josep Sardanyés and Núria Conde. I am designing, modelling, and sometimes testing, engineered systems for holding ecosystems before a tipping point. For this reason, I apply concepts from different areas such as: ecology (in order to know what is needed), computation science (abstract design of the needed circuits), synthetic biology (for the organism engineering), dynamical systems (for instance ghost phenomena and chaos) and mathematical modelling (to test and predicting behaviour). Hopefully, after my doctorate we will understand better some damaged ecosystems and we will have some insights of how to sustain them using biological agents. Will we be able to Terraform our planet?
My background is a Bachelor in Biomedical Engineering and a Master of Sciences in Mathematical Modeler of Complex Systems. I have been interested in Complexity and Dynamical Systems since my first lessons in the Biomedical Engineering degree. The question of how these two branches of science can give simple explanations of the emerging properties of natural systems is fascinating.
My interests make me collaborate during my Degree and Master studies with the Complex Systems Lab (CSL) and Dynamical Systems Biology Lab (DSB) from the UPF. In the DSB lab I have been supervised by Jordi Garcia Ojalvo, and we have studied the expression patterning in the gastruloids, the effects of noise in the cell division and the echo phenomena in synthetic biological oscillators. In the CSL I had been researching about how engineering synthetic bacteria to behave as an immune system, and engineering the semi-arid ecosystems to improve them in front of the global Climate Change conditions, and the study of the plastic ocean ecosystem crated by the human society.
Nowadays, my research is focused in the Terraformation of ecosystems. In order to achieve the possibility to Terraform the ecosystem, we must learn several topics to predict the viability of our Terraformation strategy. Some of the topics needed are: Population dynamics, Synthetic Biology, Systems Biology, Dynamical systems, Biological Computation and Spatial Analysis. Complexity science provide us the landmark to understand the whole phenomena, even when their parts can not explain the behaviour of the system by themselves.