Sustainable BioRestoration - Manrrique Hughes et al., Iván
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The study of climate change has highlighted the need to mitigate greenhouse gas emissions, especially in industries such as cement and concrete, responsible for 7% of total human-generated emissions. The search for sustainable alternatives has led to the exploration of biomineralization and the use of non-pathogenic microorganisms as "bio-restoration agents" in concrete structures. This process, in which microorganisms synthesize minerals, is classified into induced, controlled and biologically influenced mineralization. A multidisciplinary approach is crucial to overcome the challenges and advance sustainable conservation.…mehr

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Produktbeschreibung
The study of climate change has highlighted the need to mitigate greenhouse gas emissions, especially in industries such as cement and concrete, responsible for 7% of total human-generated emissions. The search for sustainable alternatives has led to the exploration of biomineralization and the use of non-pathogenic microorganisms as "bio-restoration agents" in concrete structures. This process, in which microorganisms synthesize minerals, is classified into induced, controlled and biologically influenced mineralization. A multidisciplinary approach is crucial to overcome the challenges and advance sustainable conservation.
Autorenporträt
Iván Manrrique Hughes, ingegnere ambientale, ha svolto la sua tesi di laurea presso la Cattedra di Microbiologia, Istituto Multidisciplinare di Biologia Vegetale (IMBIV), Consiglio Nazionale per la Ricerca Scientifica e Tecnica (CONICET), Facoltà di Scienze Esatte, Fisiche e Naturali, Università Nazionale di Córdoba, Córdoba, Argentina.