The development of ocean sensors remains a ripe area for future investigation from science, policy and systemsengineering standpoints. Clearly, there are many options forrealizing integrated molecular analytical sensing systems. The definition of key target molecules, detection methodsand signal transduction models largely remain to be determined.Moreover, there remains ahuge challenge of merging this new class of instrument with different deployment platforms, and supplying necessarypower and data telemetry infrastructure for their operation. Molecular Biological Technologies for Ocean...
The development of ocean sensors remains a ripe area for future investigation from science, policy and systemsengineering standpoints. Clearly, there ...
This book reviews technologies for studying organisms in situ, detailing the use of ecogenomic sensors in the ocean for monitoring of pathogens and biotoxins; documenting species diversity, evolution and function; studying aquatic organisms and more.
This book reviews technologies for studying organisms in situ, detailing the use of ecogenomic sensors in the ocean for monitoring of pathogens and bi...
This book discusses the extremophiles explored for biosynthesis of nanoparticles. Nanotechnology is a widely emerging field involving interdisciplinary subjects such as biology, physics, chemistry and medicine. A wide variety of microorganisms, such as bacteria, fungi and algae are employed as biological agents for the synthesis of nanoparticles. Novel routes by which extremophiles can be employed to generate nanoparticles have yet to be discovered.
The book is divided into 5 major chapters:
(1) Major types of nanoparticles in nanotechnology
(2) Diversity of microbes in...
This book discusses the extremophiles explored for biosynthesis of nanoparticles. Nanotechnology is a widely emerging field involving interdiscipli...
