Bioprospecting marine plankton. Abida, H., Ruchaud, S., Rios, L., Humeau, A., Probert, I., De Vargas, C., Bach, S., & Bowler, C. Mar Drugs, 11(11):4594-611, 2013. Abida, Heni Ruchaud, Sandrine Rios, Laurent Humeau, Anne Probert, Ian De Vargas, Colomban Bach, Stephane Bowler, Chris eng Research Support, Non-U.S. Gov't Review Switzerland Mar Drugs. 2013 Nov 14;11(11):4594-611. doi: 10.3390/md11114594.
Paper doi abstract bibtex 3 downloads The ocean dominates the surface of our planet and plays a major role in regulating the biosphere. For example, the microscopic photosynthetic organisms living within provide 50% of the oxygen we breathe, and much of our food and mineral resources are extracted from the ocean. In a time of ecological crisis and major changes in our society, it is essential to turn our attention towards the sea to find additional solutions for a sustainable future. Remarkably, while we are overexploiting many marine resources, particularly the fisheries, the planktonic compartment composed of zooplankton, phytoplankton, bacteria and viruses, represents 95% of marine biomass and yet the extent of its diversity remains largely unknown and underexploited. Consequently, the potential of plankton as a bioresource for humanity is largely untapped. Due to their diverse evolutionary backgrounds, planktonic organisms offer immense opportunities: new resources for medicine, cosmetics and food, renewable energy, and long-term solutions to mitigate climate change. Research programs aiming to exploit culture collections of marine micro-organisms as well as to prospect the huge resources of marine planktonic biodiversity in the oceans are now underway, and several bioactive extracts and purified compounds have already been identified. This review will survey and assess the current state-of-the-art and will propose methodologies to better exploit the potential of marine plankton for drug discovery and for dermocosmetics.
@article{RN12,
author = {Abida, H. and Ruchaud, S. and Rios, L. and Humeau, A. and Probert, I. and De Vargas, C. and Bach, S. and Bowler, C.},
title = {Bioprospecting marine plankton},
journal = {Mar Drugs},
volume = {11},
number = {11},
pages = {4594-611},
note = {Abida, Heni
Ruchaud, Sandrine
Rios, Laurent
Humeau, Anne
Probert, Ian
De Vargas, Colomban
Bach, Stephane
Bowler, Chris
eng
Research Support, Non-U.S. Gov't
Review
Switzerland
Mar Drugs. 2013 Nov 14;11(11):4594-611. doi: 10.3390/md11114594.},
abstract = {The ocean dominates the surface of our planet and plays a major role in regulating the biosphere. For example, the microscopic photosynthetic organisms living within provide 50% of the oxygen we breathe, and much of our food and mineral resources are extracted from the ocean. In a time of ecological crisis and major changes in our society, it is essential to turn our attention towards the sea to find additional solutions for a sustainable future. Remarkably, while we are overexploiting many marine resources, particularly the fisheries, the planktonic compartment composed of zooplankton, phytoplankton, bacteria and viruses, represents 95% of marine biomass and yet the extent of its diversity remains largely unknown and underexploited. Consequently, the potential of plankton as a bioresource for humanity is largely untapped. Due to their diverse evolutionary backgrounds, planktonic organisms offer immense opportunities: new resources for medicine, cosmetics and food, renewable energy, and long-term solutions to mitigate climate change. Research programs aiming to exploit culture collections of marine micro-organisms as well as to prospect the huge resources of marine planktonic biodiversity in the oceans are now underway, and several bioactive extracts and purified compounds have already been identified. This review will survey and assess the current state-of-the-art and will propose methodologies to better exploit the potential of marine plankton for drug discovery and for dermocosmetics.},
keywords = {Animals
Biomass
Humans
Marine Biology/methods
Oceans and Seas
Plankton/*physiology},
ISSN = {1660-3397 (Electronic)
1660-3397 (Linking)},
DOI = {10.3390/md11114594},
url = {https://www.ncbi.nlm.nih.gov/pubmed/24240981},
year = {2013},
type = {Journal Article}
}
Downloads: 3
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