REVIEW ON CHEMICAL COMMUNICATION AND ADAPTIVE RESPONSES OF DEEP-SEA ORGANISM IN EXTREME ENVIORNMENTS

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Dhananjay Gupta; sakshi parekh

REVIEW ON CHEMICAL COMMUNICATION AND ADAPTIVE RESPONSES OF DEEP-SEA ORGANISM IN EXTREME ENVIORNMENTS

Authors: Dhananjay Gupta, sakshi parekh

Unique Paper ID: 191858
Volume: 12
Issue: 8
PageNo: 8905-8908

Keywords: Sea Organisms Concentration Environment.

Abstract:
The deep sea, one of the planet's most diversified ecosystems, has not yet been thoroughly investigated, despite the potential for ground-breaking discoveries. Diverse secondary metabolites with intriguing bioactive characteristics are produced by deep-sea organisms, opening up new treatment options for human illnesses. The finding of these compounds has been made easier by advancements in sampling and culture techniques, but financial and logistical obstacles still exist. (Reference no.3) Additionally, deep-sea environments foster creative chemistry. Examples of this include soft materials that resemble high-pressure resilience, nanobiotechnology influenced by deep-sea animal survival strategies, and molecular self-assembly impacted by hydrothermal vent conditions. The creation of new materials and the sustainable use of ocean resources may result from these discoveries. Trimethylamine N-oxide's (TMAO) function in stabilising high-pressure hydrogen bonding is one important finding that advances our knowledge of life in these conditions (Reference no.7). It has been demonstrated that distinct geochemical characteristics, such as high salinity and manganese concentrations, contribute to the formation and ecological significance of deep-sea brine pools, such as those found in the eastern Mediterranean. Over the past half-century, scientific advancements have revolutionised the study of deep-sea organisms by demonstrating their remarkable metabolic variety and flexibility. Research on the energy and chemical composition of organisms such as copepods and midwater crustaceans has shed light on their roles in buoyancy systems and deep-sea food webs. These studies also yield important information on the concentrations of micro nekton trace elements and the bio-organic and geochemical dynamics of deep-sea hydrothermal systems. Both human consumption and marine environments are impacted.

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Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{191858,
        author = {Dhananjay Gupta and sakshi parekh},
        title = {REVIEW ON CHEMICAL COMMUNICATION AND ADAPTIVE RESPONSES OF DEEP-SEA ORGANISM IN EXTREME ENVIORNMENTS},
        journal = {International Journal of Innovative Research in Technology},
        year = {2026},
        volume = {12},
        number = {8},
        pages = {8905-8908},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=191858},
        abstract = {The deep sea, one of the planet's most diversified ecosystems, has not yet been thoroughly investigated, despite the potential for ground-breaking discoveries. Diverse secondary metabolites with intriguing bioactive characteristics are produced by deep-sea organisms, opening up new treatment options for human illnesses. The finding of these compounds has been made easier by advancements in sampling and culture techniques, but financial and logistical obstacles still exist. (Reference no.3) Additionally, deep-sea environments foster creative chemistry.  Examples of this include soft materials that resemble high-pressure resilience, nanobiotechnology influenced by deep-sea animal survival strategies, and molecular self-assembly impacted by hydrothermal vent conditions. The creation of new materials and the sustainable use of ocean resources may result from these discoveries. Trimethylamine N-oxide's (TMAO) function in stabilising high-pressure hydrogen bonding is one important finding that advances our knowledge of life in these conditions (Reference no.7). It has been demonstrated that distinct geochemical characteristics, such as high salinity and manganese concentrations, contribute to the formation and ecological significance of deep-sea brine pools, such as those found in the eastern Mediterranean. Over the past half-century, scientific advancements have revolutionised the study of deep-sea organisms by demonstrating their remarkable metabolic variety and flexibility. Research on the energy and chemical composition of organisms such as copepods and midwater crustaceans has shed light on their roles in buoyancy systems and deep-sea food webs. These studies also yield important information on the concentrations of micro nekton trace elements and the bio-organic and geochemical dynamics of deep-sea hydrothermal systems. Both human consumption and marine environments are impacted.},
        keywords = {Sea, Organisms, Concentration, Environment.},
        month = {January},
        }

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Cite This Article

Gupta, D., & parekh, S. (2026). REVIEW ON CHEMICAL COMMUNICATION AND ADAPTIVE RESPONSES OF DEEP-SEA ORGANISM IN EXTREME ENVIORNMENTS. International Journal of Innovative Research in Technology (IJIRT), 12(8), 8905–8908.

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