The Chemistry of Phytoplankton

Xiaoying Liu; Zhiwei Bian; Shian Hu; Cody F. Dickinson; Menny M. Benjamin; Jia Jia; Yintai Tian; Allen Place; George S. Hanna; Hendrik Luesch; Peter Croot; Maggie M. Reddy; Olivier P. Thomas; Gary Hardiman; Melany P. Puglisi; Ming Yang; Zhi Zhong; John J. Lemasters; Jeffrey E. Korte; Amanda L. Waters; Carl E. Heltzel; R. Thomas Williamson; Wendy K. Strangman; Fred Valeriote; Marcus A. Tius; Giacomo R. DiTullio; Daneel Ferreira; Alexander Alekseyenko; Shengpeng Wang; Mark T. Hamann; Xiaojuan Wang

doi:10.1021/acs.chemrev.4c00177

The Chemistry of Phytoplankton

Xiaoying Liu
, Zhiwei Bian
, Shian Hu
, Cody F. Dickinson
, Menny M. Benjamin
, Jia Jia
, Yintai Tian
, Allen Place
, George S. Hanna
, Hendrik Luesch
, Peter Croot
, Maggie M. Reddy
, Olivier P. Thomas
, Gary Hardiman
, Melany P. Puglisi
, Ming Yang
, Zhi Zhong
, John J. Lemasters
, Jeffrey E. Korte
, Amanda L. Waters

Carl E. Heltzel, R. Thomas Williamson, Wendy K. Strangman, Fred Valeriote, Marcus A. Tius, Giacomo R. DiTullio, Daneel Ferreira, Alexander Alekseyenko, Shengpeng Wang, Mark T. Hamann, Xiaojuan Wang

Second Hospital of Lanzhou University
Medical University of South Carolina
Shanghai University
University of Maryland - Baltimore
University of Florida
Cancer and Stem Cell Biology Program
University of Galway
Queen's University of Belfast
Chicago State University
Clemson University College of Engineering, Computing and Applied Sciences
Medical University of South Carolina
University of Central Oklahoma
University of North Carolina at Wilmington
Henry Ford Health System
University of Hawaii at Manoa
College of Charleston
University of Mississippi
Institute of Chinese Medical Sciences

Research output: Contribution to a Journal (Peer & Non Peer) › Review article › peer-review

13 Citations (Scopus)

Abstract

Phytoplankton have a high potential for CO₂ capture and conversion. Besides being a vital food source at the base of oceanic and freshwater food webs, microalgae provide a critical platform for producing chemicals and consumer products. Enhanced nutrient levels, elevated CO₂, and rising temperatures increase the frequency of algal blooms, which often have negative effects such as fish mortalities, loss of flora and fauna, and the production of algal toxins. Harmful algal blooms (HABs) produce toxins that pose major challenges to water quality, ecosystem function, human health, tourism, and the food web. These toxins have complex chemical structures and possess a wide range of biological properties with potential applications as new therapeutics. This review presents a balanced and comprehensive assessment of the roles of algal blooms in generating fixed carbon for the food chain, sequestering carbon, and their unique secondary metabolites. The structural complexity of these metabolites has had an unprecedented impact on structure elucidation technologies and total synthesis, which are highlighted throughout this review. In addition, the influence of biogeochemical environmental perturbations on algal blooms and their influence on biospheric environments is discussed. Lastly, we summarize work on management strategies and technologies for the control and treatment of HABs.

Original language	English
Pages (from-to)	13099-13177
Number of pages	79
Journal	Chemical Reviews
Volume	124
Issue number	23
DOIs	https://doi.org/10.1021/acs.chemrev.4c00177
Publication status	Published - 11 Dec 2024

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being
SDG 6 Clean Water and Sanitation
SDG 12 Responsible Consumption and Production
SDG 14 Life Below Water

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10.1021/acs.chemrev.4c00177

Cite this

Liu, X., Bian, Z., Hu, S., Dickinson, C. F., Benjamin, M. M., Jia, J., Tian, Y., Place, A., Hanna, G. S., Luesch, H., Croot, P., Reddy, M. M., Thomas, O. P., Hardiman, G., Puglisi, M. P., Yang, M., Zhong, Z., Lemasters, J. J., Korte, J. E., ... Wang, X. (2024). The Chemistry of Phytoplankton. Chemical Reviews, 124(23), 13099-13177. https://doi.org/10.1021/acs.chemrev.4c00177

@article{7b81affd22884f108290238b410bb42e,

title = "The Chemistry of Phytoplankton",

abstract = "Phytoplankton have a high potential for CO2 capture and conversion. Besides being a vital food source at the base of oceanic and freshwater food webs, microalgae provide a critical platform for producing chemicals and consumer products. Enhanced nutrient levels, elevated CO2, and rising temperatures increase the frequency of algal blooms, which often have negative effects such as fish mortalities, loss of flora and fauna, and the production of algal toxins. Harmful algal blooms (HABs) produce toxins that pose major challenges to water quality, ecosystem function, human health, tourism, and the food web. These toxins have complex chemical structures and possess a wide range of biological properties with potential applications as new therapeutics. This review presents a balanced and comprehensive assessment of the roles of algal blooms in generating fixed carbon for the food chain, sequestering carbon, and their unique secondary metabolites. The structural complexity of these metabolites has had an unprecedented impact on structure elucidation technologies and total synthesis, which are highlighted throughout this review. In addition, the influence of biogeochemical environmental perturbations on algal blooms and their influence on biospheric environments is discussed. Lastly, we summarize work on management strategies and technologies for the control and treatment of HABs.",

author = "Xiaoying Liu and Zhiwei Bian and Shian Hu and Dickinson, \{Cody F.\} and Benjamin, \{Menny M.\} and Jia Jia and Yintai Tian and Allen Place and Hanna, \{George S.\} and Hendrik Luesch and Peter Croot and Reddy, \{Maggie M.\} and Thomas, \{Olivier P.\} and Gary Hardiman and Puglisi, \{Melany P.\} and Ming Yang and Zhi Zhong and Lemasters, \{John J.\} and Korte, \{Jeffrey E.\} and Waters, \{Amanda L.\} and Heltzel, \{Carl E.\} and Williamson, \{R. Thomas\} and Strangman, \{Wendy K.\} and Fred Valeriote and Tius, \{Marcus A.\} and DiTullio, \{Giacomo R.\} and Daneel Ferreira and Alexander Alekseyenko and Shengpeng Wang and Hamann, \{Mark T.\} and Xiaojuan Wang",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors. Published by American Chemical Society.",

year = "2024",

month = dec,

day = "11",

doi = "10.1021/acs.chemrev.4c00177",

language = "English",

volume = "124",

pages = "13099--13177",

journal = "Chemical Reviews",

issn = "0009-2665",

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Liu, X, Bian, Z, Hu, S, Dickinson, CF, Benjamin, MM, Jia, J, Tian, Y, Place, A, Hanna, GS, Luesch, H, Croot, P, Reddy, MM, Thomas, OP, Hardiman, G, Puglisi, MP, Yang, M, Zhong, Z, Lemasters, JJ, Korte, JE, Waters, AL, Heltzel, CE, Williamson, RT, Strangman, WK, Valeriote, F, Tius, MA, DiTullio, GR, Ferreira, D, Alekseyenko, A, Wang, S, Hamann, MT & Wang, X 2024, 'The Chemistry of Phytoplankton', Chemical Reviews, vol. 124, no. 23, pp. 13099-13177. https://doi.org/10.1021/acs.chemrev.4c00177

TY - JOUR

T1 - The Chemistry of Phytoplankton

AU - Liu, Xiaoying

AU - Bian, Zhiwei

AU - Hu, Shian

AU - Dickinson, Cody F.

AU - Benjamin, Menny M.

AU - Jia, Jia

AU - Tian, Yintai

AU - Place, Allen

AU - Hanna, George S.

AU - Luesch, Hendrik

AU - Croot, Peter

AU - Reddy, Maggie M.

AU - Thomas, Olivier P.

AU - Hardiman, Gary

AU - Puglisi, Melany P.

AU - Yang, Ming

AU - Zhong, Zhi

AU - Lemasters, John J.

AU - Korte, Jeffrey E.

AU - Waters, Amanda L.

AU - Heltzel, Carl E.

AU - Williamson, R. Thomas

AU - Strangman, Wendy K.

AU - Valeriote, Fred

AU - Tius, Marcus A.

AU - DiTullio, Giacomo R.

AU - Ferreira, Daneel

AU - Alekseyenko, Alexander

AU - Wang, Shengpeng

AU - Hamann, Mark T.

AU - Wang, Xiaojuan

PY - 2024/12/11

Y1 - 2024/12/11

N2 - Phytoplankton have a high potential for CO2 capture and conversion. Besides being a vital food source at the base of oceanic and freshwater food webs, microalgae provide a critical platform for producing chemicals and consumer products. Enhanced nutrient levels, elevated CO2, and rising temperatures increase the frequency of algal blooms, which often have negative effects such as fish mortalities, loss of flora and fauna, and the production of algal toxins. Harmful algal blooms (HABs) produce toxins that pose major challenges to water quality, ecosystem function, human health, tourism, and the food web. These toxins have complex chemical structures and possess a wide range of biological properties with potential applications as new therapeutics. This review presents a balanced and comprehensive assessment of the roles of algal blooms in generating fixed carbon for the food chain, sequestering carbon, and their unique secondary metabolites. The structural complexity of these metabolites has had an unprecedented impact on structure elucidation technologies and total synthesis, which are highlighted throughout this review. In addition, the influence of biogeochemical environmental perturbations on algal blooms and their influence on biospheric environments is discussed. Lastly, we summarize work on management strategies and technologies for the control and treatment of HABs.

AB - Phytoplankton have a high potential for CO2 capture and conversion. Besides being a vital food source at the base of oceanic and freshwater food webs, microalgae provide a critical platform for producing chemicals and consumer products. Enhanced nutrient levels, elevated CO2, and rising temperatures increase the frequency of algal blooms, which often have negative effects such as fish mortalities, loss of flora and fauna, and the production of algal toxins. Harmful algal blooms (HABs) produce toxins that pose major challenges to water quality, ecosystem function, human health, tourism, and the food web. These toxins have complex chemical structures and possess a wide range of biological properties with potential applications as new therapeutics. This review presents a balanced and comprehensive assessment of the roles of algal blooms in generating fixed carbon for the food chain, sequestering carbon, and their unique secondary metabolites. The structural complexity of these metabolites has had an unprecedented impact on structure elucidation technologies and total synthesis, which are highlighted throughout this review. In addition, the influence of biogeochemical environmental perturbations on algal blooms and their influence on biospheric environments is discussed. Lastly, we summarize work on management strategies and technologies for the control and treatment of HABs.

UR - https://www.scopus.com/pages/publications/85209731125

U2 - 10.1021/acs.chemrev.4c00177

DO - 10.1021/acs.chemrev.4c00177

M3 - Review article

C2 - 39571071

AN - SCOPUS:85209731125

SN - 0009-2665

VL - 124

SP - 13099

EP - 13177

JO - Chemical Reviews

JF - Chemical Reviews

IS - 23

ER -

The Chemistry of Phytoplankton

Abstract

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