On the Health Benefits vs. Risks of Seaweeds and Their Constituents: The Curious Case of the Polymer Paradigm

doi:10.3390/md19030164

Comparative Study

. 2021 Mar 19;19(3):164.

doi: 10.3390/md19030164.

On the Health Benefits vs. Risks of Seaweeds and Their Constituents: The Curious Case of the Polymer Paradigm

João Cotas^{1

2}, Diana Pacheco^{1

2}, Glacio Souza Araujo³, Ana Valado^{2

4}, Alan T Critchley⁵, Leonel Pereira^{1

2}

Affiliations

¹ Department of Life Sciences, University of Coimbra, 3000-456 Coimbra, Portugal.
² Marine and Environmental Sciences Centre (MARE), Faculty of Sciences and Technology, University of Coimbra, 3001-456 Coimbra, Portugal.
³ Federal Institute of Education, Science and Technology of Ceará-IFCE, Campus Aracati, CE 040, km 137,1, Aracati 62800-000, Ceara, Brazil.
⁴ Department of Biomedical Laboratory Sciences, Polytechnic Institute of Coimbra, ESTeSC-Coimbra Health School, Rua 5 de Outubro, S. Martinho do Bispo, Apartamento 7006, 3046-854 Coimbra, Portugal.
⁵ Verschuren Centre for Sustainability in Energy and the Environment, Sydney, NS B1P 6L2, Canada.

PMID: 33808736
PMCID: PMC8003528
DOI: 10.3390/md19030164

Comparative Study

On the Health Benefits vs. Risks of Seaweeds and Their Constituents: The Curious Case of the Polymer Paradigm

João Cotas et al. Mar Drugs. 2021.

. 2021 Mar 19;19(3):164.

doi: 10.3390/md19030164.

Authors

João Cotas^{1

2}, Diana Pacheco^{1

2}, Glacio Souza Araujo³, Ana Valado^{2

4}, Alan T Critchley⁵, Leonel Pereira^{1

2}

Affiliations

¹ Department of Life Sciences, University of Coimbra, 3000-456 Coimbra, Portugal.
² Marine and Environmental Sciences Centre (MARE), Faculty of Sciences and Technology, University of Coimbra, 3001-456 Coimbra, Portugal.
³ Federal Institute of Education, Science and Technology of Ceará-IFCE, Campus Aracati, CE 040, km 137,1, Aracati 62800-000, Ceara, Brazil.
⁴ Department of Biomedical Laboratory Sciences, Polytechnic Institute of Coimbra, ESTeSC-Coimbra Health School, Rua 5 de Outubro, S. Martinho do Bispo, Apartamento 7006, 3046-854 Coimbra, Portugal.
⁵ Verschuren Centre for Sustainability in Energy and the Environment, Sydney, NS B1P 6L2, Canada.

PMID: 33808736
PMCID: PMC8003528
DOI: 10.3390/md19030164

Abstract

To exploit the nutraceutical and biomedical potential of selected seaweed-derived polymers in an economically viable way, it is necessary to analyze and understand their quality and yield fluctuations throughout the seasons. In this study, the seasonal polysaccharide yield and respective quality were evaluated in three selected seaweeds, namely the agarophyte Gracilaria gracilis, the carrageenophyte Calliblepharis jubata (both red seaweeds) and the alginophyte Sargassum muticum (brown seaweed). It was found that the agar synthesis of G. gracilis did not significantly differ with the seasons (27.04% seaweed dry weight (DW)). In contrast, the carrageenan content in C. jubata varied seasonally, being synthesized in higher concentrations during the summer (18.73% DW). Meanwhile, the alginate synthesis of S. muticum exhibited a higher concentration (36.88% DW) during the winter. Therefore, there is a need to assess the threshold at which seaweed-derived polymers may have positive effects or negative impacts on human nutrition. Furthermore, this study highlights the three polymers, along with their known thresholds, at which they can have positive and/or negative health impacts. Such knowledge is key to recognizing the paradigm governing their successful deployment and related beneficial applications in humans.

Keywords: biomedical; health benefits; health risks; polymer seasonal variation; polysaccharides.

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Conflict of interest statement

The authors declare no conflict of interest.

Figures

**Figure 1**
Three seaweeds studied at the collection site (Figueira da Foz, Portugal): (a) *Calliblepharis jubata* (Rhodophyta—carrageenan-bearing); (b) *Gracilaria gracilis* (Rhodophyta—agar bearing); (c) *Sargassum muticum* (Phaeophyta—alginate-bearing).

**Figure 2**
Carrageenan content analyzed seasonally. The extraction yields are expressed as mean ± standard deviation (n = 3). ^a,b The same letters indicate no significant differences at the p-value < 0.05 level.

**Figure 3**
FTIR-ATR spectrum of the carrageenan extracted from *Calliblepharis jubata*.

**Figure 4**
Agar content analyzed seasonally. The extraction yield results are expressed as mean ± standard deviation (n = 3). ^a The letters indicate no significant differences at the p-value < 0.05 level.

**Figure 5**
FTIR-ATR spectrum of the agar extracted from *Gracilaria gracilis.*

**Figure 6**
Alginate content analyzed seasonally. The extraction yields are expressed as mean ± standard deviation (n = 3). ^a,b Similar letters indicate no significant differences at the p-value < 0.05 level.

**Figure 7**
FTIR-ATR spectrum of the alginate extracted from *Sargassum muticum*.

See this image and copyright information in PMC

Cited by

Marine-Derived Polysaccharides and Their Potential Health Benefits in Nutraceutical Applications.
Carrasqueira J, Bernardino S, Bernardino R, Afonso C. Carrasqueira J, et al. Mar Drugs. 2025 Jan 28;23(2):60. doi: 10.3390/md23020060. Mar Drugs. 2025. PMID: 39997184 Free PMC article. Review.
Chondracanthus teedei var. lusitanicus: The Nutraceutical Potential of an Unexploited Marine Resource.
Pacheco D, Cotas J, Domingues A, Ressurreição S, Bahcevandziev K, Pereira L. Pacheco D, et al. Mar Drugs. 2021 Oct 14;19(10):570. doi: 10.3390/md19100570. Mar Drugs. 2021. PMID: 34677469 Free PMC article.
From Ocean to Medicine: Harnessing Seaweed's Potential for Drug Development.
Cotas J, Lomartire S, Gonçalves AMM, Pereira L. Cotas J, et al. Int J Mol Sci. 2024 Jan 8;25(2):797. doi: 10.3390/ijms25020797. Int J Mol Sci. 2024. PMID: 38255871 Free PMC article. Review.

References

1. FAO . The State of World Fisheries and Aquaculture 2020 Sustainability in Action. FAO; Rome, Italy: 2020.
1. Pereira L. Edible Seaweeds of the World; CRC Press: Boca Raton, FL, USA, 2016. 9780429154041
1. Cherry P., O’Hara C., Magee P.J., McSorley E.M., Allsopp P.J. Risks and benefits of consuming edible seaweeds. Nutr. Rev. 2019;77:307–329. doi: 10.1093/nutrit/nuy066. - DOI - PMC - PubMed
1. Rajapakse N., Kim S.K. Nutritional and Digestive Health Benefits of Seaweed. 1st ed. Volume 64. Elsevier Inc.; Amsterdam, The Netherlands: 2011. - PubMed
1. Mišurcová L., Machů L., Orsavová J. Seaweed minerals as nutraceuticals. Adv. Food Nutr. Res. 2011;64:371–390. doi: 10.1016/B978-0-12-387669-0.00029-6. - DOI - PubMed

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[1] FAO . The State of World Fisheries and Aquaculture 2020 Sustainability in Action. FAO; Rome, Italy: 2020.

[2] FAO . The State of World Fisheries and Aquaculture 2020 Sustainability in Action. FAO; Rome, Italy: 2020.

[3] Pereira L. Edible Seaweeds of the World; CRC Press: Boca Raton, FL, USA, 2016. 9780429154041

[4] Pereira L. Edible Seaweeds of the World; CRC Press: Boca Raton, FL, USA, 2016. 9780429154041

[5] Cherry P., O’Hara C., Magee P.J., McSorley E.M., Allsopp P.J. Risks and benefits of consuming edible seaweeds. Nutr. Rev. 2019;77:307–329. doi: 10.1093/nutrit/nuy066. - DOI - PMC - PubMed

[6] Cherry P., O’Hara C., Magee P.J., McSorley E.M., Allsopp P.J. Risks and benefits of consuming edible seaweeds. Nutr. Rev. 2019;77:307–329. doi: 10.1093/nutrit/nuy066. - DOI - PMC - PubMed

[7] Rajapakse N., Kim S.K. Nutritional and Digestive Health Benefits of Seaweed. 1st ed. Volume 64. Elsevier Inc.; Amsterdam, The Netherlands: 2011. - PubMed

[8] Rajapakse N., Kim S.K. Nutritional and Digestive Health Benefits of Seaweed. 1st ed. Volume 64. Elsevier Inc.; Amsterdam, The Netherlands: 2011. - PubMed

[9] Mišurcová L., Machů L., Orsavová J. Seaweed minerals as nutraceuticals. Adv. Food Nutr. Res. 2011;64:371–390. doi: 10.1016/B978-0-12-387669-0.00029-6. - DOI - PubMed

[10] Mišurcová L., Machů L., Orsavová J. Seaweed minerals as nutraceuticals. Adv. Food Nutr. Res. 2011;64:371–390. doi: 10.1016/B978-0-12-387669-0.00029-6. - DOI - PubMed

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On the Health Benefits vs. Risks of Seaweeds and Their Constituents: The Curious Case of the Polymer Paradigm

Affiliations

On the Health Benefits vs. Risks of Seaweeds and Their Constituents: The Curious Case of the Polymer Paradigm

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