Macro- and Micronutrients from Traditional Food Plants Could Improve Nutrition and Reduce Non-Communicable Diseases of Islanders on Atolls in the South Pacific

Lyons, Graham; Dean, GJ; Tongaiaba, Routan; Halavatau, Siosiua; Nakabuta, Kabuati; Lonalona, Matio; Susumu, Gibson

doi:10.3390/plants9080942

Cited by 14 publications

(10 citation statements)

References 63 publications

(84 reference statements)

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“…The presence of vitamin A in purslane makes it a good candidate for people with vision impairments and vitamin A deficiency [ 18 ]. Islanders on Atolls in the South Pacific consume purslane because of the presence of macro and micronutrients [ 177 ]. The main nutraceutical constituents of purslane are presented in Figure 3 and their individual concentrations are shown in Table 3 .…”

Section: Purslane Is Nutritionally Rich Traditional Food Plant With Huge Nutraceutical Potentialmentioning

confidence: 99%

A review on bioactive phytochemicals and ethnopharmacological potential of purslane (Portulaca oleracea L.)

Kumar

Sreedharan

Kashyap³

et al. 2022

Heliyon

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The Portulaca oleracea L. commonly known as purslane is distributed all over the world and easily grows in diverse soil and climatic conditions. It has been traditionally used as a nutritious and ethnomedicinal food across the globe. Various studies have shown that the plant is a rich source of various important phytochemicals such as flavonoids, alkaloids, terpenoids, proteins, carbohydrates, and vitamins such as A, C, E, and B, carotenoids and minerals such as phosphorus, calcium, magnesium and zinc. It is particularly very important because of the presence of a very high concentration of omega-3- fatty acids especially α-linolenic acid, gamma-linolenic acid and linoleic acid, which are not generally synthesized in terrestrial plants. Various parts of purslane are known for ethnomedicinal and pharmacological uses because of its anti-inflammatory, antidiabetic, skeletal muscle relaxant, antitumor, hepatoprotective, anticancer, antioxidant, anti-insomnia, analgesic, gastroprotective, neuroprotective, wound healing and antiseptic activities. Due to multiple benefits of purslane, it has become an important wonder crop and various scientists across the globe have shown much interest in it as a healthy food for the future. In this review, we provide an update on the phytochemical and nutritional composition of purslane, its usage as nutritional and an ethnomedicinal plant across the world. We further provide a detailed account on ethnopharmacological studies that have proved the ethnomedicinal properties of purslane.

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Section: Purslane Is Nutritionally Rich Traditional Food Plant With Huge Nutraceutical Potentialmentioning

confidence: 99%

A review on bioactive phytochemicals and ethnopharmacological potential of purslane (Portulaca oleracea L.)

Kumar

Sreedharan

Kashyap³

et al. 2022

Heliyon

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“…The presence of vitamin A in Purslane makes it a good candidate for people with vision impairments and vitamin A de ciency (Nemzer et al, 2020). Islanders on Atolls in the South Paci c consume Purslane because of the presence of macro and micronutrients (Lyons et al, 2020). (Aberoumand, 2009) Carbohydrate (% DW) 40.…”

Section: Purslane Is Nutritionally Rich Traditional Food Plant With Huge Nutraceutical Potentialmentioning

confidence: 99%

A review on bioactive phytochemicals, ethnomedicinal and pharmacological importance of Purslane (Portulaca oleracea L.)

Kumar

Sreedharan

Kashyap³

et al. 2021

Preprint

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The Portulaca oleracea L. commonly known as Purslane is distributed all over the world and easily grows in diverse soil conditions. It has been traditionally used as a nutritious and ethnomedicinal food across the globe. Various studies have shown that the plant is a rich source of various important phytochemicals such as flavonoids, alkaloids, terpenoids, proteins, carbohydrates, and vitamins such as A, C, E, and B, carotenoids and minerals such as phosphorus, calcium, magnesium and zinc. It is particularly very important because of the presence of very high concentration of omega-3- fatty acids especially α-linolenic acid, gamma- linolenic acid and linoleic acid, which are not generally synthesized in terrestrial plants. Various parts of Purslane are known for ethnomedicinal and pharmacological uses because of its anti-inflammatory, antidiabetic, skeletal muscle relaxant, antitumor, hepatoprotective, anticancer, antioxidant, anti-insomnia, analgesic, gastroprotective, neuroprotective, wound healing and antiseptic activities. Due to multiple benefits of Purslane, it has become an important wonder crop and various scientists across the globe have shown much interest in it as a healthy food for the future. In this review, we provide an update on the phytochemical and nutritional composition of Purslane, its usage as nutritional and an ethnomedicinal plant across the world. We further emphasize its ethno medicinal importance across cultures and pharmacological potential.

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“…Examples of conservation activities that impact on the use of the genetic resources that have been covered in this Special Issue include the following: easy access to genetic resources increases the capacity of breeders to respond to climate change and the availability of appropriate technologies [41]; access to traditional knowledge on the use of wild plant species [27]; a systematic association-mapping of wheat varieties with SNP markers was successfully used to associate adult plant stripe rust resistance with specific rust races, and results can be used in marker-assisted selection [29]; the analysis of a local genetic panel of manna ash with a continental dataset allowed conclusions on the presence of a possible glacial refuge, and thus facilitates the collecting and use of more genetic diversity [38]; the systematic characterization of ancient grape germplasm in Cyprus allowed the discovery of so far unnoticed genetic diversity [35]; literature searches and conducting field surveys allowed the identification of unknown wild food plants in Kenya [20]; fact sheets promoted the use of traditional food plants in the South Pacific [26]; the exploitation of the local genetic diversity of traditional pea landraces in Greece is fundamental for conservation practices and crop improvement through breeding strategies [32]; the evaluation of maize landrace accessions under heat and drought stresses resulted in invaluable sources of genes/alleles for adaptation breeding [30]; the review of recent efforts that build evidence of the importance of wild food plants in selected countries, while providing examples of cross-sectoral cooperation and multi-stakeholder approaches, contributes to enhancing their sustainable use [19]; the advances in conventional and molecular breeding for the drought tolerance of conventional staple crops, and the introduction of drought-tolerant neglected and underutilized species into existing production systems has the potential to enhance the resilience of agricultural production under conditions of water scarcity [40]; the utilization of advanced phenotyping tools, coupled with high-throughput genotyping, will accelerate the use of genetic resources and fast-track the development of more resilient food crops for the future [24]; and genomics-assisted breeding is increasingly facilitating the introgression of favorable genes and quantitative trait loci from wild species into cultigens, and will lead to a wider use of crop wild relatives in the development of resilient cultivars [25].…”

Section: Genetic Resources and Plant Breedingmentioning

confidence: 99%

“…Several papers highlight the importance of vegetables as well as traditional, underutilized and wild food plants for food and nutrition security in general [19,25], in pilot studies in Kenya [20], and on atolls in the South Pacific [26], including specific crops, such as Hairy Stork's Bill (Erodium crassifolium) [27], and the sister of the common pomegranate (Punica protopunica), the latter also having interesting medicinal properties [28]. A number of papers focus on the genetic diversity of specific crops or specific traits in a range of food crops for the benefit of plant breeding, such as genome-wide association mapping for stripe rust resistance in spring wheat [29], diversity studies for drought and heat stress in maize landraces [30], nitrogen fixation and water use efficiency in common bean landraces and cultivars in Honduras [31], species identification of Katsouni pea on Greek Islands [32], wild potato germplasm evaluation for starch content and nitrogen utilization efficiency [33], diversity, population structure and marker-trait association for 100-seed weight in a safflower (Carthamus tinctorius) germplasm panel [34], the composition of Cypriot grapevine varieties [35], species assignment, genetic diversity and phylogeographic relationships of wild germplasm of macadamia [36], genetic diversity and population structure of Rhododendron rex subsp.…”

Section: Introductionmentioning

confidence: 99%

Plant Biodiversity and Genetic Resources Matter!

Ebert

Engels

2020

Plants

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Plant biodiversity is the foundation of our present-day food supply (including functional food and medicine) and offers humankind multiple other benefits in terms of ecosystem functions and resilience to climate change, as well as other perturbations. This Special Issue on ‘Plant Biodiversity and Genetic Resources’ comprises 32 papers covering a wide array of aspects from the definition and identification of hotspots of wild and domesticated plant biodiversity to the specifics of conservation of genetic resources of crop genepools, including breeding and research materials, landraces and crop wild relatives which collectively are the pillars of modern plant breeding, as well as of localized breeding efforts by farmers and farming communities. The integration of genomics and phenomics into germplasm and genebank management enhances the value of crop germplasm conserved ex situ, and is likely to increase its utilization in plant breeding, but presents major challenges for data management and the sharing of this information with potential users. Furthermore, also a better integration of in situ and ex situ conservation efforts will contribute to a more effective conservation and certainly to a more sustainable and efficient utilization. Other aspects such as policy, access and benefit-sharing that directly impact the use of plant biodiversity and genetic resources, as well as balanced nutrition and enhanced resilience of production systems that depend on their increased use, are also being treated. The editorial concludes with six key messages on plant biodiversity, genetic erosion, genetic resources and plant breeding, agricultural diversification, conservation of agrobiodiversity, and the evolving role and importance of genebanks.

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Macro- and Micronutrients from Traditional Food Plants Could Improve Nutrition and Reduce Non-Communicable Diseases of Islanders on Atolls in the South Pacific

Cited by 14 publications

References 63 publications

A review on bioactive phytochemicals and ethnopharmacological potential of purslane (Portulaca oleracea L.)

A review on bioactive phytochemicals and ethnopharmacological potential of purslane (Portulaca oleracea L.)

A review on bioactive phytochemicals, ethnomedicinal and pharmacological importance of Purslane (Portulaca oleracea L.)

Plant Biodiversity and Genetic Resources Matter!

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