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National Committee on Marine Sciences (NCMS)

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Ocean Decade Challenge: search.filters.odc.Challenge 2: Protect and restore ecosystems and biodiversityScientific name: search.filters.scientificname.Rhodophyta

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    The complete mitochondrial genome of a wild-collected Kappaphycus malesianus (Solieriaceae, Rhodophyta)
    Crisostomo, Bea A.; Dumilag, Richard V.; Roleda, Michael Y.; Lluisma, Arturo O. (Taylor & Francis, 2023-03-04)
    Kappaphycus malesianus is a red seaweed farmed primarily for its carrageenan, a polysaccharide important in the food and pharmaceutical industries. Among the commercially cultivated Kappaphycus species, only K. malesianus has no mitogenome data available. Here, we assembled the mitochondrial genome of K. malesianus from next-generation sequencing data. The circular mitogenome consisted of 25,250 base pairs (bp) with a GC content of 30.25%. These values were comparable to previously sequenced solieriacean mitogenomes. Structural features, such as the stem-loop and hairpin, which were previously reported in other rhodophytes mitochondrial DNA, were also identified. The annotated genes (24 protein-coding genes, 24 tRNA genes, and 2 rRNA genes) were arranged in an order similar to the other available solieriacean mitogenomes. Lastly, phylogenetic analysis using 23 predicted protein domains showed the sister relationship of K. malesianus with other Kappaphycus species.
    The authors are grateful to Z.-Z. Aguinaldo, S. Damsik, and J. Turong for aiding during laboratory and field works. The authors also acknowledge the LGU of Sitangkai, Tawi-Tawi for granting permission for the collection activities. This is contribution no. 495 from the University of the Philippines the Marine Science Institute (UPMSI), Diliman, Quezon City.
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    Genetic diversity of Kappaphycus malesianus (Solieriaceae, Rhodophyta) from the Philippines
    Dumilag, Richard V.; Crisostomo, Bea A.; Aguinaldo, Zae-Zae A.; Lluisma, Arturo O.; Gachon, Claire M.M.; Roleda, Michael Y. (Elsevier, 2023-07)
    Kappaphycus farming for carrageenan production is characterized by a strong selective pressure at the genetic level. Traits of agronomic importance are compromised due to domestication bottlenecks and the subsequent events of possible selective breeding of founding cultivars. Kappaphycus malesianus is farmed in Malaysia and the Philippines, and is distributed within the Malesian region. While the majority of genetically characterized specimens of this species are from Malaysia, those from the Philippines are poorly explored. Here, we assessed the genetic diversity of K. malesianus from the Philippines based on cox1 sequences. Of the 15 identified haplotypes, 14 specimens represent three novel haplotypes (wild specimens) that form a group distinct from the main clade comprising most K. malesianus haplotypes known to date. An additional haplotype from a cultivated specimen was identical to that of the most widely distributed haplotype. Our findings demonstrate that the K. malesianus is genetically more diverse than previously recognized. It is expected that higher genetic diversity may be revealed through additional sampling from a wider geographic range and careful application of integrative approaches. Future selective breeding programs in Kappaphycus would benefit from the incorporation of the genetic resources, as provided in this study.
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    Physiological and biochemical characterization of new wild strains of Kappaphycus alvarezii (Gigartinales, Rhodophyta) cultivated under land-based hatchery conditions
    Narvarte, Bienson Ceasar V.; Hinaloc, Lourie Ann R.; Genovia, Tom Gerald T.; Gonzaga, Shienna Mae C.; Tabonda-Nabor, April Mae; Roleda, Michael Y. (Elsevier, 2022-12)
    The red alga Kappaphycus alvarezii is globally cultivated as a major source of k-carrageenan. Farming of this species through clonal propagation has been confined to a few good-quality commercial strains. After more than 50 years of successful cultivation and high productivity, the production of K. alvarezii in most “cottonii”-producing countries like the Philippines had declined in recent decades. This can be attributed to low genetic variability, making “old” cultivars more susceptible to environmental stressors, pests (epi- and endophytes) and diseases (e.g., ice-ice). Hence, the establishment of new cultivars from wild strains with desirable traits may provide alternative seedstocks with different genetic makeup from the currently farmed cultivars. Here, we examined the physiological and biochemical properties of 10 new wild strains of K. alvarezii, belonging to four non-commercially cultivated haplotypes, collected from Eastern Samar, Philippines. These strains were cultivated in an outdoor, land-based hatchery with ambient light and flow-through, nutrient replete seawater. Growth rates, ranging from 0.44 % to 3.74 % d-1, significantly varied among the strains but did not significantly vary among haplotypes. The cultivars also showed a notable change in color and morphology as they adapted to hatchery conditions. Pigments and total phenolic content did not significantly vary among cultivars. Proximate analysis showed that the dry biomass of all K. alvarezii strains was composed mainly of ash (ranging from 39.2 % to 51.0 %), followed by carbohydrate (ranging from 26.0 % to 35.3 %), and with trace amounts of proteins (ranging from 1.02 % to 4.61 %). Moreover, tissue stoichiometry (C, N and P) was comparable among the 10 strains. Considering the promising growth performance of strain SamW-014 under hatchery condition, we recommend its cultivation at sea and conduct corresponding carrageenan yield and quality analyses on its raw dried biomass. Among the 10 strains, five others are also of interest and for consideration. Thereafter, selected strain(s) will be introduced to seaweed farmers for future cultivation to increase biomass production, harvest yields, and income.
    This is contribution no. 492 from the University of the Philippines- the Marine Science Institute (UPMSI), Diliman, Quezon City. We thank the BFAR 8 Regional Director Juan D. Albaladejo, Vicenta Z. Projimo, and the staff for their hospitality in facilitating the collection of wild Kappaphycus samples in Guiuan, Eastern Samar, and the Bolinao Marine Laboratory (BML) and the Marine Biogeochemistry Laboratory of UPMSI for providing a venue to conduct hatchery and laboratory experiments. We also thank Guillermo Valenzuela and Jerry Arboleda for maintaining our cultures at the BML hatchery. MYR acknowledges the Philippines Department of Science and Technology (DOST) Balik Scientist Program (BSP) fellowship.