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Challenge 07: Expand the Global Ocean Observing System

Permanent URI for this collectionhttps://repository.unesco.gov.ph/handle/123456789/28

Ocean Decade


Challenge 07:
Expand the Global Ocean Observing System



Ensure a sustainable and sustained ocean observing system across all ocean basins that delivers accessible, timely and actionable data and information to all users.

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Geographic name: search.filters.geographicname.PhilippinesOcean Decade Challenge: search.filters.odc.Challenge 9: Skills, knowledge, and technology for all

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    Thecal tabulation, body scale morphology and phylogeny of Heterocapsa philippinensis sp. nov. (Peridiniales, Dinophyceae) from the Philippines
    Benico, Garry; Lum, Wai Mun; Takahashi, Kazuya; Yñiguez, Aletta T.; Iwataki, Mitsunori (Elsevier, 2021-08)
    The thecal tabulation and body scale structure of the marine armoured dinoflagellate Heterocapsa, isolated from Philippines, were examined using LM, SEM and TEM, and its phylogenetic position was inferred from ITS and LSU rDNA sequences. Cells were ovoid and the plate tabulation (Po, cp, X, 5′, 3a, 7′′, 6c, 5s, 5′′′, 2′′′′) was consistent with most Heterocapsa species. The second anterior intercalary plate (2a) had a circular pattern with a thick marginal border free of pores. The nucleus was longitudinally elongated and curved, and located at the dorsal side of the cell. Discoid lobes of brownish chloroplast were peripherally distributed, and a pyrenoid was positioned at the centre. The triradiate body scales, measuring 250–300 nm in diameter, consisted of a roundish basal plate with six radiating ridges, nine peripheral uprights/spines, and three radiating spines. These components were identical to those of H. pseudotriquetra and H. steinii, except for the roundish outline of basal plate. Molecular phylogeny showed that the species clustered with H. pseudotriquetra and H. steinii. This species was differentiated from all other Heterocapsa species in the sausage-shaped nucleus and circular pattern on the 2a plate. This study proposed a novel species Heterocapsa philippinensis sp. nov. for the isolate.
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    Fisheries Administrative Order No. 266: Series of 2020. Rules and regulations on the implementations of Vessel Monitoring Measures (VMM) and Electronic Reporting System (ERS) for commercial Philippine flagged fishing vessels amending FAO 260 Series of 2018.
    (Department of Agriculture, 2020-10-12)
    The objectives of this Order include: a. To enhance monitoring of fishing operations for fisheries management through the implementation of vessel monitoring measures. b. To enhance law enforcement to regulate the capture fisheries sector towards achieving long term resource sustainability. c. To implement vessel monitoring measures to track fishing behavior for scientific research and data. d. To establish a system that will facilitate law enforcement and aid in case building and prosecution of fisheries law violations. e. To gather data on fishing effort and catch data by means of an electronic reporting system which will serve as basis for fisheries management measures. f. To aid in the seafood traceability and catch documentary requirements of the government. g. To ensure safety for fishers thru a tracking device that would monitor the vessels' location during accidents and disasters. h. To implement policies embodied in Republic Act 8550, as amended by RA 10654 and its implementing rules and regulations, relating to the vessel monitoring requirements of fishing vessels. The Text consists of 26 Sections divided into 5 Chapters: General Provisions; lmpJementation of Vessel Monitoring Measures; Operational Requirements for Vessel Monitoring Measures; Penalties; Miscellaneous Provisions. All commercial catcher fishing vessels operating in Philippine waters and all fishing vessels in distant waters shall not engage in fishing activity without the vessel monitoring measures as established in FAO 260 and herein. The VMS shall apply to all licensed Philippine flagged commercial fishing vessels authorized by the Bureau of Fisheries and Aquatic Resources (BFAR) to operate in the high seas and those fishing vessels with access rights to fish in other countries' exclusive economic zones. All catcher vessels 30 GT and above operating either in the high seas or with access rights to fish in other coastal states and/or fishing in the Philippine EEZ shall have an installed Electronic Reporting System which can connect to the VMS transceiver to send fishery information to BFAR. For all other vessels, a combination of onboard and port ERS systems shall be implemented to electronically capture and report catch information. As a prerequisite for registration or license renewal, all commercial fishing vessels must secure a certification confirming that: a. An accredited ALC has been installed and verified as fully operational by the Department of Agriculture- Bureau of Fisheries and Aquatic Resources (DA-BFAR). b. The ALC unit deployed has been accredited and certified as meeting the minimum standards set by the DA-BFAR. The Order further make provisions for: the main center for monitoring and gathering data for the purpose of this Order; data access; vessel monitoring measures in marine protected areas; minimum data requirements; accreditation of data systems and service provider; frequency of reporting: offences and penalties; etc.
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    Asterocladon ednae sp. nov. (Asterocladales, Phaeophyceae) from the Philippines
    Sasagawa, Eriko; Santiañez, Wilfred John E.; Kogame, Kazuhiro (Wiley, 2022-06-21)
    Members of the brown algal order Asterocladales are characterized by stellate arrangement of its chloroplasts, in which a stellate configuration has a protruding central pyrenoid complex. The order is represented by the genus Asterocladon, which consists of only three species so far. Similar to other small and filamentous seaweeds, studies on Asterocladon remain scant and their diversity poorly understood. To fill this gap, we conducted molecular-assisted taxonomic studies on Asterocladon based on seven culture isolates collected from Okinawa Prefecture, Japan and Cebu, the Philippines. One culture isolate from the Philippines was revealed to be a new species of Asterocladon based on morpho-anatomical and molecular analyses using rbcL and psaA genes and is described here as Asterocladon ednae. The other isolates were attributed to A. rhodochortonoides. A. ednae was most closely related to A. rhodochortonoides in morphology and molecular phylogeny but was distinguished from the latter by its elongately ellipsoid plurilocular sporangia. This is the first report of the genus and species A. ednae in the Philippines, further increasing the diversity of seaweeds in the country.
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    Assessing the efficiency of microplastics extraction methods for tropical beach sediments and matrix preparation for experimental controls
    Bonita, Jan Danielle P.; Gomez, Norchel Corcia F.; Onda, Deo Florence L. (Frontiers Media SA, 2023-11-03)
    Introduction: Microplastic pollution has become a global issue, eliciting attention not just from the scientific community but also both from the public and governmental bodies. Drawing data-driven policies and interventions, however, remain difficult due to the severely lacking baseline information from different environments such as beaches. One of the challenges in doing baseline studies is the lack of harmonized methodologies that will allow for comparison of results, integration of data, and its effective translation to evidence-based policies. Emphasis on quality control measures among baselining efforts through the proper implementation of experimental controls is also lacking. Methodology: To address these gaps, we compared methodologies for preparing the sediment matrix for experimental controls, as well as evaluated protocols for extracting microplastics from tropical beach sediments. Beach sediments were collected, dried, sieved, and spiked with known amounts of microplastics of different polymer types. The removal and extraction efficiencies of the protocols being compared were evaluated. Results and discussion: Our results showed that subjecting beach sediments to a furnace at 550° C for 4 hours is the most efficient way to remove plastic contamination, implying its applicability for preparing experimental controls. Meanwhile, a modified version of Masura et al. (2015), one of the widely cited methodologies for microplastics extraction, exhibited the highest mean extraction efficiency (99.05 ± 0.82%) among the protocols being compared. Results of this work will be useful in identifying methods that can be adopted and utilized for research and baselining efforts not just in the Philippines but also in Southeast Asia. This will also be helpful in the harmonization of methods, data reporting, and even skills as implemented through the regional and national action plans to address marine plastic pollution.
    The authors would like to thank the members of the Microbial Oceanography Laboratory of the University of the Philippines, The Marine Science Institute, especially Mark Prudente and Kim John Balboa who provided assistance during the conduct of the experiment, and the staff and administrative personnel of the Bolinao Marine Laboratory.