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Challenge 06: Increase community resilience to ocean hazards

Permanent URI for this collectionhttps://repository.unesco.gov.ph/handle/123456789/25

Ocean Decade


Challenge 06:
Increase community resilience to ocean hazards



Enhance multi-hazard early warning services for all geophysical, ecological, biological, weather, climate and anthropogenic related ocean and coastal hazards, and mainstream community preparedness and resilience.

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Ocean Decade Challenge: search.filters.odc.Challenge 9: Skills, knowledge, and technology for all

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    Elevated seawater temperatures affect embryonic and larval development in the giant clam Tridacna gigas (Cardiidae: Tridacninae)
    Enricuso, Odette B.; Conaco, Cecilia; Sayco, Sherry Lyn G.; Neo, Mei Lin; Cabaitan, Patrick (Oxford Academic, 2018-11-17)
    Giant clams are the largest bivalve molluscs and play a key role in coral reef ecosystems. Almost all species are considered endangered or vulnerable to extinction, thus requiring intervention through culturing and restocking. Although successful culture techniques have been developed, the responses of giant clam embryos and larvae to environmental factors, such as seawater temperature, are not yet fully understood. In this study, fertilization, development and survival of Tridacna gigas larvae were observed at low (28 °C), medium (30 °C) and high (33 °C) seawater temperatures. Fertilization success was not significantly different between the water temperatures tested. At 28 °C, ciliated gastrulae appeared first at 12 h postfertilization (hpf) and trochophore larvae at 24 hpf. In contrast, more rapid development was observed at 30 °C and 33 °C, with ciliated gastrulae first appearing at 9 hpf and trochophore larvae at 18 hpf. Veliger larvae were observed after 48 h at 28 °C and 30 °C. No veligers were observed at 33 °C, but a greater proportion of embryos and larvae exhibited developmental abnormalities at this temperature compared with the other treatments. Larval survival was lowest at 33 °C at the 12 and 24 h timepoints, although there was no longer a significant difference across treatments after 48 h. Furthermore, post-settlement survival of juveniles subjected to different seawater temperatures for 22 d starting at 8 d postfertilization (dpf) was lowest at 33 °C. These findings reveal that higher water temperatures promote rapid progression through early development, but result in lower overall survival as a consequence of abnormal development and reduced post-settlement survival.
    The authors acknowledge Julio Curiano and the staff of the Bolinao Marine Laboratory for assistance with experiments. This work was supported in part by the University of the Philippines Marine Science Institute; a grant from the National Geographic Society (ASIA-08-15) to PCC; a grant from the Department of Science and Technology Philippine Council for Agriculture, Aquatic and Natural Resources Research and Development (QMSR-MRRD-MEC-295-1449) to PCC and CC; and a Department of Science and Technology Science Education Institute graduate scholarship to OBE. MLN acknowledges the support of the National Research Foundation Singapore for research at the St John’s Island National Marine Laboratory.
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    Status of maritime education in the Philippines
    Alcala, Angel C. (Philippine Council for Aquatic and Marine Research and Development (PCAMRD), 2002)
    The problems and issues of maritime education in the Philippines and the responses of CHED to these problems and issues are discussed. It is important that the quality of the academic and skills training of our seafarers be improved to meet the world’s standards in order to maintain our competitive edge in the global market and to ensure that the Philippines is included in the International Maritime Organization’s "white list”. CHED has formulated strategies, policies and standards toward this end.
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    Improvement and technology transfer of the Parañaque-type solar salt making technology for industrial salt production
    Dominguez, Leonora G. (Philippine Council for Aquatic and Marine Research and Development, 2002)
    A study on the improvement of the Parahaque type solar salt making technology was undertaken to develop and establish a practical, inexpensive and effective method of producing high quality salt. As an initial step, a survey was conducted by the Chemical Research Department (now CMD) of NIST (now ITDI) on the prevailing practices and status of the existing solar salt making technology in Metro Manila and nearby provinces. Interviews with salt workers and salt work owners including local officials were conducted. Assessments of local saltworks and salt making practices were made; problems of the industry were identified and areas for technology innovation and/or improvement were determined. Samples of solar salt products were taken for analysis. Recommendations were made and subsequently appropriate actions were taken to help promote the improvement and development of the local solar salt making industry. For two successive salt making seasons, a team of NIST researchers introduced and applied the scientific method for solar salt making in a typical one-hectare saltwork located in Bacoor, Cavite. Appropriate brine management and process control measures were devised and eventually practical experience was acquired. Data were gathered for assessment. The salt products as analyzed meet the specifications for industrial grade salt. Encouraged by the results obtained from the two demonstration saltworks, the improved solar salt making technology was subsequently applied during three successive salt making seasons in five privately owned saltworks as a technology transfer and joint R&D undertaking. This application of the ITDI technology was done side by side with the traditional salt making process of the respective saltworks. Production data gathered from both technologies were compared; representative samples of both crude and ITDI salt products were analyzed and the quality compared. The Parañaque type solar salt making technology can be improved to produce industrial grade salt through the application of the ITDI improved method. As shown from the results of the experiments which were done in comparison with the traditional method on a one to one crystallizer basis, the salt yield can be more than doubled; and since the product is of high quality and meets the requirements for industrial salt, its selling price can be 3 to 4 times higher compared to the traditional crude solar salt product. Consequently, the income that can be derived using the ITDI improved technology can possibly be increased by 6 to 8 times.
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    The Philippine shipbuilding and ship repair industry situation report 1997
    Maritime Industry Authority (Philippine Council for Aquatic and Marine Research and Development, 2002)
    This report presents a comprehensive overview of the Philippine shipbuilding and ship repair (SBSR) industry as of 1997, prepared by the Maritime Industry Authority (MARINA). As an archipelagic nation dependent on maritime transport for 95% of its cargo and passenger movement, the Philippines requires a strong SBSR sector to support its domestic and international fleet. The report details the industry’s profile, including 253 licensed enterprises with facilities concentrated in Luzon, Visayas, and Mindanao, and a workforce of nearly 35,000 skilled and technical personnel. It highlights the dominance of foreign-assisted large shipyards, the rise of ship construction for both domestic use and export, and the central role of ship repair activities due to regulatory requirements and regional demand. Issues such as low local demand for newbuildings, reliance on imported secondhand ships, inadequate ancillary industries, outdated facilities, and manpower challenges are discussed. Government policies, investment incentives, and private sector initiatives are outlined to address these constraints. Finally, the report emphasizes growth prospects in shipbuilding, repair, and shipbreaking, underscoring the industry’s potential to achieve international competitiveness through modernization, foreign partnerships, and research and development.
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    The mapping of storm surge-prone areas and characterizing surge-producing cyclones in Leyte Gulf, Philippines
    Rodrigo, Soccoro Margarita T.; Villanoy, Cesar L.; Briones, Jeric C.; Bilgera, Princess Hope T.; Cabrera, Olivia C.; Narisma, Gemma Teresa T. (Springer Nature Link, 2018-03-15)
    Historically, Leyte Gulf in central eastern Philippines has received catastrophic damage due to storm surges, the most recent of which was during Typhoon Haiyan in 2013. A city-level risk assessment was performed on Leyte Gulf through synthetic storm generation, high-resolution ocean modeling, and decision tree analyses. Cyclones were generated through a combination of a Poisson point process and Monte Carlo simulations. Wind and pressure fields generated from the cyclones were used in a storm surge model of Leyte Gulf developed on Delft3D. The output of these simulations was a synthetic record of extreme sea level events, which were used to estimate maximum surge heights for different return periods and to characterize surge-producing storm characteristics using decision tree analyses. The results showed that the area most prone to surges is the Tacloban–Basey area with a 2.8 ± 0.3 m surge occurring at a frequency of every 50 years. Nearby Palo area will likely receive a surge of 1.9 ± 0.4 m every 50 years while Giporlos–Salcedo area a surge of 1.0 ± 0.1 m. The decision tree analysis performed for each of these areas showed that for surges of 3–4 m, high-velocity winds (> 30 m/s) are consistently the main determining factor. For the areas, Tacloban, Basey, and Giporlos–Salcedo, wind speed was also the main determining factor for surge > 4 m.
    Funding was provided by the Philippine Council for Agriculture, Aquatic, and Natural Resources Research and Development, Department of Science and Technology (DOST-PCAARRD). We thank the reviewers for their helpful comments and suggestions.
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    Geomorphological and sedimentological records of recent storms on a volcaniclastic coast in Bicol, Philippines
    Soria, Janneli Lea A.; Switzer, Adam D.; Pile, Jeremy; Siringan, Fernando P.; Brill, Dominik; Daag, Arturo (Elsevier, 2021-08-01)
    Typhoon Durian in November 2006 was most notable for a series of devastating lahars that buried communities at the base of Mayon volcano in Bicol, Philippines. Typhoon Durian delivered extreme rainfall that remobilized volcanic debris that caused more than ~1200 deaths and extensive property damage. Although not as deadly as the lahar, Typhoon Durian also generated a storm surge that caused localized dune breaching on Malinao barrier sand spit in Lagonoy Gulf. In the absence of instrumental data of the storm surge, we used the geomorphical and sedimentary imprints including erosion scarps, washover fans and terraces to infer the inundation heights on the barrier spit. The surface elevations of washover fans, terraces and relic dunes indicate inundation heights above 1.5 m but not exceeding 3 m. Typhoon Durian's overwash deposit is characterized by typical washover fan stratigraphy, and exhibits horizontal to sub-horizontal lamination on the front to mid-fan and foreset stratification near the fan terminus. Subsurface stratigraphy using shore-normal ground penetrating radar (GPR) imaging reveals at least two buried erosional surfaces farther inland from the erosional surface of Typhoon Durian. Similar to Durian, the older erosional surfaces were probably sustained from previous typhoons. We infer that episodic erosional events most likely have repeatedly disrupted the prograding development of the Malinao barrier spit. Typhoon Durian highlights the exposure of volcanic landscapes to multiple hazards from cyclone landfall.
    This work comprises Earth Observatory of Singapore contribution no. 169. This research is supported by the Singapore National Research Foundation fellowship scheme (Grant No: NRF-RF2010-04) and the Singapore Ministry of Education under the Research Centres of Excellence initiative. This paper is a contribution to IGCP Project 639 Sea-Level Changes from Minutes to Millennia. We thank German Gonzaga of the Malinao Local Government Unit who facilitated our access to the study site. We also appreciate Cabria family for being our hospitable host during the series of field campaigns. We thank Mr. Raul Capistrano on behalf of NAMRIA for providing tide gauge data, and the Mines and Geosciences Bureau for granting us permit to transport sediments. We are grateful to Joan Reotita, Ronald Lloren, Yo Muan, Lester Valle, Arlene Tengonciang, Mabelline Cahulogan, Ariel Malonda, Antonio Ceres and Elmer Cas for their generous help in collecting field data.
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    Seafloor structures and static stress changes associated with two recent earthquakes in offshore southern Batangas, Philippines
    Sarmiento, Keanu Jershon S.; Aurelio, Mario A.; Flores, Paul Caesar M.; Carrillo, Anne Drew V.; Marfito, Bryan J.; Abigania, Maria Isabel T.; Daag, Arturo S.; Siringan, Fernando P. (Frontiers Media SA, 2022-02-02)
    The 1994 Mw 7.1 Mindoro Earthquake and the 2017 Mw 5.9 Batangas Earthquake Sequence both occurred in offshore southern Batangas and devastated southern Luzon and Mindoro. These earthquakes exhibited NW-striking right-lateral slip in an area presumably defined by a WNW-striking left-lateral fault, therefore implying the existence of previously unmapped offshore faults. High resolution multibeam bathymetry grid and subbottom profiles revealed a conjugate strike-slip fault system under an approximately EW-directed extension. NW-striking right-lateral faults (F1 Faults: Central Mindoro Fault, Aglubang River Fault, and Batangas Bay Fault System) bound the western part of the study area. On the other hand, a series of almost parallel NE-trending left-lateral and normal faults (F2 Faults: Macolod Corridor, North Verde Fault System, Central Verde Fault System, South Verde Fault, and Northeast Mindoro Fault System) approach the F1 faults from the northeast. The distribution of the 1994 and 2017 earthquakes suggests that the possible rupture areas for these events are the Aglubang River Fault and the southwest Batangas Bay Fault System, respectively. These two traces appear to be connected and a restraining bend is suggested to have acted as a rupture barrier between the two events. Coulomb stress transfer modeling showed that the 1994 earthquake promoted the failure of the 2017 earthquake. Furthermore, results from the stress transfer models showed stress increase on the F1 faults (Batangas Bay Fault System and Central Mindoro Fault) and the northern F2 faults (North Verde Fault System and Central Verde Fault System). The newly recognized faults redefine the knowledge of the neotectonic structure of the area but are still consistent with the ongoing east-west extension in southern Luzon and the overall extension in northern Central Philippines. These faults pose seismic hazards, and more studies are needed to determine their seismogenic potential.
    The authors would like to thank the National Mapping and Resource Information Authority (NAMRIA) for generously providing the multibeam bathymetry data and the Department of Science and Technology - Philippine Institute of Volcanology and Seismology for providing the earthquake catalog. The research party and the ship crew of M/Y Panata of the University of the Philippines Marine Science Institute is also thanked for their assistance in data collection during the research cruise in Verde Island Passage last July 2019. The authors are very much grateful to editor GR and reviewers YL and WF for providing valuable comments that greatly improved this manuscript. Topography data is from JAXA ALOS World 3D–30 m (AW3D30) DEM (https://www.eorc.jaxa.jp/ALOS/en/aw3d30/index.htm) while global bathymetry is from the GEBCO_2020 grid (https://www.gebco.net/data_and_products/gridded_bathymetry_data/). Focal mechanism solutions were obtained from Harvard GCMT (https://www.globalcmt.org/).
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    Genomics and metabolomics-based assessment of the biosynthetic potential of the sponge-associated microorganism Streptomyces cacaoi strain R2A-843A from the Philippines
    Malto, Zabrina Bernice L.; Reyes, Joeriggo M.; Lo, Bernard Isaiah; Davis, Kevin Bossie S.; Concepcion, Gisela; Salvador-Reyes, Lilibeth A. (Philippine-American Academy of Science and Engineering, 2023-10-20)
    The biosynthetic machinery of the sponge-associated Streptomyces cacaoi strain R2A-843A was assessed using a combined genomics and metabolomics approach. Whole genome sequencing and molecular networking showed the high biosynthetic potential of this actinomycete. A significant proportion of the genome is dedicated to secondary metabolite production, with biosynthetic gene clusters for nonribosomal peptides, polyketides, and terpenes being the most represented. Seven cyclic pentapeptides, including a putative new analogue, and a glycosylated lanthipeptide were identified using HRMS and untargeted MS/MS analysis. To validate our genome and metabolome analysis, we undertook a mass spectrometry-guided purification and confirmed the production of the known peptides BE-18257A (1) and BE-18257B (2). The production of 1 and 2 and the growth of the microorganism were monitored for eight days. Compound 2 was produced at a higher concentration, starting at 48 h post-incubation. Both compounds were noncytotoxic against colorectal and breast cancer cell lines.
    The authors acknowledge funding support from the Department of Science and Technology - Philippine Council for Health Research and Development through the Discovery and Development of Health Products - Marine Component Program. Genome sequencing was made possible through the CHEDPCARI IHITM63 Project. We thank Ms. Shalice R. SusanaGuevarra for conducting the bioactivity assay. This work was done under the supervision of the Bureau of Fisheries and Aquatic Resources under Gratuitous Permit No. FBP-0035-10. This is MSI Contribution No. 501.
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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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    Total synthesis and bioactivity evaluation of hydrophobic microcionamide‐inspired peptides
    Inocentes, Carl Rogel V.; Salvador‐Reyes, Lilibeth A.; Villaraza, Aaron Joseph L. (Wiley, 2023-01)
    In this report, we describe the facile synthesis of four microcionamide-inspired peptides where the atypical 2-phenylethylenamine (2-PEA) functional group in the marine natural product, microcionamide A, was replaced with a similarly-aromatic but more easily incorporated tryptophan (Trp) residue. Compounds 1–4 were synthesized using a standard Fmoc-based solid-phase synthesis strategy followed by iodine-mediated on-resin cyclization for disulfide-bridged compounds 1–3. Compound 1 showed antimicrobial activity against Staphylococcus aureus and Pseudomonas aeruginosa, with minimum inhibitory concentrations (MICs) of 9.1 μM and 15 μM, respectively. The inactivity of alanine analogs 2–4 against these pathogens suggests that the N-terminal Val, the cyclic scaffold, the contiguous Ile residues, and consequently, the hydrophobicity of compound 1 are essential for antibacterial activity. Compound 1 also favorably exhibited minimal cytotoxicity against normal mammalian cell lines. In summary, we have synthesized an analog of microcionamide A where replacement of the 2-PEA moiety with a Trp residue retained the antibacterial activity and with favorably low cytotoxicity.