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Spatio-Temporal Distribution of Ichthyoplankton in Manila Bay in Relation to Oceanographic Conditions (2021)

Tobias, Marvin L. ; Sy, Angelica Gabrielle A. ; Borja, Valeriano M. ; [et al.]

In: http://aquaticcommons.org/id/eprint/26975 | 25026 | 2020-03-05 00:55:44 | 26975 | National Fisheries Research and Development Institute, Philippines

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Publication Date: 2021-07-24

Description: Manila Bay faces serious problems today such as pollution, coastal area reclamation and infrastructure, overfishing, and other activities that worsen the present condition of the bay. It is considered as one of the major fishing grounds in the Philippines. Fish eggs and larvae collection was carried out to determine their distribution, abundance, and composition in the bay. Eight established sampling stations were placed throughout the bay with an average distance of 5-6 nautical miles apart and sampled every other month on a monsoonal basis. Bongo net (360 microns mesh size, 1.5 meters in length, and a diameter of 50-centimeter mouth opening) with attached calibrated flowmeter was used in collecting fish larvae. Physical (salinity, temperature,), chemical (nitrite, nitrate, phosphate, silicate, dissolved oxygen), and biological (phytoplankton, zooplankton) parameters were also carefully studied to be able to explain such uncommon event within the bay. In spite of the current status and worsening condition of water quality of the bay, high abundances of fish eggs and larvae were consistently observed during the northeast monsoon surveys (March) from 2012 to 2015. A total of 3,008 individuals were identified belonging to 34 fish families. The highest fish egg density was observed during March 2013 with 1,550 ind./100m3, followed by March 2012 and 2015 with 1,484 ind./100m3 and 1,182 ind./100m3, respectively. An abundance of fish larvae was observed during March 2015 with 414 ind./100m3, followed by March 2012 (329 ind./100m3), and March 2014 (311 ind./100m3). The lowest density observed was in September 2012 with a density of 132 ind/100m3 fish eggs and 46 ind/100m3 fish larvae. The results were consistent that most fish eggs aggregate in the middle part of the bay especially in Stations 4 and 2 from 2012-2015. For fish larvae, they were consistently found in the eastern part of the bay (stations 6, 8, and 7) throughout the duration of the study, it was also the areas where high concentrations of phytoplankton, zooplankton, and nutrients were observed. A high abundance of fish eggs and fish larvae was observed during northeast monsoon than southwest monsoon. In addition, fish larvae family was dominated by small pelagic fish such as sardines, slipmouths, and mullets. The most dominant fish families found were Clupeidae, followed Leiognathidae, and Nemipteridae. Sillaginidae and Mugilidae were also included in the top five abundant families that occur during every sampling period were.

Keywords: Ecology ; Environment ; Fisheries ; Oceanography ; Ichthyoplankton ; Manila Bay

Repository Name: AquaDocs

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Format: 83-93

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Spatio-Temporal Variability of Zooplankton Distribution and Abundance in Manila Bay from 2013-2015 (2021)

Jose, Ellaine C. ; Borja, Valeriano M. ; Gatdula, Norvida C. ; [et al.]

In: http://aquaticcommons.org/id/eprint/26976 | 25026 | 2020-03-05 00:58:47 | 26976 | National Fisheries Research and Development Institute, Philippines

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Publication Date: 2021-07-24

Description: The study characterized the spatiotemporal variations in composition, abundance, and diversity of zooplankton community in Manila Bay. Zooplankton samples were collected every two months within three years from 2013 to 2015. The zooplankton composition of Manila Bay includes 29, 52, and 50 taxa in 2013, 2014, and 2015, respectively belonging to the following major groups: Copepoda, Decapoda, Cladocera, Chordata, Annelida, Mollusca, Chaetognatha, Ciliophora, Foraminifera, Echinodermata, and Chromista. Copepod nauplii consistently dominated the zooplankton community in the bay from 2013 to 2015 followed by Tintinnids, Oithona spp., Euterpina acutifrons, and Paracalanus spp. The highest concentration of zooplankton was specifically observed in the south western side near the mouth of the bay (Station 4) in July 2015. In 2014, the highest recorded zooplankton density was in the month of November in the eastern side (Station 10). In general, relatively high diversities of zooplankton community were recorded in many months in 2015 as compared to 2013 and 2014 although the highest recorded diversity occurred in March 2014. Redundancy Analysis revealed salinity, temperature, dissolved oxygen, chlorophyll a, PO4, SiO, and NO3 to have a strong correlation with the zooplankton abundances and distribution.

Keywords: Aquaculture ; Ecology ; Fisheries ; Oceanography ; Zooplankton ; Diversity ; Environmental Factors ; Redundancy Analysis

Repository Name: AquaDocs

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Format: 94-105

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Preliminary Comparison of Remote Sensing-Derived Chlorophyll a Concentration and Sea Surface Temperature with the Fisheries Resources and Ecological Data in Manila Bay (2021)

Poniente, Jennifer A. ; Santos, Mudjekeewis D.

In: http://aquaticcommons.org/id/eprint/26982 | 25026 | 2020-03-05 01:23:42 | 26982 | National Fisheries Research and Development Institute, Philippines

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Publication Date: 2021-07-24

Description: Remote sensing is used to determine the chlorophyll a concentration and the sea surface temperature. Here, obtained remote-sensed chlorophyll a and sea surface temperature data from MODIS for Manila Bay from 2014 – 2015 was analyzed and initially correlated with the results from the fisheries resources and ecological assessment (this study).Chlorophyll a concentration was generally concentrated on the eastern part of the bay all throughout 2014. Sea surface temperature was observed to be high during May, July, August, and October 2014. During the first quarter of 2015, a high concentration of chlorophyll a was generally concentrated on the eastern and southwestern part of the bay, while sea surface temperature was high and almost uniform except in the southern side of the bay. The second quarter of 2015 showed that the chlorophyll a is still concentrated in the eastern side of the bay, while the highest sea surface temperature was observed during May reaching more than 30 °C. Comparative analysis indicated that there is a correlation between remote sensing and actual chlorophyll a data vis-à-vis egg and larval aggregations. Further studies are warranted.

Keywords: Ecology ; Fisheries ; Oceanography ; Manila bay ; chlorophyll a ; sea surface temperature ; remote sensing

Repository Name: AquaDocs

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Format: 183-191

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Spatio-Temporal Variability of Hypoxia and Eutrophication in Manila Bay During the Northeast and Southwest Monsoons from 2012 to 2015 (2021)

Sy, Angelica Gabrielle A. ; Tobias, Marvin L. ; Borja, Valeriano M. ; [et al.]

In: http://aquaticcommons.org/id/eprint/26981 | 25026 | 2020-03-05 01:09:49 | 26981 | National Fisheries Research and Development Institute, Philippines

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Publication Date: 2021-07-24

Description: Manila Bay is a major source of livelihood for the fishermen living around the area. The occurrence of hypoxia, a state where dissolved oxygen (DO) is not enough to support marine life, poses a serious threat to the bay and consequently to its fisheries sector. This study documents the variation of hypoxia throughout the bay for a sampling period of four years, from January 2012 to November 2015, with a monthly interval each survey. A total of 24 field surveys on 16 designated sampling stations, at varying depths, were conducted. Results show that hypoxia was present all year round but was more severe during the wet season (July, September, November) compared to the dry season. The averages of bay-wide DO concentration ranged from 3.42 to 7.63mg/l during the 4-year survey. Low DO concentrations were associated with high concentrations of nutrients, particularly nitrate. Nitrate spiked to a 44.6 µM concentration while bay-wide DO concentration dropped to as low as 0.01 mg/l in the wet season. An occurrence of hypoxia along the coasts, transitioning from western, northern and eastern areas, was observed as a common trend for all surveys. However, DO concentrations in areas near the coast, in depths around 5m to 15m, and in the deeper areas near the mouth of the bay, from around 10m to 35m depths were noted to be lower. In conclusion, hypoxia has been occurring year-round in Manila Bay with varying intensity but more prominent during the wet season.

Keywords: Ecology ; Environment ; Fisheries ; Oceanography ; Manila bay ; hypoxia ; eutrophication ; dissolved oxygen

Repository Name: AquaDocs

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Format: 166-181

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