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Stock Assessment of Arius maculatus (Thurnberg, 1792) (Ariidae, Siluriformes) in Panguil Bay, Northwestern Mindanao (2021)

Jumawan, Celestina Q. ; Metillo, Ephrime B. ; Mutia, Maria Theresa M.

In: nday2jum@yahoo.com | http://aquaticcommons.org/id/eprint/27091 | 25026 | 2020-08-06 01:45:23 | 27091 | National Fisheries Research and Development Institute, Philippines

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Publication Date: 2021-07-24

Description: Arius maculatus, commonly known as spotted catfish and locally known as Tambangongo, has a great potential as an aquaculture species, but there is very limited information known for the stocks in Panguil Bay. This study aimed to assess the wild stocks of A. maculatus, and make an inventory of the fishing boat and gears in two stations in Panguil Bay, namely: Tangub, Misamis Occidental and Baroy, Lanao del Norte. Length frequencies were analyzed to provide estimates of growth, mortality, exploitation ratio, and recruitment pulse of A. maculatus in the bay. A total of 589 boats (324 motorized boats and 265 non-motorized boats) were recorded from the sites. There were 473 units of 15 types of fishing gear used in the sites and 6 types of these were only used in catching A. maculatus. A total of 3,259 specimens were collected for 12 months from the sites. The aquatic habitat of A. maculatus from the two sites was characterized by a pH range of 7.9-8.1, temperature of 28.5-29.1°C, salinity of 13.31-15.9 ppt, dissolved oxygen levels of 4.0-5.41 ppm, and total suspended solid values of 0.1-0.6 g/L. Reproductive biology analysis indicates that eggs start to mature from October to December, then spawning starts from January to March, and the fish fry recruitment starts in April and May. A. maculatus can grow up to 98.95 cm with an asymptotic length of 98.86 cm (K value = 0.35) equivalent to asymptotic weigth of 8,750 g. Mortality Z = 0.99, with natural mortality M = 0.67 and fishing mortality F = 0.33. This study revealed that A. maculatus in Panguil Bay is not over-exploited since the exploitation rate (E = 0.33) is minimal and large individuals can still be collected from the field.

Description: National Fisheries Research and Development Institute

Keywords: Conservation ; Fisheries ; Management ; Planning ; Policies ; fisheries assessment ; life history ; Panguil Bay ; spotted catfish ; brackishwater

Repository Name: AquaDocs

Type: article , TRUE

Format: application/pdf

Format: 40-53

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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: application/pdf

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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Effect of Nutrient Over-enrichment on Spatiotemporal Variability of Phytoplankton in Manila Bay, Philippines (2021)

Vergara, James Dominic D. ; Jose, Ellaine C. ; Borja, Valeriano M. ; [et al.]

In: http://aquaticcommons.org/id/eprint/26979 | 25026 | 2020-03-04 06:12:52 | 26979 | National Fisheries Research and Development Institute, Philippines

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Publication Date: 2021-07-24

Description: To understand Manila Bay’s current condition, physicochemical parameters were correlated with net phytoplankton composition from 2012 to 2015. Nitrate concentrations reached 24.18 µM, which is above the critical value (5 µM) recommended by the Philippine Department of Environment and Natural Resources and ASEAN. Hypoxia has been observed with dissolved oxygen levels as low as 1.47 mg L-1. Phytoplankton composition varies but dominated by Chaetoceros curvisetus, Skeletonema costatum, Thalassiosira sp., and Thalassionema nitzchiodes. Phytoplankton densities also vary between seasons but mostly concentrated in stations near the tributaries and urban areas. Trends in both phytoplankton and physicochemical properties suggest that the ecosystem of the bay is highly dependent on rainfall. Shannon-Wiener diversity index does not go higher than 2.46 and based on monthly averages, the bay can be categorized as moderately heavy to heavy polluted. A watershed system approach is urgently needed since found heavy eutrophication generally occurs in estuaries near urban and industrial areas.

Keywords: Ecology ; Environment ; Fisheries ; eutrophication ; Manila Bay ; hypoxia ; watershed ; nutrients

Repository Name: AquaDocs

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Format: application/pdf

Format: 140-165

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