IOP Conference Series: Earth and Environmental Science, vol: 116,1 (2018)

Impact of Monsoon to Aquatic Productivity and Fish Landing at Pesawaran Regency Waters

Kunarso, Zainuri M., Ario R., Munandar B., Prayogi H.

Abstract

Monsoon variability influences the productivity processes in the ocean and has different responses in each waters. Furthermore, variability of marine productivity affects to the fisheries resources fluctuation. This research has conducted using descriptive method to investigate the consequences of monsoon variability to aquatic productivity, sea surface temperature (SST), fish catches, and fish season periods at Pesawaran Regency waters, Lampung. Variability of aquatic productivity was determined based on chlorophyll-A indicator from MODIS satellite images. Monsoon variability was governed based on wind parameters and fish catches from fish landing data of Pesawaran fish market. The result showed that monsoon variability had affected to aquatic productivity, SST, and fish catches at Pesawaran Regency waters. Maximum wind speed and lowest SST occurred twice in a year, December to March and August to October, which the peaks were on January (2.55 m/s of wind speed and 29.66 C of SST) and September (2.44 m/s of wind speed and 29.06 C of SST). Also, Maximum aquatic productivity happened on January to March and July to September, which it was arisen simultaneously with maximum wind speed and the peaks was 0.74 mg/m3 and 0.78 mg/m3, on February and August respectively. The data showed that fish catches decreased along with strong wind speed and low SST. However, when weak wind speed and high SST occurred, fish catches increased. The correlation between Catch per Unit Effort (CPUE) with SST, wind speed, and chlorophyll-A was at value 0.76,-0.67, and-0.70, respectively. The high rate fish catches in Pesawaran emerged on March-May and September-December. © Published under licence by IOP Publishing Ltd.

Keyword: aquatic productivity; fisheries resources; Monsoon variability; Pesawaran Regency; sea surface temperature

DOI

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