Daytime and Nighttime Sea Surface Temperature (SST) along with Diurnal Variability (D-SST) in the Northern Bay of BengalA Remote Sensing Approach

  1. Md Shahin Hossain Shuva 1
  2. Md Rony Golder 2
  3. Muhammad Abdur Rouf 2
  4. Mohammad Muslem Uddin 3
  5. Joyanta Bir 2
  1. 1 University of Chittagon
  2. 2 Khulna University
    info

    Khulna University

    Khulna, Bangladesh

    ROR https://ror.org/05pny7s12

  3. 3 University of Chittagong
    info

    University of Chittagong

    Chittagong, Bangladesh

    ROR https://ror.org/01173vs27

Aldizkaria:
Thalassas: An international journal of marine sciences

ISSN: 0212-5919

Argitalpen urtea: 2022

Alea: 38

Zenbakia: 1

Orrialdeak: 697-708

Mota: Artikulua

Beste argitalpen batzuk: Thalassas: An international journal of marine sciences

Laburpena

This study examined daytime and nighttime sea surface temperature (SST) and its diurnal variability (D-SST) in three regions of the northern Bay of Bengal (BoB) during 2000–2019 by using MODIS Terra satellite data. An increasing trend of SST was observed in the Bangladesh coast, outer coast, and ofshore. The trend was ranged around 0.10–0.16 °C per decade during daytime and 0.18–0.27 °C per decade during nighttime. The increased SST in the study area may be attributed due to rapid industrialization and global warming. Monthly SST represented four successive phases, such as warming-cooling and warming-cooling, which started in February. Month wise SST concentrations varied from 29.74 °C to 23.32 °C during nighttime and 29.613 °C to 23.446 °C during daytime in the northern BoB. The comparative SST among three diferent stations showed that annual ofshore SST was higher during daytime and lower during nighttime than the outer & Bangladesh coast. Annual daytime maximum and minimum SST were observed at 28.45 °C and 27.27 °C, respectively. During the nighttime, it was ranged from 28.33 °C to 27.05 °C. The presence of nearby landmass may be the factor behind the variation of SST during day and nighttime. About 65–80% of monthly D-SST and 70–80% of annual D-SST value was recorded below 0.3 °C in our study area. A signifcantly (p<0.001) moderate correlation (r=0.54) was found between the MODIS Terra satellite data and NODC in-situ data.

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