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1860796985761595392
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INTELEK Repository
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| collection |
Online Access
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https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072
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| date |
2024-10-04 15:42
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| format |
Restricted Document
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| id |
10936
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UniSZA
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[1] A. Ahmad and S. Quegan, Multitemporal Cloud Detection and Masking Using MODIS Data, Applied Mathematical Sciences, 8(7) (2014), 345 – 353. [2] B.J. Lipa, D.E. Barrick, J. Bourg and B.B. Nyden, HF radar detection of tsunamis, Journal of Oceanography, 62(5) (2006), 705 – 716. [3] J. Chen, C. Yi, W. Quan and Z. Wen, Systematic underestimation of MODIS global chlorophyll-a concentration estimation algorithm associating with scale effect, IEEE Sensors Journal, 13(5) (2013), 1656 – 1661. [4] J.T.O. Kirk, Light and photosynthesis in aquatic ecosystems, Cambridge university press, 1994. [5] Morel and B. Gentili, A simple band ratio technique to quantify the colored dissolved and detrital organic material from ocean color remotely sensed data, Remote Sensing of Environment, 113(5) (2009), 998 – 1011. [6] R.L. Miller and B.A. McKee, Using MODIS Terra 250 m imagery to map concentrations of total suspended matter in coastal waters, Remote sensing of Environment, 93(1) (2004), 259 – 266. [7] S. Shang, Z. Lee and G. Wei, Characterization of MODIS-derived euphotic zone depth: results for the China Sea, Remote Sensing of Environment, 115(1) (2011), 180 – 186. [8] S. Weeks, P.J. Werdell, B. Schaffelke, M. Canto, Z. Lee, J.G Wilding and G.C. Feldman, Satellite-derived photic depth on the great barrier reef: spatiotemporal patterns of water clarity, Remote Sensing, 4(12) (2012), 3781 – 3795. [9] Z. Lee, A. Weidemann, J. Kindle, R. Arnone, K.L. Carder and C. Davis, Euphotic zone depth: Its derivation and implication to ocean‐color remote sensing, Journal of Geophysical Research, 112(C03009) (2007), 1 – 11.
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5081-01-FH02-FIK-14-00734.jpg
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oai_dc
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https://intelek.unisza.edu.my/intelek/pages/view.php?ref=10936
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10936 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=10936 https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 Restricted Document Article Journal image/jpeg inches 96 96 628 1340 2024-10-04 15:42 1340x628 5081-01-FH02-FIK-14-00734.jpg UniSZA Private Access Euphotic Depth Zone Variation In Peninsular Malaysia Maritime Applied Mathematical Sciences This study is conducted in Peninsular Malaysia maritime to investigate the euphotic zone depth (Zeu) variation and the possible suspended matter that may contribute to the variation. The Zeu data were acquired from the MODIS Aqua satellite from November 2002 to September 2013. The result shows that the Zeu along the Malaysia maritime are highly seasonal-dependent. The lowest Zeu values are observed during the northeast monsoon season (NEMS) in the east coast Peninsular Malaysia and during the southwest monsoon season (SWMS) for the west coast area. Chlorophylla (Chl-a) and colored dissolved organic matter (CDOM) are found to be the contributing factors for the coastal line and open water area. While, sediment only contributes to the area located along the coastal line where lower Zeu values are observed. 8 65 3375-3383 [1] A. Ahmad and S. Quegan, Multitemporal Cloud Detection and Masking Using MODIS Data, Applied Mathematical Sciences, 8(7) (2014), 345 – 353. [2] B.J. Lipa, D.E. Barrick, J. Bourg and B.B. Nyden, HF radar detection of tsunamis, Journal of Oceanography, 62(5) (2006), 705 – 716. [3] J. Chen, C. Yi, W. Quan and Z. Wen, Systematic underestimation of MODIS global chlorophyll-a concentration estimation algorithm associating with scale effect, IEEE Sensors Journal, 13(5) (2013), 1656 – 1661. [4] J.T.O. Kirk, Light and photosynthesis in aquatic ecosystems, Cambridge university press, 1994. [5] Morel and B. Gentili, A simple band ratio technique to quantify the colored dissolved and detrital organic material from ocean color remotely sensed data, Remote Sensing of Environment, 113(5) (2009), 998 – 1011. [6] R.L. Miller and B.A. McKee, Using MODIS Terra 250 m imagery to map concentrations of total suspended matter in coastal waters, Remote sensing of Environment, 93(1) (2004), 259 – 266. [7] S. Shang, Z. Lee and G. Wei, Characterization of MODIS-derived euphotic zone depth: results for the China Sea, Remote Sensing of Environment, 115(1) (2011), 180 – 186. [8] S. Weeks, P.J. Werdell, B. Schaffelke, M. Canto, Z. Lee, J.G Wilding and G.C. Feldman, Satellite-derived photic depth on the great barrier reef: spatiotemporal patterns of water clarity, Remote Sensing, 4(12) (2012), 3781 – 3795. [9] Z. Lee, A. Weidemann, J. Kindle, R. Arnone, K.L. Carder and C. Davis, Euphotic zone depth: Its derivation and implication to ocean‐color remote sensing, Journal of Geophysical Research, 112(C03009) (2007), 1 – 11.
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| spellingShingle |
Euphotic Depth Zone Variation In Peninsular Malaysia Maritime
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| summary |
This study is conducted in Peninsular Malaysia maritime to investigate the euphotic zone depth (Zeu) variation and the possible suspended matter that may contribute to the variation. The Zeu data were acquired from the MODIS Aqua satellite from November 2002 to September 2013. The result shows that the Zeu along the Malaysia maritime are highly seasonal-dependent. The lowest Zeu values are observed during the northeast monsoon season (NEMS) in the east coast Peninsular Malaysia and during the southwest monsoon season (SWMS) for the west coast area. Chlorophylla (Chl-a) and colored dissolved organic matter (CDOM) are found to be the contributing factors for the coastal line and open water area. While, sediment only contributes to the area located along the coastal line where lower Zeu values are observed.
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| title |
Euphotic Depth Zone Variation In Peninsular Malaysia Maritime
|
| title_full |
Euphotic Depth Zone Variation In Peninsular Malaysia Maritime
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| title_fullStr |
Euphotic Depth Zone Variation In Peninsular Malaysia Maritime
|
| title_full_unstemmed |
Euphotic Depth Zone Variation In Peninsular Malaysia Maritime
|
| title_short |
Euphotic Depth Zone Variation In Peninsular Malaysia Maritime
|
| title_sort |
euphotic depth zone variation in peninsular malaysia maritime
|