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Dr. Chun-Huei Li
Marine Fisheries Division, Fisheries Research Institute, Taiwan

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0 Ecotoxicology
0 Fisheries
0 Fisheries Science
0 Heavy Metals
0 Marine Biology

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Journal article
Published: 19 May 2020 in Remote Sensing
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Basin-scale sampling for high frequency oceanic primary production (PP) is available from satellites and must achieve a strong match-up with in situ observations. This study evaluated a regionally high-resolution satellite-derived PP using a vertically generalized production model (VGPM) with in situ PP. The aim was to compare the root mean square difference (RMSD) and relative percent bias (Bias) in different water masses around Taiwan. Determined using light–dark bottle methods, the spatial distribution of VGPM derived from different Chl-a data of MODIS Aqua (PPA), MODIS Terra (PPT), and averaged MODIS Aqua and Terra (PPA&T) exhibited similar seasonal patterns with in situ PP. The three types of satellite-derived PPs were linearly correlated with in situ PPs, the coefficients of which were higher throughout the year in PPA&T (r2 = 0.61) than in PPA (r2 = 0.42) and PPT (r2 = 0.38), respectively. The seasonal RMSR and bias for the satellite-derived PPs were in the range of 0.03 to 0.09 and −0.14 to −0.39, respectively, which suggests the PPA&T produces slightly more accurate PP measurements than PPA and PPT. On the basis of environmental conditions, the subareas were further divided into China Coast water, Taiwan Strait water, Northeastern upwelling water, and Kuroshio water. The VPGM PP in the four subareas displayed similar features to Chl-a variations, with the highest PP in the China Coast water and lowest PP in the Kuroshio water. The RMSD was higher in the Kuroshio water with an almost negative bias. The PPA exhibited significant correlations with in situ PP in the subareas; however, the sampling locations were insufficient to yield significant results in the China Coast water.

ACS Style

Kuo-Wei Lan; Li-Jhih Lian; Chun-Huei Li; Po-Yuan Hsiao; Sha-Yan Cheng. Validation of a Primary Production Algorithm of Vertically Generalized Production Model Derived from Multi-Satellite Data around the Waters of Taiwan. Remote Sensing 2020, 12, 1627 .

AMA Style

Kuo-Wei Lan, Li-Jhih Lian, Chun-Huei Li, Po-Yuan Hsiao, Sha-Yan Cheng. Validation of a Primary Production Algorithm of Vertically Generalized Production Model Derived from Multi-Satellite Data around the Waters of Taiwan. Remote Sensing. 2020; 12 (10):1627.

Chicago/Turabian Style

Kuo-Wei Lan; Li-Jhih Lian; Chun-Huei Li; Po-Yuan Hsiao; Sha-Yan Cheng. 2020. "Validation of a Primary Production Algorithm of Vertically Generalized Production Model Derived from Multi-Satellite Data around the Waters of Taiwan." Remote Sensing 12, no. 10: 1627.

Journal article
Published: 01 January 2012 in Journal of Crustacean Biology
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We measured concentrations of |${\rm Ca}^{2+}$| in tissues (hemolymph, hepatopancreas, cuticle, and muscle) of the whiteleg shrimp Litopenaeus vannamei (Boone, 1931) and recorded changes in tissue calcium levels at molting stages and different salinities. Calcium in tissues varied significantly with molting stage |$(p \lt 0.05)$|⁠. Salinity also affected |${\rm Ca}^{2+}$| concentrations in tissues |$(p \lt 0.05)$|⁠. The highest |${\rm Ca}^{2+}$| concentrations were found in the cuticle, followed by the hepatopancreas. Ratios of |${\rm Ca}^{2+}/{\rm Na}^+$| in tissues (except for muscle) varied with the molting stage and were higher in |$4\ {\rm g}\ {\rm L}^{-1}$| than in other salinities. Calcium entering the shrimp may initially be mineralized in the cuticle or stored in the hemolymph and hepatopancreas, after which it is released to support mineralization in the post-molt period. Muscles may take part in the growth of L. vannamei by storing calcium during the molting cycle.

ACS Style

Chun-Huei Li; Sha-Yen Cheng. Variation of Calcium Levels in the Tissues and Hemolymph of Litopenaeus vannamei at Various Molting Stages and Salinities. Journal of Crustacean Biology 2012, 32, 101 -108.

AMA Style

Chun-Huei Li, Sha-Yen Cheng. Variation of Calcium Levels in the Tissues and Hemolymph of Litopenaeus vannamei at Various Molting Stages and Salinities. Journal of Crustacean Biology. 2012; 32 (1):101-108.

Chicago/Turabian Style

Chun-Huei Li; Sha-Yen Cheng. 2012. "Variation of Calcium Levels in the Tissues and Hemolymph of Litopenaeus vannamei at Various Molting Stages and Salinities." Journal of Crustacean Biology 32, no. 1: 101-108.