Algicidal effects of free-amine water-soluble chitosan to marine harmful algal species

Seong-Cheol Park; Changyong Choi; Gyeong-Won Jeong; Hyun-Su Lee; Sun-Ju Choi; Won-Seok Kim; Jae-Woon Nah

Journal of Industrial and Engineering Chemistry, Vol.34, 139-145, February, 2016

DOI10.1016/j.jiec.2015.11.002 Export Citation

Algicidal effects of free-amine water-soluble chitosan to marine harmful algal species

Seong-Cheol Park, Changyong Choi , Gyeong-Won Jeong, Hyun-Su Lee, Sun-Ju Choi, Won-Seok Kim, and Jae-Woon Nah^†

Department of Polymer Science and Engineering, Sunchon National University, 255 Jungang-ro, Suncheon, Jeollanam-do 57922, Republic of Korea

E-mail:

Harmful algal blooms (HABs) commonly cause significant damage to aquatic systems due to toxin production and depletion of oxygen. In this study, the low molecular weight water-soluble chitosan (LMWSC) was investigated as a new algicidal compound by first investigating the potential of LMWSC in selective combating HABs. The LMWSCs disrupted algal cell and chloroplast membranes within 1 h against HABs, leading to efflux of the intracellular components. For co-cultivation of harmful and harmless algal, LMWSC selectively kill the harmful algal. Based on these results, LMWSC is a promising novel material for harmful algal bloom control.

Keywords:Harmful algal blooms;Low molecular weight water-soluble;chitosan;Algicidal;Red tide;Marine ecologies

[References]

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Orozco J, Medlin LK, Environ. Sci. Pollut. Res. Int., 20(10), 6838 (2013)
Shen L, Xu H, Guo X, Sensors, 12(6), 7778 (2012)
Lee YJ, Choi JK, Kim EK, Youn SH, Yang EJ, Harmful Algae, 7(2), 154 (2008)
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Kim YS, Lee DS, Jeong SY, Lee WJ, Lee MS, J. Microbiol., 47(1), 9 (2009)
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Jeong H, Yim JH, Lee C, Choi SH, Park YK, Yoon SH, Hur CG, Kang HY, Kim D, Lee HH, Park KH, Park SH, Park HS, Lee HK, Oh TK, Kim JF, Nucleic Acids Res., 33(22), 7066 (2005)
Luo J, Wang Y, Tang S, Liang J, Lin W, Luo L, PLOS ONE, 8(10), e76444 (2013)
Park SC, Lee JK, Kim SW, Park Y, PLoS ONE, 6(10), e26733 (2011)
Sun XX, Han KN, Choi JK, Kim EK, Mar. Pollut. Bull., 48(9-10), 937 (2004)
Lee YS, Kim JD, Lim WA, Lee SG, J. Environ. Biol./Acad. Environ. Biol. India, 30(6), 929 (2009)
Park YT, Lee WJ, Korean J. Fish. Aquat. Sci., 31(6), 920 (1998)
Sengco MR, Anderson DM, J. Eukaryot. Microbiol., 51(2), 169 (2004)
Li L, Pan G, Environ. Sci. Technol., 47(9), 4555 (2013)
Pan G, Dai L, Li L, He L, Li H, Bi L, Gulati RD, Environ. Sci. Technol., 46(9), 5077 (2012)
Pan G, Zou H, Chen H, Yuan X, Environ. Pollut., 141(2), 206 (2006)
Nah JW, Jang MK, J. Polym. Sci. A: Polym. Chem., 40(21), 3796 (2002)
Jeffrey SW, Humphrey GF, Biochem. Physiol. Pflanz., 167, 191 (1975)
Giner JL, Zhao H, Tomas C, Phytochemistry, 69(11), 2167 (2008)
Park SC, Kim MH, Hossain MA, Shin SY, Kim Y, Stella L, Wade JD, Park Y, Hahm KS, Biochim. Biophys. Acta, 1778(1), 229 (2008)
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Lau RK, Kwok AC, Chan WK, Zhang TY, Wong JT, J. Nanosci. Nanotechnol., 7(2), 452 (2007)

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[3] Hoagland P, Jin D, Polansky LY, Kirkpatrick B, Kirkpatrick G, Fleming LE, Reich A, Watkins SM, Ullmann SG, Backer LC, Environ. Health Perspect., 117(8), 1239 (2009)

[4] Kirkpatrick B, Fleming LE, Bean JA, Nierenberg K, Backer LC, Cheng YS, Pierce R, Reich A, Naar J, Wanner A, Abraham WM, Zhou Y, Hollenbeck J, Baden DG, Harmful Algae, 10(2), 138 (2011)

[5] Bauman AG, Burt JA, Feary DA, Marguis E, Usseqlio P, Mar. Pollut. Bull., 60(11), 2117 (2010)

[6] El-Shehawy R, Gorokhova E, Fernandez-Pinas F, del Campo FFF, Water Res., 46(5), 1420 (2012)

[7] Orozco J, Medlin LK, Environ. Sci. Pollut. Res. Int., 20(10), 6838 (2013)

[8] Shen L, Xu H, Guo X, Sensors, 12(6), 7778 (2012)

[9] Lee YJ, Choi JK, Kim EK, Youn SH, Yang EJ, Harmful Algae, 7(2), 154 (2008)

[10] Sun XX, Lee YJ, Choi JK, Kim EK, Mar. Pollut. Bull., 48(9-10), 863 (2004)

[11] Kim YS, Lee DS, Jeong SY, Lee WJ, Lee MS, J. Microbiol., 47(1), 9 (2009)

[12] Mayali X, Azam F, J. Eukaryot. Microbiol., 51(2), 139 (2004)

[13] Zhang H, An X, Zhou Y, Zhang B, Zhang S, Li D, Chen Z, Li Y, Zheng W, Tian Y, Zheng T, PLOS ONE, 8(5), e63018 (2013)

[14] Zheng X, Zhang B, Zhang J, Huang L, Lin J, Li X, Zhou Y, Wang H, Yang X, Su J, Tian Y, Zheng T, Appl. Microbiol. Biotechnol., 97, 9207 (2012)

[15] Nagasaki K, Tarutani K, Yamaguchi M, Appl. Environ. Microbiol., 65(3), 898 (1999)

[16] Jeong H, Yim JH, Lee C, Choi SH, Park YK, Yoon SH, Hur CG, Kang HY, Kim D, Lee HH, Park KH, Park SH, Park HS, Lee HK, Oh TK, Kim JF, Nucleic Acids Res., 33(22), 7066 (2005)

[17] Luo J, Wang Y, Tang S, Liang J, Lin W, Luo L, PLOS ONE, 8(10), e76444 (2013)

[18] Park SC, Lee JK, Kim SW, Park Y, PLoS ONE, 6(10), e26733 (2011)

[19] Sun XX, Han KN, Choi JK, Kim EK, Mar. Pollut. Bull., 48(9-10), 937 (2004)

[20] Lee YS, Kim JD, Lim WA, Lee SG, J. Environ. Biol./Acad. Environ. Biol. India, 30(6), 929 (2009)

[21] Park YT, Lee WJ, Korean J. Fish. Aquat. Sci., 31(6), 920 (1998)

[22] Sengco MR, Anderson DM, J. Eukaryot. Microbiol., 51(2), 169 (2004)

[23] Li L, Pan G, Environ. Sci. Technol., 47(9), 4555 (2013)

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[25] Pan G, Zou H, Chen H, Yuan X, Environ. Pollut., 141(2), 206 (2006)

[26] Nah JW, Jang MK, J. Polym. Sci. A: Polym. Chem., 40(21), 3796 (2002)

[27] Jeffrey SW, Humphrey GF, Biochem. Physiol. Pflanz., 167, 191 (1975)

[28] Giner JL, Zhao H, Tomas C, Phytochemistry, 69(11), 2167 (2008)

[29] Park SC, Kim MH, Hossain MA, Shin SY, Kim Y, Stella L, Wade JD, Park Y, Hahm KS, Biochim. Biophys. Acta, 1778(1), 229 (2008)

[30] Park SC, Kim JY, Jeong C, Yoo S, Hahm KS, Park Y, Biochim. Biophys. Acta, 1808(1), 171 (2011)

[31] Lau RK, Kwok AC, Chan WK, Zhang TY, Wong JT, J. Nanosci. Nanotechnol., 7(2), 452 (2007)