This study was conducted to investigate the algicidal characteristics of cashew nut oil (CNO) and to develop CNO mixtures with other compounds having synergistic effects on the growth inhibition against a blue-green alga, Microcystis aeruginosa. Among tested CNOs, CNO with higher anacardic acid contents (Ana-A) exhibited the best algicidal activity against M. aeruginosa. Ana-A showed broad algicidal spectrum with particular greater activity against blue-green algae than green algae.
Ana-A showed the greatest activity against to Oscillatoria tenuis (IC50= 0.19 μg mL−1) among the tested blue-green algae and to Chlorella vulgaris (IC50= 4.54 μg mL−1) among the tested green algae, respectively. In a mixture experiment to evaluate a chemical interaction in M. aeruginosa control, Ana-A showed a strong synergistic effect with MSB and menadione, mild synergistic effect with citric acid, and additive effect with chryspophanol, copper sulfate and quinoclamine. Taken together, our results suggest that CNO containing higher anacardic acid can be used as an eco-friendly natural algicide for selective control of blue-green algae such as M. aeruginosa and O. tenuis through an optimization of application rate and in combination with synergists such as MSB and menadione.

본 연구에서는 캐슈넛 오일의 살조활성 특징을 파악하고, 유해조류를 보다 효과적으로 제어할 수 있는 혼합처리제를 개발하기 위하여 실시하였다. 공시된 시험 추출물중anacardic acid 함량이 상대적으로 높은 Ana-A가 남조류 M.aeruginosa에 대한 살조활성이 가장 높았다. Ana-A는 전체적으로 녹조류보다는 남조류에 대해 더 높은 살조활성을가지면서 폭넓은 살조활성스펙트럼을 보였다. Ana-A에 대한 남조류 종간 반응에 있어서는 Oscillatoria tenuis (IC50= 0.19 μg mL−1)가 가장 민감하였고, 녹조류 중에서는 Chlorella vulgaris가 상대적으로 가장 민감한 반응을 나타내었다(IC50= 4.54 μg mL−1). Ana-A와의 혼합처리를 통해 효능이 상승되는 화합물을 탐색한 결과, MSB와 menadione은 매우 강한 상승작용을, citric acid는 약간의 상승작용을, chrysophanol, copper sulfate, quinoclamine 등은 상가적 작용의 활성을 나타내었다. 종합적으로 볼 때, anacardic acid 고함유 캐슈넛오일은 처리량의 최적화와 상승작용을 가지는 MSB 또는menadione과 같은 화합물과의 혼합처리를 통해 M. aeruginosa 및 O. tenuis가 발생하는 현장의 선택적 제어를 위해 환경친화적인 살조제로서 유용하게 활용될 수 있을 것 같았다.

1 안치용, "유해 남조류의 세계적 발생현황 및 녹조제어를 위한 질소와 인-제한 전략" 한국환경생물학회 33 (33): 1-6, 2015

2 최정섭, "약용식물로부터 살조(殺藻)활성을 갖는 sesquiterpene계 화합물의 분리 및 동정" 한국잡초학회 29 (29): 121-130, 2009

3 Begum, P, "Zoosporicidal activities of anacardic acids against Aphanomyces cochlioides" 57c : 874-882, 2002

4 Haghjou, M. M, "The induction of menadione stress tolerance in the marine microalga, Dunaliella viridis, through cold pretreatment and modulation of the ascorbate and glutathione pools" 84 : 96-104, 2014

5 Muroi, H, "Synergistic effects of anacardic acids and methicillin against methicillin resistant Staphylococcus aureus" 12 (12): 583-587, 2004

6 Shobha, S. V, "Supercritical carbon dioxide and solvent extraction of the phenolic lipids of cashew nut (Anacardium occidentale) shells" 39 : 2214-2217, 1991

7 Hamad, F. B, "Potential biological applications of bio-based anacardic acids and their derivatives" 16 : 8569-8590, 2015

8 Dayan, F. E, "Natural products in crop protection" 17 (17): 4022-4034, 2009

9 Schrader, K. K, "Natural algicides for the control of cyanobacterial-related off-flavor in catfish aquaculture" 848 : 195-208, 2003

10 Ozdemir, Z, "Growth inhibition of Clavibacter michiganensis subsp. michiganensis and Pseudomonas syringae pv. tomato by olive mill wastewaters and citric acid" 91 (91): 221-224, 2009

11 Lee, H.K, "Freshwater algae occurred in paddy rice fields. VI. Ecology of suspensible green algae and soil-flakes and their chemical control" 13 (13): 96-103, 1993

12 Chelikani, R, "Enzymatic polymerization of natural anacardic acid and antibiofouling effects of polyanacardic acid coatings" 157 (157): 263-277, 2009

13 Aida, M, "Effects of five rice herbicides on the growth of two threatened aquatic ferns" 63 : 463-468, 2006

14 Choi, G. J, "Effects of chrysophanol, parietin, and nepodin of Rumex crispus on barley and cucumber powdery mildews" 23 (23): 1215-1221, 2004

15 Rea, A. I, "Cytotoxic activity of Ozoroa insignis from Zimbabwe" 74 : 732-735, 2003

16 Haider, S, "Cyanobacterial toxins: a growing environmental concern" 52 : 1-21, 2003

17 Jancula, D, "Critical review of actually available chemical compounds for prevention and management of cyanobacterial blooms" 85 : 1415-1422, 2011

18 Nusch, E. A, "Comparison of different methods for chlorophyll and phaeopigment determination" 14 : 14-36, 1980

19 Duke, S. O, "Chemicals from nature for weed management" 50 : 138-151, 2002

20 Lubi, M. C, "Cashew nut shell liquid (CNSL)-A versatile monomer for polymer synthesis" 3 : 123-153, 2000

21 Colby, S. R, "Calculating synergistic and antagonistic responses of herbicide combinations" 15 : 20-22, 1967

22 Kim, J. S, "Biological activity of L-2-azetidinecarboxylic acid, isolated from Polygonatum odoratum var. pluriflorum, against several alga" 85 : 1-6, 2006

23 Cantrell, C. L, "Bioassay-guided isolation of anti-algal constituents from Inula helenium and Limonium myrianthum" 7 : 65-75, 2007

24 Schultz, D. J, "Bioactivity of anacardic acid against Colorado potato beetle (Leptinotarsa decemlineata) larvae" 54 (54): 7522-7529, 2006

25 Muroi, H, "Bactericidal activity of anacardic acids against Streptococcus mutans and their potentiation" 41 : 1780-1783, 1993

26 Kubo, I, "Antitumor agents from the cashew (Anacardium occidentale) apple juice" 41 : 1012-1015, 1993

27 Kubo, I, "Antioxidant activity of anacardic acids" 99 : 555-562, 2006

28 Prithiviraj, B, "Antifungal activity of anacardic acid, a naturally occurring derivative of salicylic acid" 75 (75): 207-211, 1997

29 Himejima, M, "Antibacterial agents from the cashew Anacardium occidentale (Anacardiaceae) nut shell oil" 39 : 418-421, 1991

30 Young Hoon Choi, "Anti-biofouling behavior of natural unsaturated hydrocarbon phenols impregnated in PDMS matrix" 한국공업화학회 14 (14): 292-296, 2008

31 Sullivan, J. T, "Anacardic acid: molluscicide in cashew nut shell liquid" 44 (44): 175-177, 1982

32 Sin, J.-G, "A study on the water quality simulation in the midstream and downstream of Geum-river" 33 (33): 145-157, 2000