[1] Rana, M.S., Tyagi, A., Hossain, S.A., and Tyagi, A.K., 2012, Effect of tanniniferous Terminalia chebula extract on rumen biohydrogenation, Δ⁹-desaturase activity, CLA content and fatty acid composition in Longissimus dorsi muscle of kids, Meat Sci., 90 (3), 558–563.

[2] Bendary, E., Francis, R.R., Ali, H.M.G., Sarwat, M.I., and El Hady, S., 2013, Antioxidant and structure-activity relationships (SARs) of some phenolic and anilines compounds, Ann. Agric. Sci., 58 (2), 173–181.

[3] Ramakrishnan, K., and Krishnan, M.R.V., 1994, Tannin - Classification, analysis, and applications, Anc. Sci. Life, 13 (3-4), 232–238.

[4] Kushwaha, R., Rai, S.N., Singh, A.K., Chandra, G., Vaidya, M.M., Sharma, V.K., Pathan, M.M., and Kumar, S., 2007, Tanniniferous feed resources in dairy animals: A review, Agric. Rev., 32 (4), 267–275.

[5] Rahim, A.A., 2005, Physico-Chemical Characterisation of Mangrove Tannins as Corrosion Inhibitors, Dissertation, Universiti Sains Malaysia.

[6] Izawa, K., Amino, Y., Kohmura, M., Ueda, Y., and Kuroda, M., 2010, “Human–Environment Interaction – Taste”, in Comprehensive Natural Products II: Chemistry and Biology, Volume 4, Eds., Mander, L., and Liu, H.W., Elsevier Science, 631–671.

[7] Aldred, E., 2009, Pharmacology, A Handbook for Complementary Healthcare Professionals 1^st ed., Churchill Livingstone, 149.

[8] Vijayaraghavan, G., Sivakumar, T., and Kumar, A.V., 2011, Application of plant-based coagulants for waste, IJAERS, 1 (1), 88–92.

[9] Gupta, A.K, 2008, Tannin Based Wood Adhesive, Niir Project Consultancy Products: Nirr Project Consultancy Services, New Delhi, India, 56–59.

[10] Dargahi, M., Olsson, A.L.J., Tufenkji, N., and Gaudreault, R., 2015, Green technology: Tannin-based corrosion inhibitor for protection of mild steel, Corrosion, 71 (11), 1321–1329.

[11] Wheatley, M.J., 2001, “Use of Tannins Adhesives Applications, Industrial Problems and Potentials” in Plant Polyphenols, Springer, Boston, USA, 1005–1011.

[12] Dariva, C.G., and Galio, A.F., 2014, “Corrosion Inhibitors–Principles, Mechanisms and Applications” in Development in Corrosion Protection, IntechOpen, London, 365–376.

[13] Shah, A.M., Rahim, A.A., Hamid, S.A., and Yahya, S., 2013, Green inhibitors for copper corrosion by mangrove tannin, Int. J. Electrochem. Sci., 8, 2140–2153.

[14] Oki, M., Charles, E., Alaka, C., and Oki, T.K., 2011, Corrosion inhibition of mild steel in hydrochloric acid by tannins from Rhizophora racemosa, Mater. Sci. Appl., 2, 592–595.

[15] Talib, N.A.A., Zakaria, S., Hua, C.C., and Othman, N.K., 2014, Tannin bark Melalauca cajuputi Powell (gelam) as green corrosion inhibitor of mild steel, AIP Conf. Proc., 1416, 171–177.

[16] Idora, M.S.N., Quen, L.K., and Kang, H.S., 2017, Effect of tannin from Rhizophora apiculate as corrosion inhibitor for epoxy paint on mild steel, J. Phys. Conf. Ser., 890, 012062.

[17] Nik, W.B.W., Jahar, H.M., Idora, M.S.N., Suriani, M.J., and Yabuki, A., 2015, Effect of mangrove bark condensed tannins (Rhizophora apiculata) as corrosion inhibitor for mild steel in simulated splash zone, J. Sci. Res. Dev., 2 (13), 59–63.

[18] Rahim, A.A., Rocca, E., Steinmetz, J., Adnan, R., and Kassim, J.N., 2004, Mangrove tannins as corrosion inhibitors in acidic medium–Study flavanoid monomers, EUROCORR 2004–European Corrosion Conference: Long Term Prediction and Modelling of Corrosion, 12–16 September 2004, Nice, France.

[19] Peres, R.S., Cassel, E., and Azambuja, D.S., 2012, Black wattle tannin as steel corrosion inhibitor, ISRN Corros., 2012, 937920.

[20] Negm, N.A., Badr, E.A., Tawfik, S.M., and El Farargy, A.F., 2014, Performance of nonionic surfactants derived from tannic acid in preventing the acidic dissolution of carbon steel, IOSR J Appl. Chem., 7 (6), 31–42.

[21] Tovar, C.T., Ortiz, Á.V., and Jaraba, L.E.G., 2015, Kinetics of adsorption in mercury removal using cassava (Manhiot esculenta) and lemon (Citrus limonum) wastes modified with citric acid, Ing. Univ., 19 (2), 283–298.

[22] Drake, L.R., and Rayson, G.D., 1996, Plant-derived materials for metal ion selective binding and preconcentration, Anal. Chem., 68 (1), 22A–27A.

[23] Pizzi, A., 1980, Tannin-based adhesives, J. Macromol. Sci., Polym. Rev., 18 (2), 247–315.

[24] Huang, X., Liao, X., and Shi, B., 2009, Hg(II) removal from aqueous solution by bayberry tannin-immobilized collagen fiber, J. Hazard. Mater., 170 (2-3), 1141–1148.

[25] Torres, J., Olivares, S., De La Rosa, D., Lima, L., Martínez, F., Munita, C.S., Favaro, D.I.T., 1999, Removal of mercury (II) and methyl mercury from solution by tannin adsorbents, J. Radioanal. Nucl. Chem., 240 (1), 361–365.

[26] Vázquez, G., González-Álvarez, J., Freire, S., López-Lorenzo, M., and Antorrena, G., 2002, Removal of cadmium and mercury ions from aqueous solution by sorption on treated Pinus pinaster bark: Kinetics and isotherms, Bioresour. Technol., 82 (3), 247–251.

[27] Yurtsever, M., and Şengil, İ.A., 2009, Biosorption of Pb(II) ions by modified quebracho tannin resin, J. Hazard. Mater., 163 (1), 58–64.

[28] Agarwal, H., Sharma, D., Sindhu, S.K., Tyagi, S., and Ikram, S., 2010, Removal of mercury from wastewater use of green adsorbents - A review, Electron. J. Environ. Agric. Food Chem., 9 (9), 1551–1558.

[29] Anirudhan, T.S., and Suchithra, P.S., 2008, Synthesis and characterization of tannin-immobilized hydrotalcite as a potential adsorbent of heavy metal ions in effluent treatments, Appl. Clay Sci., 42 (1-2), 214–223.

[30] Leme, F.P., 1990, Teoria e técnicas de tratamento de água, Rio de Janeiro: ABES, 540–564.

[31] Thakur, S.S., and Choubey, S., 2014, Use of tannin based natural coagulants for water treatment: An alternative to inorganic chemicals, Int. J. ChemTech Res., 6 (7), 3628–3634.

[32] Özacar, M.A., and Şengil, İ.A., 1997, Spectrophotometric methods for the estimation of tannins in plant tissues, Proceeding of XI, National Chemistry Congress, Van, 502.

[33] Steiner, P.R., 1989, “Tannins as Specialty Chemicals: An Overview” in Chemistry and Significance of Condensed Tannins, Eds., Hemingway, R.W., Karchesy, J.J., and Branham, S.J., Springer, Boston, 517–523.

[34] Caby, D., 2018, Oilfield Solutions, http://www.oilfield-solutions.basf.com/ev/internet/oilfield-solutions/en_GB/applications/drilling/thinners.

[35] Bax, N.K., 2015, Waste Management and Control, CreateSpace Independent Publishing Platform, U.S., 15.

[36] Ibrahim, M.N.M., Chuah, S.B., and Cheng, P.Y., 2003, Tin-tannin-lignosulfonate complex: An improved lignosulfonate based drilling fluid thinner, Jurnal Teknologi, 38 (3), 25–32.

[37] Hussein, A.S., Ibrahim, K.I., and Abdulla, K.M., 2011, Tannin-phenol formaldehyde resins as binders for cellulosic fibers: Mechanical properties, Nat. Resour., 2 (2), 98–101.

[38] Santana, M.A.E., Baumann, M.G.D., and Conner, A.H., 1995, Resol resins prepared with tannin liquified in phenol, Holzforschung, 49 (2), 146–152.

[39] Konai, N., Raidandi, D., Pizzi, A., Girods, P., Lagel, M.C., and Kple, M., 2016, Thermogravimetric analysis of anningre tannin resin, Maderas, Cienc. Tecnol., 18 (2), 245–252.

[40] Tondi, G., 2017, Tannin-based copolymer resins: Synthesis and characterization by solid state ¹³C NMR and FT-IR spectroscopy, Polymers, 9, 223–240.

[41] Chaieb, E., Bouyanzer, A., Hammouti, B., and Berrabah, M., 2009, Limonene as green inhibitor for steel corrosion in hydrochloric acid solutions, Acta Phys. Chim. Sin., 25 (7), 1254–1258.