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Polymer Science, Series C

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01-01-2021 | REVIEWS

Bioplastics from Biopolymers: An Eco-Friendly and Sustainable Solution of Plastic Pollution

Authors: Faizan Muneer, Habibullah Nadeem, Amna Arif, Warda Zaheer

Published in: Polymer Science, Series C | Issue 1/2021

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Abstract

Global production of synthetic polymers such as plastics is nearly 390 million tons/year, which is creating enormous challenges on a number of frontiers including environment, sustainable development and health. The non-degradability of plastics and petrochemical-based polymers is a huge environmental crisis despite being an industry with billions of dollars share in global economy. Water pollution due to synthetic plastics and related products is evident from the fact that 7 million tons of land based plastic debris enters oceans and water bodies annually endangering the sea life which is not only a concern for the aquatic environment but also for the sea food industry and eventually to human health. Eco-friendly and sustainable polymers from a number of living organisms can be used as an alternative to synthetic polymers. Biopolymers such as starch, cellulose, pectin, keratin, chitin, gelatin and polyhydroxyalkanoates can be obtained from natural biomass sources. All these biopolymers exhibit suitable physiochemical, thermal and mechanical properties that make them suitable for the production of bioplastics that are biobased and biodegradable in nature. Use of biopolymers is not limited to bioplastics but ranges from sustainable production of other products such as bio-implants, biofuels, and medicinal products. In this review, we have discussed comprehensively about the sources of biopolymers, their extraction and purification methods and the reasons that make them efficient biopolymers for the environment.

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R. Porta, Coatings 9, 526 (2019).CrossRef

R. Geyer, J. R. Jambeck, and K. L. Law, Sci. Adv. 3, 25 (2017).CrossRef

C. J. Rhodes, Sci. Prog. 101, 207 (2018).PubMedCrossRef

J. G. B. Derraik, Mar. Pollut. Bull. 44, 842 (2004).CrossRef

R. U. Halden, Annu. Rev. Public Health 31, 179 (2010).PubMedCrossRef

J. B. Lamb, B. L. Willis, E. A. Fiorenza, C. S. Couch, R. Howard, D. N. Rader, J. D. True, L. A. Kelly, A. Ahmad, J. Jompa, and D. Harvell, Science 359, 460 (2018).PubMedCrossRef

J. N. Hahladakis, C. A. Velis, R. Weber, E. Iacovidou, and P. Purnell, J. Hazard. Mater. 344, 179 (2018).PubMedCrossRef

J. B. Palter, I. Marinov, J. L. Sarmiento, and N. Gruber, Environ. Chem. 5, 1 (2006).

F. Alshehrei, J. Appl. Environ. Microbiol. 5, 8 (2017).

10.

R. Wei and W. Zimmermann, Microb. Biotechnol. 10, 1308 (2017).PubMedPubMedCentralCrossRef

11.

K. R. Hwang, W. Jeon, S. Y. Lee, M. S. Kim, and Y. K. Park, Chem. Eng. J. 390, 124636 (2020).CrossRef

12.

D. K. R. Bardaji, J. A. S. Moretto, J. P. R. Furlan, and E. G. Stehling, World J. Microbiol. Biotechnol. 36, 1 (2020).CrossRef

13.

C. N. Muhonja, H. Makonde, G. Magoma, and M. Imbuga, PLoS One 13, e0198446 (2018).PubMedPubMedCentralCrossRef

14.

T. Ahmed, M. Shahid, F. Azeem, I. Rasul, A.A. Shah, M. Noman, A. Hameed, N. Manzoor, I. Manzoor, and S. Muhammad, Environ. Sci. Pollut. Res. 25, 7287 (2018).CrossRef

15.

D. R. Tapia-Blácido, B. C. Maniglia, and M. Martelli-Tosi, “Biopolymers from Sugarcane and Soybean Lignocellulosic Biomass,” in Sustainable Polymers from Biomass, Ed. by C. Tang and C. Y. Ryu (Wiley-VCH Verlag, GmbH and Co. KGaA, Weinheim, 2017), pp. 227–253.

16.

V. Piemonte, J. Polym. Environ. 19, 988 (2011).CrossRef

17.

A. Demirbas, Energy Sources, Part A 29, 419 (2007).

18.

V. C. Shruti and G. Kutralam-Muniasamy, Sci. Total Environ. 697, 134139 (2019).PubMedCrossRef

19.

I. M. Shamsuddin, J. A. Jafar, A. S. A. Shawai, S. Yusuf, M. Lateefah, and I. Aminu, Adv. Biosci. Bioeng. 5, 63 (2017).

20.

S. M. Emadian, T. T. Onay, and B. Demirel, Waste Manage. 59, 526 (2017).CrossRef

21.

P. Sriyapai, K. Chansiri, and T. Sriyapai, Microbiology 87, 290 (2018).CrossRef

22.

E. Bugnicourt, P. Cinelli, A. Lazzeri, and V. Alvarez, eXPRESS Polym. Lett. 8, 791 (2014).CrossRef

23.

S. Kumar and K. Thakur, J. Hill Agric. 8, 118 (2017).

24.

X. Z. Tang, P. Kumar, S. Alavi, and K. P. Sandeep, Crit. Rev. Food Sci. Nutr. 52, 426 (2012).PubMedCrossRef

25.

K. D. Hirschi, Annu. Rev. Nutr. 29, 401 (2009).PubMedCrossRef

26.

N. B. D. Thi, G. Kumar, and C. Y. Lin, J. Environ. Manage. 157, 220 (2015).PubMedCrossRef

27.

Y. F. Tsang, V. Kumar, P. Samadar, Y. Yang, J. Lee, Y. S. Ok, H. Song, K. H. Kim, E. E. Kwon, and Y. J. Jeon, Environ. Int. 127, 625 (2019).PubMedCrossRef

28.

B. R. Mose and S. M. Maranga, J. Mater. Sci. Eng. B 1, 239 (2011).

29.

H. Li, S. Prakash, T. M. Nicholson, M. A. Fitzgerald, and R. G. Gilbert, Food Chem. 196, 702 (2016) 7.

30.

Maulida, M. Siagian, and P. Tarigan, J. Phys.: Conf. Ser. 710, 012012 (2016).

31.

M. Ruhul Amin, F. R. Anannya, M. A. Mahmud, and S. Raian, J. Polym. Res. 27, 3 (2019).CrossRef

32.

J. Gonzalez-Gutierrez, P. Partal, M. Garcia-Morales, and C. Gallegos, Bioresour. Technol. 101, 2007 (2010).PubMedCrossRef

33.

Z. A. Syahariza, E. Li, and J. Hasjim, Carbohydr. Polym. 82, 14 (2010).CrossRef

34.

S. M. M. Rahman, C. Wheatley, and S. K. Rakshit, Int. J. Food Prop. 6, 419 (2003).CrossRef

35.

F. Hernández-Carmona, Y. Morales-Matos, H. Lambis-Miranda, and J. Pasqualino, J. Environ. Chem. Eng. 5, 4980 (2017).CrossRef

36.

G. Bali, R. Khunsupat, H. Akinosho, R. S. Payyavula, R. Samuel, G. A. Tuskan, U. C. Kalluri, and A. J. Ragauskas, Biomass Bioenergy 94, 146 (2016).CrossRef

37.

D. Trache, M. H. Hussin, C. T. Hui Chuin, S. Sabar, M. R. N. Fazita, O. F. A. Taiwo, T. M. Hassan, and M. K. M. Haafiz, Int. J. Biol. Macromol. 93, 789 (2016).PubMedCrossRef

38.

H. Karan, C. Funk, M. Grabert, M. Oey, and B. Hankamer, Trends Plant Sci. 24, 237 (2019).PubMedCrossRef

39.

M. Brodin, M. Vallejos, M. T. Opedal, M. C. Area, and G. Chinga-Carrasco, J. Clean. Prod. 162, 646 (2017).CrossRef

40.

Isroi, A. Cifriadi, T. Panji, N. A. Wibowo, and K. Syamsu, IOP Conf. Ser.: Earth Environ. Sci. 65, 012011 (2017).

41.

N. Dinh Vu, H. Thi Tran, N.D. Bui, C. Duc Vu, and H. Viet Nguyen, Int. J. Polym. Sci. 2017, 2 (2017).CrossRef

42.

J. X. Sun, X. F. Sun, H. Zhao, and R. C. Sun, Polym. Degrad. Stab. 84, 331 (2004).CrossRef

43.

C. F. Liu, F. Xu, J. X. Sun, J. L. Ren, S. Curling, R. C. Sun, P. Fowler, and M. S. Baird, Carbohydr. Res. 341, 2677 (2006).PubMedCrossRef

44.

J. Müller-Maatsch, M. Bencivenni, A. Caligiani, T. Tedeschi, G. Bruggeman, M. Bosch, J. Petrusan, B. Van Droogenbroeck, K. Elst, and S. Sforza, Food Chem. 201, 37 (2016).PubMedCrossRef

45.

S. Chodijah, A. Husaini, and M. Zaman, J. Phys.: Conf. Ser. 1167, 012061 (2019).

46.

M. Khan, N. Bibi, and A. Zeb, Sci. Technol. Dev. 34, 9 (2015).CrossRef

47.

X. Wang, Q. Chen, and X. Lü, Food Hydrocolloids 38, 129 (2014).CrossRef

48.

P. H. F. Pereira, T. Í. S. Oliveira, M. F. Rosa, F. L. Cavalcante, G. K. Moates, N. Wellner, K. W. Waldron, and H. M. C. Azeredo, Int. J. Biol. Macromol. 88, 373 (2016).PubMedCrossRef

49.

C. J. R. Verbeek and L. E. van den Berg, Recent Pat. Mater. Sci. 2, 171 (2010).CrossRef

50.

J. Pal, H. O. Verma, V. K. Munka, S. K. Maurya, D. Roy, and J. Kumar, Int. J. Fish. Aquat. Stud. 1, 104 (2014).

51.

D. Zhao, W. C. Huang, N. Guo, S. Zhang, C. Xue, and X. Mao, Polymers 11, 409 (2019).PubMedCentralCrossRef

52.

M. P. Ryan and G. Walsh, Rev. Environ. Sci. Biotechnol. 15, 479 (2016).CrossRef

53.

S. Sharma and I. Luzinov, J. Food Eng. 119, 404 (2013).CrossRef

54.

A. Jerez, P. Partal, I. Martínez, C. Gallegos, and A. Guerrero, Rheol. Acta 46, 711 (2007).CrossRef

55.

B. Chalermthai, W. Y. Chan, J. R. Bastidas-Oyanedel, H. Taher, B. D. Olsen, and J. E. Schmidt, Polymers 11, 722 (2019).PubMedCentralCrossRef

56.

M. Javanmard, Iran. J. Pharm. Sci. 5, 129 (2009).

57.

M. Helgeson, W. Graves, D. Grewell, and G. Srinivasan, J. Environ. Hortic. 27, 123 (2009)CrossRef

58.

S. Aziz, L. Hosseinzadeh, E. Arkan, and A. H. Azandaryani, Int. J. Polym. Mater. Polym. Biomater. 68, 639 (2019).CrossRef

59.

N. Kumar, Int. J. Sci. Res. 9, 72 (2020).

60.

A. Mottet and G. Tempio, World’s Poult. Sci. J. 73, 245 (2017).CrossRef

61.

S. Sharma, A. Gupta, A. Kumar, C. G. Kee, H. Kamyab, and S. M. Saufi, Clean Technol. Environ. Policy 20, 2157 (2018).CrossRef

62.

N. Ramakrishnan, S. Sharma, A. Gupta, and B. Y. Alashwal, Int. J. Biol. Macromol. 111, 352 (2018).PubMedCrossRef

63.

B. Y. Alashwal, M. Saad Bala, A. Gupta, S. Sharma, and P. Mishra, J. King Saud Univ., Sci. 32, 853 (2020).

64.

B. Fernández-d’Arlas, Sci. Rep. 9, 14810 (2019).PubMedPubMedCentralCrossRef

65.

N. Ramakrishnan, S. Sharma, A. Gupta, and B. Y. Alashwal, Int. J. Biol. Macromol. 111, 352 (2018).PubMedCrossRef

66.

N. Eslahi, F. Dadashian, and N. H. Nejad, Prep. Biochem. Biotechnol. 43, 624 (2013).PubMedCrossRef

67.

B. Duan, Y. Huang, A. Lu, and L. Zhang, Prog. Polym. Sci. 82, 1 (2018).CrossRef

68.

S. L. Pandharipande and P. H. Bhagat, Int. J. Sci. Eng. Technol. Res. 5, 2278 (2016).

69.

M. He, X. Wang, Z. Wang, L. Chen, Y. Lu, X. Zhang, M. Li, Z. Liu, Y. Zhang, H. Xia, and L. Zhang, ACS Sustainable Chem. Eng. 5, 9126 (2017).CrossRef

70.

M. Kaya, I. Sargin, and D. Erdonmez, Innovative Food Sci. Emerging Technol. 36, 68 (2016).CrossRef

71.

S. Thammahiwes, S. A. Riyajan, and K. Kaewtatip, J. Polym. Environ. 26, 1775 (2018).CrossRef

72.

L. A. T. Fernando, M. R. S. Poblete, A. G. M. Ongkiko, and L. J. L. Diaz, Procedia Chem. 19, 462 (2016).CrossRef

73.

S. Kumari and P. K. Rath, Procedia Mater. Sci. 6, 482 (2014).

74.

S. Thillai Natarajan, N. Kalyanasundaram, and S. Ravi, Nat. Prod. Chem. Res. 5, 281 (2017).

75.

I. Bano, M. Arshad, T. Yasin, M. A. Ghauri, and M. Younus, Int. J. Biol. Macromol. 102, 380 (2017).PubMedCrossRef

76.

M. Hasan, R. F. I. Rahmayani, and Munandar, IOP Conf. Ser.: Mater. Sci. Eng. 333, 012087 (2018).

77.

M. H. S. Ginting, M. Lubis, T. Sidabutar, and T. P. Sirait, IOP Conf. Ser.: Earth Environ. Sci. 126, 6 (2018).

78.

J. G. Fernandez and D. E. Ingber, Macromol. Mater. Eng. 299, 932 (2014).CrossRef

79.

M. A. Matica, F. L. Aachmann, A. Tøndervik, H. Sletta, and V. Ostafe, Int. J. Mol. Sci. 20, 5889 (2019).PubMedCentralCrossRef

80.

S. Kumar, F. Ye, S. Dobretsov, and J. Dutta, Appl. Sci. 9, 2409 (2019).CrossRef

81.

E.R. Kenawy, P. Cinelli, A. Corti, S. Miertus, and E. Chiellini, Macromol. Symp. 144, 351 (1999).CrossRef

82.

Z. A. Nur Hanani, Y. H. Roos, and J. P. Kerry, Int. J. Biol. Macromol. 71, 94 (2014).PubMedCrossRef

83.

A. Podshivalov, M. Zakharova, E. Glazacheva, and M. Uspenskaya, Carbohydr. Polym. 157, 1162 (2017).PubMedCrossRef

84.

J. Biscarat, C. Charmette, J. Sanchez, and C. Pochat-Bohatier, Can. J. Chem. Eng. 93, 176 (2015).CrossRef

85.

J. D. Kosmala, D. B. Henthorn, and L. Brannon-Peppas, Biomaterials 21, 2019 (2000).PubMedCrossRef

86.

J. W. Lee, H. U. Kim, S. Choi, J. Yi, and S. Y. Lee, Curr. Opin. Biotechnol. 22, 758 (2011).PubMedCrossRef

87.

F. Muneer, M. H. Siddique, F. Azeem, I. Rasul, S. Muzammil, M. Zubair, M. Afzal, and H. Nadeem, Arch. Microbiol. 202, 967 (2020).PubMedCrossRef

88.

A.K. Singh and N. Mallick, FEMS Microbiol. Lett. 364, fnx189 (2017).

89.

F. Muneer, I. Rasul, F. Azeem, M. H. Siddique, M. Zubair, and H. Nadeem, J. Polym. Environ. 28, 2301 (2020).CrossRef

90.

M. Bernard, USURJ Univ. Saskatchewan Undergrad. Res. J. 1, (2014). https://doi.org/10.32396/usurj.v1i1.55

91.

M. Koller, A. Salerno, M. Dias, A. Reiterer, and G. Braunegg, Food Technol. Biotechnol. 48, 255 (2010).

92.

M. E. Grigore, R. M. Grigorescu, L. Iancu, R. M. Ion, C. Zaharia, and E. R. Andrei, J. Biomater. Sci., Polym. Ed. 30, 695 (2019)CrossRef

93.

I. Rasul, F. Azeem, M. H. Siddique, S. Muzammil, A. Rasul, A. Munawar, M. Afzal, M. A. Ali, and H. Nadeem, Algae Biotechnol.: Green Light Eng. Algae 2017, 301 (2017).

94.

C. Hermann-Krauss, M. Koller, A. Muhr, H. Fasl, F. Stelzer, and G. Braunegg, Archaea 2013, 129268 (2013).PubMedPubMedCentralCrossRef

95.

M. I. Khattak, S. Parvez, O. M. Tarar, A. B. Khan, A. Yasmin, F. Habib, and K. Jamil, Braz. Arch. Biol. Technol. 56, 645 (2013).CrossRef

96.

J. Vidal-Mas, O. Resina-Pelfort, E. Haba, J. Comas, A. Manresa, and J. Vives-Rego, Int. J. Gen. Mol. Microbiol. 80, 57 (2001).

97.

L. Favaro, M. Basaglia, J. E. G. Rodriguez, A. Morelli, O. Ibraheem, V. Pizzocchero, and S. Casella, Appl. Food Biotechnol. 6, 45 (2019).

98.

T. Volova, E. Kiselev, N. Zhila, and E. Shishatskaya, Biomacromolecules 20, 3261 (2019).PubMedCrossRef

99.

R. R. Dalsasso, F. A. Pavan, S. E. Bordignon, G. M. F. de Aragão, and P. Poletto, Process Biochem. 85, 12 (2019).CrossRef

100.

M. V. Reddy, Y. Mawatari, R. Onodera, Y. Nakamura, Y. Yajima, and Y.-C. Chang, Bioresour. Technol. Rep. 7, 100246 (2019).CrossRef

101.

P. Carlozzi, A. Giovannelli, M. L. Traversi, E. Touloupakis, and T. Di Lorenzo, Int. J. Biol. Macromol. 135, 821 (2019).PubMedCrossRef

102.

E. Hernández-Núñez, C. A. Martínez-Gutiérrez, A. López-Cortés, M. L. Aguirre-Macedo, C. Tabasco-Novelo, M. O. González-Díaz, and J. Q. García-Maldonado, J. Polym. Environ. 27, 1105 (2019).CrossRef

103.

S. Gang, W. Lee, K. Kwon, T. Kim, J. -S. Kim, and C.-W. Chung, J. Polym. Environ. 27, 2182 (2019).CrossRef

104.

H. Al-Battashi, N. Annamalai, S. Al-Kindi, A. S. Nair, S. Al-Bahry, J. P. Verma, and N. Sivakumar, J. Cleaner Prod. 214, 236 (2019).CrossRef

105.

A. T. Rebocho, J. R. Pereira, F. Freitas, L. A. Neves, V. D. Alves, C. Sevrin, C. Grandfils, and M. A. M. Reis, Appl. Food Biotechnol. 6, 71 (2019).

106.

A. R. Wagle, Y. M. Dixit, and B. V. Vakil, Ind. J. Microbiol. 59, 383 (2019).CrossRef

107.

F. Acevedo, P. Villegas, V. Urtuvia, J. Hermosilla, R. Navia, and M. Seeger, Int. J. Biol. Macromol. 106, 692 (2018).PubMedCrossRef

108.

K. M. Nampoothiri, N. R. Nair, and R. P. John, Bioresour. Technol. 101, 8493 (2010).CrossRef

109.

R. Coles, M. Kay, and J. Song, Adv. Biochem. Eng. Biotechnol. 166, 427 (2010).

110.

Z. Li, J. Yang, and X. J. Loh, NPG Asia Mater. 8, e265 (2016).CrossRef

111.

P. Scarfato, L. Di Maio, and L. Incarnato, J. Appl. Polym. Sci. 132, 42889 (2015).CrossRef

112.

Plastics—the Facts 2019. https://www.plasticseurope.org/en/resources/market-data. Cited 2021.

113.

F. M. Windsor, I. Durance, A. A. Horton, R. C. Thompson, C. R. Tyler, and S. J. Ormerod, Global Change Biol. 25, 1207 (2019).CrossRef

114.

J. A. Ivar Do Sul and M. F. Costa, Environ. Pollut. 185, 352 (2014).PubMedCrossRef

115.

S. Karbalaei, P. Hanachi, T. R. Walker, and M. Cole, Environ. Sci. Pollut. Res. 25, 36046 (2018).CrossRef

116.

A. Feil, T. Pretz, M. Jansen, and E. U. Thoden Van Velzen, Waste Manage. Res. 35, 172 (2017).CrossRef

117.

D. Lazarevic, E. Aoustin, N. Buclet, and N. Brandt, Resour., Conserv. Recycl. 55, 246 (2010).CrossRef

118.

S. Beucker and F. Marscheider-Weidemann, Potentials and Challenges of Bioplastics—Insights from a German Survey on “Green” Future Markets. http://www.borderstep.de/wp-content/uploads/2014/12/beucker_marscheider_potentials_and_challenges_of_bioplastics_2007.pdf. Cited 2021.

119.

G. Braunegg, R. Bona, and M. Koller, Polym.–Plast. Technol. Eng. 43, 1779 (2004)CrossRef

120.

S. Spierling, E. Knüpffer, H. Behnsen, M. Mudersbach, H. Krieg, S. Springer, S. Albrecht, C. Herrmann, and H. J. Endres, J. Cleaner Prod. 185, 476 (2018).CrossRef

121.

C. Ning, P. Gao, B. Wang, W. Lin, N. Jiang, and K. Cai, J. Integr. Agric. 16, 1819 (2017).CrossRef

122.

S. M. Ali, M. A. Hamza, G. Amin, M. Fayez, M. El-Tahan, M. Monib, and N. A. Hegazi, Arch. Agron. Soil Sci. 51, 589 (2005).CrossRef

123.

G. A. Zainescu, R.R. Constantinescu, P. Voicu, and D. C. Deselnicu, Rev. Chim. 67, 48 (2016).

124.

G. Zainescu, X. Zeng, V. Petre, R. Constantinescu, L. Sandru, O. Vizitiu, and E. Barna, in Proceedings of 3rd International Conference on “Advanced Materials and Systems” ICAMS 2010, Bucharest, Romania, 2010 (CERTEX, INCDTP-ICPI, Bucharest, 2010), p. 423.

125.

B. S. Hungund, S. G. Umloti, K. P. Upadhyaya, J. Manjanna, S. Yallappa, and N. H. Ayachit, Mater. Today Proc. 5, 21023 (2018).CrossRef

126.

M. Fasciotti, Sustainable Chem. Pharm. 6, 82 (2017).CrossRef

Title: Bioplastics from Biopolymers: An Eco-Friendly and Sustainable Solution of Plastic Pollution
Authors: Faizan Muneer
Habibullah Nadeem
Amna Arif
Warda Zaheer
Publication date: 01-01-2021
Publisher: Pleiades Publishing
Published in: Polymer Science, Series C / Issue 1/2021
Print ISSN: 1811-2382
Electronic ISSN: 1555-614X
DOI: https://doi.org/10.1134/S1811238221010057

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