References
- BRADFORD, M. A. – BERG, B. – MAYNARD, D. S. – WIEDER, W. R. – WOOD, S. A. 2016. Understanding the dominant controls on litter decomposition. In Journal of Ecology, vol. 104, no. 1, pp. 229–238.
- BRIASSOULIS, D. – BABOU, E. – HISKAKIS, M. – SCARASCIA, G. – PICUNO, P. – GUARDE, D. – DEJEAN, C. 2013. Review, mapping and analysis of the agricultural plastic waste generation and consolidation in Europe. In Waste Management Research, vol. 3, no. 12, pp. 1262–1278.
- CAI, L. – CHEN, T. B. – ZHENG, S. W. – LIU, H. T. – ZHENG, G. D. 2018. Decomposition of lignocellulose and readily degradable carbohydrates during sewage sludge biodrying, insights of the potential role of microorganisms from a metagenomic analysis. In Chemosphere, vol. 201, pp. 127–136.
- DING, W. – YU, H. – CAI, Z. – HAN, F. – XU, Z. 2010. Responses of soil respiration to N fertilization in a loamy soil under maize cultivation. In Geoderma, vol. 155, pp. 381–389.
- ESSIEN, J. P. – AKPAN, E. J. – ESSIEN, E. P. 2005. Studies on mould growth and biomass production using waste banana peel. In Bioresource Technology, vol. 96, pp. 1451–1456.
- KALEMELAWA, F. – NISHIHARA, E. – ENDO, T. – AHMAD, Z. – YEASMIN, R. – TENYWA, M. M. – YAMAMOTO, S. 2012. An evaluation of aerobic and anaerobic composting of banana peels treated with different inoculums for soil nutrient replenishment. In Bioresource Technology, vol. 126, pp. 375–382.
- KAŽIMÍROVÁ, V. – GADUŠ, J. – GIERTL, T. 2018. Verification of suitability of substrate composition for production and quality of biogas. In Acta Technologica Agriculturae, vol. 21, pp. 115–118.
- LIEW, K. C. – KHOR, L. K. 2015. Effect of different ratios of bioplastic to newspaper pulp fibres on the weight loss of bioplastic pot. In Journal of King Saud University-Engineering Sciences, vol. 27, pp. 137–141.
- ODEDINA, M. J. – CHARNNOK, B. – SARITPONGTEERAKA, K. – CHAIPRAPAT, S. 2017. Effects of size and thermophilic pre-hydrolysis of banana peel during anaerobic digestion, and biomethanation potential of key tropical fruit wastes. In Waste Management, vol. 68, pp. 128–138.
- PATIL, P. S. 2015. Behavior of concrete which is partially replaced with waste plastic. In International Journal of Innovative Technology and Exploring Engineering, vol. 4, no. 11, pp. 1–3.
- RAMAKRISHNAN, N. – SHARMA, S. – GUPTA, A. – ALASHWAL, B. Y. 2018. Keratin based bioplastic film from chicken feathers and its characterization. In International Journal of Biological Macromolecules, vol. 111, pp. 352–358.
- TIAN, G. – KANG, B. T. – BRUSSAARD, L. 1992. Biological effects of plant residues with contrasting chemical compositions under humid tropical conditions-decomposition and nutrient release. In Soil Biology and Biochemistry, vol. 24, pp. 1051–1060.
- TOCK, J. Y. – LAI, C. L. – LEE, K. T. – TAN, K. T. – BHATIA, S. 2010. Banana biomass as potential renewable energy resource: A Malaysian case study. In Renewable Energy and Sustainable Energy Reviews, vol. 14, no. 2, pp. 798–805.
- ULLAH, A. – VASANTHAN, T. – BRESSLER, D. – ELIAS, A. L. – WU, J. 2011. Bioplastics from feather quill. In Biomacromolecules, vol. 12, no. 10, pp. 3826–3832.
- VERVERIS, C. – GEORGHIOU, K. – CHRISTODOULAKIS, N. – SANTAS, P. – SANTAS, R. 2003. Fiber dimensions, lignin and cellulose content of various plant materials and their suitability for paper production. In Industrial Crops and Products, vol. 19, pp. 245–254.
- VIGIL, M. F. – KISSEL, D. E. 1991. Equations for estimating the amount of nitrogen mineralized from crop residues. In Soil Science Society of America Journal, vol. 55, pp. 757–761.
- VU, H. T. – SCARLETT, C. J. – VUONG, Q. V. 2017. Effects of drying conditions on physicochemical and antioxidant properties of banana (Musa cavendish) peels. In Drying technology, vol. 35, no. 9, pp. 1141–1151.
- WEBB, H. K. – ARNOTT, J. – CRAWFORD, R. J. – IVANOVA, E. P. 2013. Plastic degradation and its environmental implications with special reference to poly(ethylene terephthalate). In Polymer, vol. 5, pp. 1–18.