Development of Plant Growth Promoter Based on Globally and Abundantly Available Waste Banana Pseudo-Stem and Hair
Development of Plant Growth Promoter Based on Globally and Abundantly Available Waste Banana Pseudo-Stem and Hair
Banana is cultivated in more than 120 countries, over an area of 4.8 million hectares, with an annual production of 99.99
million tons in the year 2011 whereas in India alone in about 1.0 million hectares generating approximately 51.18 million
tons of pseudo-stem as waste annually. Similarly, millions tones of small hair (approximately 2500-3000 MT) are being
generated annually in India as waste. Both the waste material is abundantly, economically and easily available at throw away
price. These waste materials contain various nutrients, vitamins, nitrogen, phosphorus Potassium and trace elements etc.
useful for plant growth. With a view to develop wealth from these wastes namely banana pseudo-stem and hair, the study was
carried out to develop plant growth promoter utilizing these wastes. Banana pseudo-stem juice (BPSJ) was extracted from
the leaf sheath and tender core with the help of a juice extraction machine by squeezing pseudo-stem twice to extract the juice
maximum. Plant growth promoter was prepared in laboratory using waste hair and banana pseudo-stem juice under acidic
condition which contains dissolved solid (40%), amino nitrogen (4%), total nitrogen (7%), organic carbon (8%), total amino
acids mixture (13%) and trace elements. The efficacy study of this product was carried out 5 L diluted in 200 L of water per
acre on banana plantation. Drenching of this product was done five times at an interval of 1 month. During efficacy trials,
parameters such as chlorophyll content, total biomass, root and shoot biomass and harvested fruit yield were studied. The
efficacy reveals, increase in chlorophyll content (50%), total biomass (35%), root and shoot (50%) and fruit yield (15%) as
compare to control. Based on efficacy study it is concluded that plant growth promoter has shown encouraging fruit growth
and can be promoted among banana cultivators to enhance the productivity of crop.
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- Anhwange BA, Ugye TJ and Nyiaatargher TD (2009).
Chemical composition of Musa sapientum
(banana) peels. EJEAFChe, 8(6):437-442.
- Ankush Gupta (2014). Human hair “was te” and its
utilization: Gaps and possibilities, National
Ins titute of Science, Technology and development
s tudies, PUSA, gate New Delhi.:1-17.
- Aziz NAA, Ho LH, Azahari B, Bhat R, Cheng LH and
Ibrahim MNM (2011). Chemical and functional
properties of the native banana (Musa acuminata
x balbisiana Colla cv. Awak) pseudo-s tem and
pseudo-s tem tender core flours. Food Chemis try,
128(3):748-753.
- Brebu M and Spiridon I (2011). Thermal degradation of
keratin was te, Journal of Analytical and Applied
Pyrolysis, vol. 91, no. 2:288-295.
Buragohain R, Kalita G and Sharma K (2010).
Nutritional significance of banana as swine feed.
India Vet., 87(3): 301-302.
- Cordeiro N, Belgacem MN, Torres IC and Moura
JCVP (2004). Chemical composition and pulping
of banana pseudo-s tems. Indus trial Crops and
Products, 19(2):147-154. DOI: 10.1016/j.
indcrop.2003.09.001.
- Deharveng G, Charrondiere UR, Slimani N, Southgate
DA and Riboli E (1999). Comparison of nutrients
in the food composition tables available in the
nine European countries participating in EPIC.
The European Journal of Clinical Nutrition,
53:60-79.
- Kumar S, Bhattacharyya JK, Vaidya AN, Chakrabarti
T, Devotta S and Akolkar AB (2009).
- Assessment of the status of municipal solid waste
management in metro cities, state capitals, class
I cities, and class II towns in India: an insight.
Waste Manag. 29(2):883-95. doi: 10.1016/j.
wasman.2008.04.011.
- Robinson JC and Saúco VG (2010). Bananas and
plantains: Second edition, pp. 1-311.
- Yadav KR, Sharma RK, Yadav MPS and Kothari RM
(1995). Human hair waste: An environmental
problem converted into an eco-friendly plant
tonic. Fresenius Environmental Bulletin, 4(8):
491-496.