Effect of Radiation Interception and Canopy Temperature on Growth, Yield and Quality in Banana Cv. Grande Naine (AAA) under Different Planting Densities

Authors

  • Lanuakum . Author
  • Graceli I Yepthomi Author
  • C S Maiti Author

DOI:

https://doi.org/10.24154/jhs.v10i2.125

Keywords:

Banana, Grande Naine, Radiation Interception, Canopy Temperature, High-Density Planting

Abstract

A study was made to test the effect of radiation interception and canopy temperature under different planting densities [T1- 1.5m x 1.5m (4,444 plants/ha); T2- 2m x 2m (2500 plants/ha); T3- 1.5m x 2.5m (2666 plants/ha); T4- 2m x 2.5m (2000 plants/ha); T5- 2.5m x 2.5m (1600 plants/ha)] on growth, yield and quality in banana cv. Grande Naine. With an increase in planting density, plant height increased significantly. Pseudostem was tallest in the closest spacing, viz., 1.5m x 1.5m (T1), and was shortest in the widest spacing, 2.5m x 2.5m (T5). T1 treatment (1.5m x 1.5m) recorded the least average-canopy-temperature (25.80°C/day) from the flowering to the harvest. T5 recorded the maximum average-radiation-interception, with a value of 432.16 lux/8 hr/day; whereas, T1 recorded minimum average-radiation-interception of 219.58 lux/8 hr/day. Significant influence of spacing was seen on yield /ha. Plants grown under higher density yielded comparatively higher yield (82.65 t/ha) under a spacing of 1.5m x 1.5m (T1). It is thus seen that growth parameters (pseudostem height and number of leaves) and yield/ha in banana was superior at a higher density (1.5m x 1.5m); whereas, in terms of quality of fruit (TSS and total sugar content) spacing of 2.5m x 2.5m was superior. This indicates a positive influence of radiation interception and canopy temperature in banana production.

References

A.O.A.C. 1984. Official methods of analysis. Association of Official Analytical Chemists, 14 th Edn., Washington D.C., USA

Ajitpal Singh, Dhaliwal, G.S. and Hundal, S.S. 2005. effect of planting distance on radiation interception behavior of guava (Psidium guajava L.) J. Agrometeorology, 7:220-224

Apshara, S.E. and Sathiamoorthy, S. 1999. Effect of planting density and spacing on growth and yield of banana cv. Nendran (AAB). South Indian Hort., 47:1-3

Athani, S.I. and Hulamani, N.C. 2000. Influence of plant density on quality parameters and yield in Rajapuri banana. Karnataka J. Agril. Sci., 13:224-227

Badgujar, C.D., Dusane, S.M. and Deshmukh, S.S. 2004. Influence of plant spacing on growth, maturity and yield of Grand Naine (AAA) banana. South Indian Hort., 52:13-17

Kesavan, V., Hill, T. and Morris, G. 2002. The effect of plant spacing on growth, cycling time and yield of bananas in sub-tropical Western Australia. In: Procs. Int’l. Symp. Trop. & Sub-trop. Fruits, Cairns, Northern Territory, Australia, 26 th Nov-1 st Dec 2000, Acta Hort., 575:851-857

Mandal, B.K. and Sharma, S.B. 1999. Growth and yield responses of Robusta banana (AAA) at high densities. Progressive Hort., 31:138-143

Mustaffa, M.M. 1988. Effect of spacing and nitrogen on growth and fruit yield of Robusta banana grown under rainfed conditions. South Indian Hort., 36:228-231

Nalina, L., Kumar, N. and Sathiamoorthy, S. 2003. Studies on high-density planting in banana cv. Robusta (AAA). II. Influence on bunch and fruit quality traits. Indian J. Hort., 60:307-311

Nalina, L., Kumar, N. and Sathiamoorthy, S. 2000. Effect of high-density planting on light transmission and weed growth in banana cv. Robusta (AAA). South Indian Hort., 48:93-95

Panse, V.G. and Sukhatme, P.V. 1995. Statistical methods for agricultural workers. ICAR, New Delhi, India

Raveendra, B.H., Amaresh, Y.S. and Divatar, A.B. 2004. Studies on the effect of planting density on crop duration and yield in Robusta banana. Adv. Pl. Sci., 17:725-728

Robinson, J.C., Fraser, C. and Eckstein, K. 1993. Ultra- high densities for banana at Burgershall. Inlighting Bulletin No. 252, pp.9-10

Robinson, T.L. 2007. Effect of tree density and tree shape on apple orchard performance. Acta Hort., 732:405-414

Thippesha, D. 2008. Effect of high-density planting systems on light interception in banana cv. Robusta (AAA) with different levels of nutrition and spacing. Envir. & Ecol., 26:318-321

Downloads

Published

31-12-2015

Issue

Section

Original Research Papers

How to Cite

., L., Yepthomi, G. I., & Maiti, C. S. (2015). Effect of Radiation Interception and Canopy Temperature on Growth, Yield and Quality in Banana Cv. Grande Naine (AAA) under Different Planting Densities. Journal of Horticultural Sciences, 10(2), 172-176. https://doi.org/10.24154/jhs.v10i2.125

Similar Articles

1-10 of 279

You may also start an advanced similarity search for this article.