Efficacy of nanomaterials for sustainable crop productivity of Capsicum (Capsicum annuum L.) var. Rani under naturally ventilated polyhouse

Nanomaterials, as a source of plant nutrients, play a significant role in cellular metabolism and nutrients uptake by plants, so they have the potential to improve the growth and productivity of Capsicum. A replicated field trial was carried out in 3 x 3 factors Randomized Block Design (RBD) with two factors viz., micronutrients (Cu, B and Mn) and nanomaterials (nano-Fe, nano-Zn and nano-Mg) applied at the rate of 1000 ppm to explore efficacy of nanomaterials and micronutrient for enhancing productivity of Capsicum (Capsicum annuum L.) var. Rani. The layout of experimental area was designed to accommodate 9 treatments (3 x 3) and a control (without treating with micronutrients and nanomaterials). Inside the naturally ventilated polyhouse, the raised beds (height-30 cm, length-50 m, width-90 cm and bed spacing-60 cm) were prepared for the transplanting capsicum seedlings. Application of nano-Zn and/or nano-Fe @ 1000 ppm in combination with borax and/or CuSO4 @ 1000 ppm was significant (p<0.05) for improving various plant growth and productivity parameters of Capsicum. The combined application of nano-Zn with borax or CuSO4 and nano-Fe with borax or CuSO4 (@ 1000 ppm each) was the effective approach for improvement in plant height, number of leaves, number of flowers, number of fruits, yield plant-1 and estimated yield hectare-1. The experimental findings of the present study confirm the necessities of nanomaterials as a nutrient source for enhancing capsicum's productivity to achieve food and nutritional security and promote sustainable agriculture, inclusive and sustainable economic growth of the farming community.