Efficacy of calcium chloride and arginine foliar spray in alleviating terminal heat stress in late-sown wheat (Triticum aestivum L.)
2019
Roy Chowdhury, A. | Ghosh, M. | Lal, M. | Pal, A. | Hazra, K. K. | Acharya, S. S. | Chaurasiya, A. | Pathak, S. K.
Terminal heat stress leads to sizeable yield loss in late-sown wheat in tropical environments. Several synthetic compounds are known to counteract plant stress emanating from abiotic factors. A field experiment was conducted in Sabour (eastern India) during 2013–2016 to investigate the field efficacy of two synthetic compounds, calcium chloride (CaCl₂) and arginine, for improving grain yield of two contrasting wheat cultivars (DBW 14 and K 307) facing terminal heat stress. For this, foliar spray of 18.0 mM CaCl₂ at booting (CCB) or anthesis (CCA), 9.0 mM CaCl₂ at both booting and anthesis (CCB₊A), 2.5 mM arginine at booting (ARGB) or anthesis (ARGA) and 1.25 mM arginine at both booting and anthesis (ARGB₊A) treatments along with no-spray and water-spray treatments were evaluated in late-sown wheat. The highest grain yield was recorded in treatment CCB₊A, followed by CCA and ARGB₊A. However, the effect of these compounds was marginal on grain yield when applied only at the booting stage. Grains/ear and thousand-grain weight were found to be the critical determinants for yield in late-sown wheat. During the anthesis to grain filling period, flag-leaf chlorophyll degradation and increase in relative permeability in no-spray treatment were 34–36% and 29–52%, respectively, but these values were reduced considerably in CCB₊A treatment followed CCA. Thus, foliar spray of 9.0 mM CaCl₂ both at booting and anthesis stages may be recommended for alleviating the negative impacts of terminal heat stress in late-sown wheat and improving its productivity (>13%).
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