1. Residual Effect of Irrigation Levels and Maize Genotypes on Performance of Succeeding Blackgram (Vigna mungo L.) in Maize-blackgram Sequence Cropping.
- Author
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Sujatha, H. T., Angadi, S. S., Yenagi, B. S., Hebsur, N. S., and Doddamani, M. B.
- Subjects
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BLACK gram , *FURROW irrigation , *MICROIRRIGATION , *CORN , *IRRIGATION , *FOOD crops , *CROP rotation , *MUNG bean - Abstract
Background: Maize is the third most important food crop in India. Conventionally it is a furrow irrigated crop and hence, it calls for an effective on-farm management of water in field through micro irrigation. Intensive agriculture practice like continuous monocropping without following the principles of crop rotation and sequence have resulted in several ecological complications. Hence, blackgram was introduced as a succeeding crop after drip irrigated maize. The aim of the study was to examine the residual effect of drip irrigation levels and maize genotypes and their interaction on succeeding crop i.e. blackgram. Methods: During summer 2018 and 2019, maize experiment was conducted with four irrigation levels (drip irrigation at 0.6, 0.8 and 1.0 ETc and furrow irrigation at 0.8 IW/CPE ratio) and four maize genotypes (NK-6240, Pinnacle, CP-818 and RCRMH-2). After maize, succeeding blackgram was taken up under rainfed condition of Dharwad during kharif 2018 and 2019. Result: Performance of blackgram was superior under residual effect of drip irrigation treatments over furrow irrigation method. Among the interactions, significantly higher yield, RWUE and net returns were recorded with residual effect of I1G4 treatment combination. However, it was on par with I1G2, I1G3, I1G1, I2G1, I2G2, I2G4, I3G2 and I3G3 treatment combinations. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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