World’s population is growing exponentially and agriculture has to fulfil their food requirements. An important strategy for increasing productivity and labour utilization per unit area of available land is to intensify land use. Intercropping is advanced agro technique of cultivating two or more crops in the same space at the same time. It increases in productivity per unit of land via better utilisation of resources, minimises the risks, reduces weed competition and stabilizes the yield. Millets are ancient nutri-cereals which play an important role in food and nutritional security of the country. They are commonly grown as sole crop world-wide. Pulse production can be increased by growing pulses on favourable lands that are occupied by cereals and cash crops by way of intercropping. The combination of cereal and legume in intercropping is mostly preferred by the farmers in subsistence farming targeting livelihood security. In this study, the works carried out by various researches in millet and pulse based intercropping are discussed. This review would be useful to the researchers who are involved in this field.
A field experiment was conducted at Central Farm Unit situated in Agricultural College and Research Institute, Tamil Nadu Agricultural University, Killikulam during Rabi 2011-12 to evaluate the effect of spacing (120×30cm, 120×20 cm, 90×30 cm and 90×20 cm) and fertilizer levels (12.5:25:12.5, 18.75:37.5:18.75, 25:50:25, 31.25:62.5:31.25
The experiment to evaluate the “Effect of SRI (System of Rice Intensification) practices in increasing the yield of traditional varieties of rice was carried out in the samba season of 2022 at south farm in Karunya Institute of Technology and Sciences, Division of Agronomy, Coimbatore. The soil of the experimental field was clay loam, moderately drained low in available N 212 kg ha-1), high (17.4 kg ha-1) medium K (410 kg ha-1) level of organic carbon (0.73%). The experiment was laid in Randomized Block Design and replicated three times. The treatments consisted of 7 rice varieties namely Illupaipoo samba (T1), Vaalan samba (T2), Mysore malli (T3), Thanga samba (T4), Thooyamalli (T5), Kitcheli samba (T6) and Bhavani (T7). The Data collected includes the yield attributes of different traditional rice varieties and was analyzed using analysis of variance. In the recent past, research on the country's rice crop has mostly been concentrated on increasing output, crop resilience to pests and diseases, and has given little attention to cultivating the traditional rice varieties or management options for better establishment and production. Therefore, it is crucial to conduct SRI technique experiments with a few chosen rice varieties in order to gather data and provide guidance on the best variety to choose for the production of high-quality rice and its commercialization The results showed that the variety Thanga samba (T4) produced significantly higher grain yield of 6564 kg ha-1 and registered a yield increase ranging from 12 to 63 per cent over the other varieties under evaluation. The highest net return of 176472 ₹ ha-1 with B:C ratio of 2.6 was realised under the variety Thanga samba (T4). In conclusion the variety Thanga samba (T4) performed better under SRI method of cultivation.
The scheduling of irrigation according to the ratio between irrigation water depth (IW) and cumulative pan evaporation (CPE) rate for aerobic rice. During these days, the shortage of water resources is increasing continually due to climate change. It has led to the adaptation of rice farming under aerobic conditions. This saves irrigation water, labour, eliminates puddling, reduces seepage, percolation losses, and methane emissions. Aerobic rice cultivars produce higher plant growth, physiological, root growth, yield, water use efficiency, productivity, and soil nutrient uptake under different (0.6, 0.8, 1.0, 1.2, 1.4, 1.5, 2, and 2.5) IW/ CPE ratios. Under these irrigation schedules, the yield of rice in aerobic soil is recorded at between 4.5 and 7.1 t ha-1 and the water use efficiency is from 25 to 70 kg ha-1. However, the decline in yield or even crop failure under continuous monocropping, weeds, nematode problems, and aerobic rice micronutrient deficiency Our important findings in aerobic rice are: (1) Scheduling of irrigation based on various IW/ CPE ratios recorded the higher rice plant height, number of tillers hill-1, dry matter production, leaf area index, crop growth rate, relative growth rate, root length, productive tillers, number of grains panicle-1, number of filled grain panicle-1, total number of grains panicle-1, test weight and yield; (2) The last 15 years of aerobic rice research findings focused on irrigation scheduling by IW/CPE ratio for driving economic water use; and (3) nutrient uptake increased with irrigation at more than 1.0 IW/CPE ratio with depth of 5 cm irrigation water. Declining water availability due to climate change makes it necessary to conduct more research on irrigation scheduling in rice crops in order to increase yield and water use efficiency.
Cropping system involves proper management of inputs in a synergistic manner. Latest advancements in cropping system has resulted in including new rewarding crops in an appropriate manner with higher efficiency in utilization of resources. This ultimately effects the farmers with higher gross returns. Considering this fact, proper cohesion of nutrients/resources is essential to maintain an optimum fertility in the soil. This involves precise integration of synthetic chemicals, organics and biofertilizers; so that these practices may not incur a deterioration in soil health. Thus, this review projects the techniques of efficient pre-requisites in a cropping system for achieving higher productivity in a eco-friendly manner.
A field experiment was conducted during rabi season of 2022 at Karunya Institute of Technology and Sciences, Coimbatore to study the performance of different pearl millet-based intercropping with legumes under rainfed condition. Greengram (Vigna radiata), cowpea (Vigna unguiculata) and redgram (Cajanus Cajan) were sown as intercrops in replacement series of 4:1 and 6:1 row ratio. The result of the study indicated that intercropping of blackgram and redgram with pearl millet in 4:1 gave higher total grain yield (25503.0 kg/ha) and stover yield (4927.1 kg/ha) compared to the sole cropping of pearl millet under rainfed condition. Other intercropping indices like grain equivalent yield, land equivalent ratio, relative crowding coefficient, competition index and income equivalent ratio were calculated. Intercropping system of pearl millet + blackgram (4:1) recorded the higher net returns (Rs. 81,621/ha) and B:C ratio (2.42).
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.