Parsons, David
- University of Tasmania
Sammanfattning
Our study suggests the possibility for transformational change in the productivity and risk profile of some of India's rainfed cropping systems. In the semi-arid regions of Southern India, farmers traditionally crop sorghum or chickpea on Vertisols during the post-rainy season, keeping the fields fallow during the rainy season. This practice avoids land management problems, but limits the potential for crop intensification to increase systems productivity. A long-term (15 year) experiment at ICRISAT demonstrated that cropping during the rainy season is technically feasible, and that grain productivity of double cropped sorghum + chickpea (SCP-SCP) and mung bean + sorghum (MS-MS) sequential systems were higher than their conventional counterparts with rainy season fallow, i.e. fallow + post-rainy sorghum (FS-FS) and fallow + post-rainy chickpea (FS-FCP). Without N application, mean grain yield of post-rainy sorghum in the MS-MS system was significantly greater (2520 kg ha(-1) per two-year rotation) than in the FS-FS system (1940 kg ha(-1) per two-year rotation), with the added benefit of the mung bean grain yield (1000 kg ha(-1) per two-year rotation) from the MS-MS system. In the SCP-SCP system the additional grain yield of rainy sorghum (3400 kg ha(-1) per two-year rotation) ensured that the total productivity of this system was greater than all other systems. Double cropping MS-MS and SCP-SCP sequential systems had significantly higher crop N uptake compared to traditional fallow systems at all rates of applied nitrogen (N).The intensified MS-MS and SCP-SCP sequential systems without any N fertilizer applied recorded a much higher median gross profit of Rs. 20,600 (US $ 375) and Rs. 15,930 (US $ 290) ha(-1) yr(-1), respectively, compared to Rs. 1560 (US $ 28) ha(-1) yr(-1)) with the FS-FS system. Applying 120 kg of N ha(-1) considerably increased the profitability of all systems, lifting median gross profits of the sorghum + chickpea system over Rs. 60,000 (US $ 1091) ha(-1) yr(-1) and the conventional system to Rs. 20,570 (US $ 374) ha(-1) yr(-1). The gross profit margin analysis showed that nitrogen is a key input for improving productivity, particularly for the double cropping systems. However, traditional systems are unviable and risky without N application in the variable climates of the semi-arid tropics. Together, our results show that on Vertisols in semi-arid India, double cropping systems increase systems' productivity, and are financially more profitability and less risky than traditional fallow post-rainy systems while further benefits can be achieved through fertilizer application. (C) 2014 Elsevier B.V. All rights reserved.
Nyckelord
Rainy season fallow; Vertisol Long-term experiment; Crop intensification; Grain legume; Gross profit; Stochastic dominance; Risk assessment
Publicerad i
European Journal of Agronomy
2015, volym: 62, sidor: 26-37
SLU författare
UKÄ forskningsämne
Jordbruksvetenskap
Publikationens identifierare
- DOI: https://doi.org/10.1016/j.eja.2014.09.003
Permanent länk till denna sida (URI)
https://res.slu.se/id/publ/89186