Designing energy-efficient, economically sustainable and environmentally safe cropping system for the rainfed maize-fallow land of the Eastern Himalayas

Subhash Babu; K P Mohapatra; Anup Das; Gulab Singh Yadav; Moutusi Tahasildar; Raghavendra Singh; A S Panwar; Vivek Yadav; Puran Chandra

doi:10.1016/j.scitotenv.2020.137874

Designing energy-efficient, economically sustainable and environmentally safe cropping system for the rainfed maize-fallow land of the Eastern Himalayas

Sci Total Environ. 2020 Jun 20:722:137874. doi: 10.1016/j.scitotenv.2020.137874. Epub 2020 Mar 13.

Authors

Subhash Babu¹, K P Mohapatra², Anup Das³, Gulab Singh Yadav³, Moutusi Tahasildar⁴, Raghavendra Singh⁵, A S Panwar⁶, Vivek Yadav⁷, Puran Chandra⁴

Affiliations

¹ ICAR Research Complex for North Eastern Hill Region, Umiam, Meghalaya 793 103, India. Electronic address: subhiari@gmail.com.
² World Agroforestry Centre (ICRAF), United Nations Avenue, 30677 Nairobi, Kenya.
³ ICAR-Research Complex for North Eastern Hill Region, Tripura Centre, Tripura 799 210, India.
⁴ ICAR Research Complex for North Eastern Hill Region, Umiam, Meghalaya 793 103, India.
⁵ ICAR-Research Complex for North Eastern Hill Region, Sikkim Centre, Gangtok 737102, India.
⁶ ICAR-Indian Institute of Farming Systems Research, Modipuram 250 110, India.
⁷ College of Horticulture, North West A&F University, Yangling, Shaanxi 71200, PR China.

PMID: 32199380
DOI: 10.1016/j.scitotenv.2020.137874

Abstract

Achieving a circular economic model in agriculture and meeting the food requirement of the growing population is a global challenge. The task is much more daunting in the Eastern Himalaya where low productive maize-fallow is a predominant production system. To enhance system productivity and energy use efficiency while maintaining environmental sustainability and economic profitability, therefore, energy-efficient, low carbon footprint (CF; CO₂-e) and profitable short duration crops must be made an integral part of the maize fallow system. Thus, six cropping systems viz., maize-fallow, maize-French bean, maize-soybean, maize-black gram, maize-green gram, and maize-toria were evaluated for seven consecutive years (2011-2018) to assess their energy requirement and efficiency, carbon footprint (CF; CO₂-e), economic returns and eco-efficiency. The results revealed that the maize-French bean system had the highest system productivity (11.4 Mg ha^-1), energy productivity (17.9), energy profitability (15.9) and non-renewable energy use efficiency (9.97). The maize-French bean system had also the highest net profit (US$ 3764.5 ha^-1) and benefit to cost ratio (2.54). The energy consumed under different inputs/activities across the cropping systems for chemical fertilizers, diesel and machinery ranged from 50.0-62.7%, 17.3-20.8% and 4.6-15.4%, respectively. The maize-fallow system had the highest CF (0.34 kg CO₂ e per kg grain) while, the maize-French bean system had the lowest CF (0.19 kg CO₂ e per kg grain). The maize-French bean system had also considerably increased eco-efficiency both in terms of energy use (US$ 0.23 MJ^-1) and (US$ 1.78 per kg CO₂ e) over maize-fallow system. Thus, the study has suggested that maize-French bean system is energy-efficient, economically viable and environmentally safer systems to utilize maize fallow and improve food security, may help in achieving green/circular economy.

Keywords: Carbon footprint; Circular economy; Energy productivity; Non-renewable energy use efficiency; System economic efficiency.

MeSH terms

Agriculture
Crops, Agricultural
Fertilizers
Soil
Zea mays*

Substances

Fertilizers
Soil