CROP PRODUCTIVITY AND SOIL FERTILITY IN A TROPICAL DRYLAND AGRO-ECOSYSTEM: IMPACT OF RESIDUE AND TILLAGE MANAGEMENT

C. P. KUSHWAHA; K. P. SINGH

doi:10.1017/S0014479704002303

Abstract

To understand the impact of residue and tillage management on crop productivity of rice and barley (including grain yield) and soil fertility in a tropical dryland agro-ecosystem, the following six treatments were established: (a) conventional tillage and residue removed (CT−R); (b) conventional tillage and residue retained (CT+R); (c) minimum tillage and residue removed (MT−R); (d) minimum tillage and residue retained (MT+R); (e) zero tillage and residue removed (ZT−R); and (f) zero tillage and residue retained (ZT+R). Minimum total net productivity (TNP) in both barley (the winter season crop) and rice (the rainy season crop) was recorded in the ZT−R treatment and the maximum in the MT+R treatment. In these crops, 83–88% of TNP was represented by above-ground net productivity (ANP). A reduction in tillage, from conventional to zero, especially when combined with residue retention, reduced the crop TNP/weed TNP ratio, reflecting the abundance of weeds with zero tillage. In both crops, minimum tillage increased grain yields, compared with conventional, but zero tillage resulted in reduced yields. Soil microbial biomass carbon (MBC) and nitrogen (MBN) and N-mineralization rates were higher in rice than in barley, and were maximum in the MT+R treatment. Crop productivity and grain yield in different treatments were positively correlated with MBC, MBN, N-mineralization rate and available-N. Strong negative correlations between crop productivity and grain yield with weed TNP and N-uptake were recorded. This study suggests that retention of a small fraction (one-third) of above-ground biomass from the previous crop and its incorporation in the soil through minimum tillage enhances the crop productivity and grain yield of succeeding crops and promotes soil fertility in a cereal based tropical dryland agro-ecosystem.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Singh, Sonu Ghoshal, Nandita and Singh, K.P. 2007. Synchronizing nitrogen availability through application of organic inputs of varying resource quality in a tropical dryland agroecosystem. Applied Soil Ecology, Vol. 36, Issue. 2-3, p. 164.

Singh, Sonu Ghoshal, Nandita and Singh, K.P. 2007. Variations in soil microbial biomass and crop roots due to differing resource quality inputs in a tropical dryland agroecosystem. Soil Biology and Biochemistry, Vol. 39, Issue. 1, p. 76.

Atreya, Kishor Sharma, Subodh Bajracharya, Roshan M. and Rajbhandari, Neeranjan P. 2008. Developing a sustainable agro-system for central Nepal using reduced tillage and straw mulching. Journal of Environmental Management, Vol. 88, Issue. 3, p. 547.

Badarinath, K.V.S. Kumar Kharol, Shailesh and Rani Sharma, Anu 2009. Long-range transport of aerosols from agriculture crop residue burning in Indo-Gangetic Plains—A study using LIDAR, ground measurements and satellite data. Journal of Atmospheric and Solar-Terrestrial Physics, Vol. 71, Issue. 1, p. 112.

Badarinath, K.V.S. Kharol, Shailesh Kumar Sharma, Anu Rani and Krishna Prasad, V. 2009. Analysis of aerosol and carbon monoxide characteristics over Arabian Sea during crop residue burning period in the Indo-Gangetic Plains using multi-satellite remote sensing datasets. Journal of Atmospheric and Solar-Terrestrial Physics, Vol. 71, Issue. 12, p. 1267.

Badarinath, K.V.S. Sharma, Anu Rani and Kharol, Shailesh Kumar 2009. Impact of emissions from anthropogenic sources on satellite-derived reflectance. Advances in Space Research, Vol. 43, Issue. 10, p. 1545.

Sofo, Adriano Palese, Assunta Maria Casacchia, Teresa Celano, Giuseppe Ricciuti, Patrizia Curci, Maddalena Crecchio, Carmine and Xiloyannis, Cristos 2010. Genetic, Functional, and Metabolic Responses of Soil Microbiota in a Sustainable Olive Orchard. Soil Science, Vol. 175, Issue. 2, p. 81.

Ralevic, P. Patil, S. G. and vanLoon, G. 2010. Integrated Agriculture Production Systems for Meeting Household Food, Fodder and Fuel Security. Journal of Sustainable Agriculture, Vol. 34, Issue. 8, p. 878.

Mishra, Amit Kumar and Shibata, Takashi 2012. Synergistic analyses of optical and microphysical properties of agricultural crop residue burning aerosols over the Indo-Gangetic Basin (IGB). Atmospheric Environment, Vol. 57, Issue. , p. 205.

Singh, Pratibha Singh, R. P. and Ghoshal, Nandita 2012. Influence of Herbicide and Soil Amendments on Soil Nitrogen Dynamics, Microbial Biomass, and Crop Yield in Tropical Dryland Agroecosystems. Soil Science Society of America Journal, Vol. 76, Issue. 6, p. 2208.

Kumar, Manoj Singh, R. P. Panigrahy, S. and Raghubanshi, A. S. 2014. Carbon density and accumulation in agroecosystem of Indo-Gangetic Plains and Vindhyan highlands, India. Environmental Monitoring and Assessment, Vol. 186, Issue. 8, p. 4971.

Brouder, Sylvie M. and Gomez-Macpherson, Helena 2014. The impact of conservation agriculture on smallholder agricultural yields: A scoping review of the evidence. Agriculture, Ecosystems & Environment, Vol. 187, Issue. , p. 11.

Sofo, Adriano Palese, Assunta Maria Casacchia, Teresa and Xiloyannis, Cristos 2014. Emerging Technologies and Management of Crop Stress Tolerance. p. 471.

Sofo, A. Ciarfaglia, A. Scopa, A. Camele, I. Curci, M. Crecchio, C. Xiloyannis, C. and Palese, A. M. 2014. Soil microbial diversity and activity in a Mediterranean olive orchard using sustainable agricultural practices. Soil Use and Management, Vol. 30, Issue. 1, p. 160.

Liang, Xinqiang Zhang, Huifang He, Miaomiao Yuan, Junli Xu, Lixian and Tian, Guangming 2016. No-tillage effects on grain yield, N use efficiency, and nutrient runoff losses in paddy fields. Environmental Science and Pollution Research, Vol. 23, Issue. 21, p. 21451.

Nicoletti, Rosario Di Vaio, Claudio and Cirillo, Chiara 2020. Endophytic Fungi of Olive Tree. Microorganisms, Vol. 8, Issue. 9, p. 1321.

Singh, Raghuveer Yadav, Dharam Bir Ravisankar, N. Yadav, Ashok and Singh, Harpreet 2020. Crop residue management in rice–wheat cropping system for resource conservation and environmental protection in north-western India. Environment, Development and Sustainability, Vol. 22, Issue. 5, p. 3871.

Das, T. K. Bandyopadhyay, K. K. and Ghosh, P. K. 2021. Conservation Agriculture: A Sustainable Approach for Soil Health and Food Security. p. 139.

Su, Yang Gabrielle, Benoit and Makowski, David 2021. A global dataset for crop production under conventional tillage and no tillage systems. Scientific Data, Vol. 8, Issue. 1,

Wapongnungsang Ovung, EtsoshanYinga Upadhyay, Keshav Kumar and Tripathi, S.K. 2021. Soil fertility and rice productivity in shifting cultivation: impact of fallow lengths and soil amendments in Lengpui, Mizoram northeast India. Heliyon, Vol. 7, Issue. 4, p. e06834.

Download full list

Article contents

CROP PRODUCTIVITY AND SOIL FERTILITY IN A TROPICAL DRYLAND AGRO-ECOSYSTEM: IMPACT OF RESIDUE AND TILLAGE MANAGEMENT

Abstract

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

CROP PRODUCTIVITY AND SOIL FERTILITY IN A TROPICAL DRYLAND AGRO-ECOSYSTEM: IMPACT OF RESIDUE AND TILLAGE MANAGEMENT

Abstract

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests