An APSIM-powered framework for post-rainy sorghum-system design in India

    Ronanki, S and Pavlík, J and Masner, J and Jarolímek, J and Stočes, M and Subhash, D and Talwar, H S and Tonapi, V A and Srikanth, M and Baddam, R and Kholova, J (2022) An APSIM-powered framework for post-rainy sorghum-system design in India. Field Crops Research (TSI), 277. pp. 1-12. ISSN 0378-4290

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    Abstract

    Sorghum contributes to the livelihoods of millions of food-insecure households in semi-arid agri-systems. Annual production widely fluctuates throughout India due to erratic rainfall and suboptimal agronomic practices. Our novel approach utilizes the digital reflection of post-rainy (rabi) sorghum production systems in India to help better understand its spatio-temporal variations and enable the designing of geography-specific, climate-responsive system interventions (Genotype × Management; GxM). For this, we evaluated a range of farmer-relevant agronomic management practices across three soil types (shallow, medium, and deep vertisols) in combination with observed ranges of biological variability in sorghum cultivar characteristics. We used the crop growth simulation model Agricultural Production Systems sIMulator (APSIM) to identify GxM combinations that can support the enhancement/ stability of post-rainy sorghum production systems in India. In general, we found the post-rainy sorghum systems would benefit from early-season sowing (16th - 23rd September), short crop duration (compared to Maldandi (M35–1), commonly grown crop type), and medium fertilizer inputs (70–70 kg urea ha−1 as basal and top-dress application). In addition, site-specific crop management (M) and crop characters (G) optimizations would further enhance/ stabilize sorghum production. Simulations highlighted that in the poorly-endowed environmental context (i.e. shallow soils and low-rainfall areas), optimal G×M targets might involve water conservation GxM combinations, such as low plant populations and low fertilization along with low crop vigor and limited transpiration responsiveness. Details on site-specific optimum GxM are available in a web application at https://ls40.pef.czu.cz/maps/. To enable the use of the study outputs for certain applications (e.g. breeding), we separated the examined geographies based on similarities in optimum production characteristics and similarities in system response to GxM interventions into four “homogeneous system units” (HSU; i.e. geographical units within which reduced GxM interactions are expected). These HSUs intended to offer geography-specific targets to prioritize, test, and introduce distinct G×M interventions. We conclude that the APSIM-powered framework presented provides region-specific Genotype × Management options that could become a blueprint for defining quantitative breeding targets that achieve enhanced productivity/ stability of dry-season sorghum cultivation throughout India.

    Item Type: Article
    Divisions: Global Research Program - Accelerated Crop Improvement
    CRP: UNSPECIFIED
    Uncontrolled Keywords: APSIM, Post-rainy, Sorghum, GxExM, Agri-system design
    Subjects: Mandate crops > Sorghum
    Depositing User: Mr Nagaraju T
    Date Deposited: 25 Mar 2024 05:18
    Last Modified: 25 Mar 2024 05:18
    URI: http://oar.icrisat.org/id/eprint/12594
    Official URL: https://www.sciencedirect.com/science/article/pii/...
    Projects: UNSPECIFIED
    Funders: UNSPECIFIED
    Acknowledgement: The results and knowledge included in this article have been obtained with support from the following grants; Internal grant agency of the Faculty of Economics and Management, Czech University of Life Sciences Prague, grant no. 2019B0009 – Life Sciences 4.0, the CGIAR Research Program on Grain Legumes and Dryland Cereals (GLDC) and a mini-grant from the CGIAR Community of Practice on Modelling (https ://bigdata.cgiar.org/communities-of-practice/crop-modeling/), and the core funding of ICAR- Indian Institute of Millets Research. A Global Challenges Research Fund project - Transforming India’s Green Revolution by Research and Empowerment for Sustainable Food Supplies (TIGR2ESS, BB/P02797/01). Authors are grateful to Dr. Amir Hajjarpoor (UMR DIADE, Universit´e de Montpellier, Institut de Recherche pour le D´eveloppement) for compilation and analysis of meteorological information from several sources. Authors further acknowledge the contribution of Dr. Sunita Choudhary (International Crops Research Institute for the Semi-Arid Tropics, Patancheru, Hyderabad) for resource mobilization as well as dissemination and promotion of scientific findings reported in this work to the key stakeholders.
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