Simulating impact of climate change on growth and yield of wheat crop grown in various agro-climatic zones of India by using CERES-Wheat (DSSAT v 4.6)

Pankaj Kumar Singh, Shri Abhiram G Sankar, Shri Sanjay Kumar Agarwal, Ravi Shankar Singh, Kamlesh Kumar Singh, Akhilesh Gupta, Naveen Kalra
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Abstract

Impact of climate change on growth and yield of wheat, through various Representative Concentration Pathways (RCPs) in various agro-climatic zones of India, by using CERES-wheat model of DSSAT version 4.6 (Hoogenboom et al., 2023). Main purpose of the present study was to judge the performance of DSSAT model for wheat crop grown under diverse production environments of Bihar, India. Seven wheat cultivars (PBW 343, Ludhiana, Meerut, Faizabad & Kanpur), (WH711, Ambala),  (Raj 3765, Jaipur), (LOK 1, Bhopal & Indore), (Malviya 234, Varanasi); (HD 2824, Samstipur) and (HD 2733, Bhagalpur), with six sowing dates (25th October, 1st November, 8th November, 15th November, 22nd November and 29th November) using historic daily weather datasets from 1985-2015 and with decadal 2020 to 2100 (RCPs) for use in running of the CERES-wheat model, to evaluate the impact of temperature rise and carbon dioxide concentration increase by using future climate change scenarios. Test locations chosen for the study were contrasting during growing period of wheat crop. Effect of sowing date on wheat on yield of wheat was significantly different, in a way to identify the optimal date of sowing under normal climatic condition as well depended on the extent of temperature rise scenarios. The optimal date of sowing differed among locations in various agro-climatic zones. In north-west locations of India (specifically in Punjab) showed increased yield through one degree celcius temperature rise, due to cooler environment during the pre-anthesis phase, whereas the yield decreased with increased temperature due to reduction in crop growing duration. But interation of temperature and CO2 was quite evident. In central part of India, say in Madhya Pradesh the effect of temperature rise resulted in decreased yield due to significant reduction in duration of the crop, as in Central India usually the temperatures are relatively higher compared to north Alluvial Plains.  Choice of cultivar matching the climate condition coupled with the climate change scenario was successfully chosen through use of CERES-Wheat model. The paper clearly demonstrated the potential in use of DSSAT (CERES-Wheat) model in simulating the yield of wheat crop grown under diverse production environment, varying climatic condition and aiding in choice of suitable cultivats for sustained agri-production.
利用 CERES-Wheat(DSSAT v 4.6)模拟气候变化对印度不同农业气候区小麦作物生长和产量的影响
利用 DSSAT 4.6 版 CERES-小麦模型(Hoogenboom 等人,2023 年),通过印度不同农业气候区的各种代表性浓度途径(RCPs),分析气候变化对小麦生长和产量的影响。本研究的主要目的是判断 DSSAT 模型在印度比哈尔邦不同生产环境下种植小麦作物的性能。七种小麦栽培品种(PBW 343,卢迪亚纳、米鲁特、法扎巴德和坎普尔)、(WH711,安巴拉)、(Raj 3765,斋浦尔)、(LOK 1,博帕尔和印多尔)、(Malviya 234,瓦拉纳西)、(HD 2824,萨姆蒂皮尔)、(HD 2824,萨姆蒂皮尔)和(HD 2824,萨姆蒂皮尔);(在六个播种日期(10 月 25 日、11 月 1 日、11 月 8 日、11 月 15 日、11 月 22 日和 11 月 29 日),利用 1985-2015 年的历史每日天气数据集和 2020 年至 2100 年的十年天气数据集(RCPs)运行 CERES 小麦模型,以评估未来气候变化情景对气温上升和二氧化碳浓度增加的影响。研究选择的试验地点在小麦作物生长期内形成鲜明对比。小麦播种日期对小麦产量的影响存在显著差异,从而确定了正常气候条件下的最佳播种日期,以及取决于气温升高情景的最佳播种日期。不同农业气候区的最佳播种日期也不尽相同。在印度西北部地区(特别是旁遮普邦),由于开花前期环境温度较低,气温升高 1 摄氏度会导致产量增加,而温度升高则会缩短作物生长期,导致产量减少。但温度和二氧化碳之间的相互影响非常明显。在印度中部地区,如中央邦,温度升高导致作物生长期显著缩短,从而导致产量下降,因为印度中部地区的温度通常比北部冲积平原相对较高。 通过使用 CERES 小麦模型,成功地选择了与气候条件和气候变化情景相匹配的栽培品种。该论文清楚地表明了 DSSAT(CERES-小麦)模型在模拟不同生产环境、不同气候条件下小麦作物产量方面的应用潜力,并有助于为持续的农业生产选择合适的栽培品种。
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