气候变化对马铃薯生产力的影响及相应的适应策略

Q3 Agricultural and Biological Sciences

Journal of Agrometeorology Pub Date : 2023-08-31 DOI:10.54386/jam.v25i3.2181

ANCHAL RANA, VIJAY KUMAR DUA, NIRMLA CHAUHAN, PARESH CHAUKHANDE, Meena Kumari

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引用次数: 0

摘要

WOFOST和InfoCrop作物生长模拟模型用于评估气候变化对马铃薯品种的影响，并制定比哈尔邦代表性浓度途径（RCP）4.5和6.0下未来气候情景（2030、2050和2080）的适应策略。选择属于晚熟（Kufri Badshah）、中熟（Kufri Jyoti）和早熟（Kufri-Pukhraj）的马铃薯品种。模拟结果显示，在两种RCP（4.5和6.0）下，Kufri Badshah的基准产量为43.80 t ha-1、Kufri Jyoti的41.5 t ha-1和Kufri Pukhraj的43.6 t ha-1，马铃薯的潜在生产力发生了变化。根据RCP 4.5，CO2浓度的升高预计将提高Kufri Badshah、Kufri Jyoti和Kufri Pukhraj的生产力。然而，当考虑到未来气候情景（2030年、2050年和2080年）温度的单独影响时，预计产量会下降。然而，当2030年二氧化碳和温度的综合影响分别为1.3%、0.7%和0.3%，2050年为-0.4%、-1.1%和-2.2%，2080年为3.5%、4.4%和5.9%时，这些产量损失被抵消。同样，对于RCP 6.0，二氧化碳和温度的综合影响在2030年抵消了2.6%、2.4%和2.3%的产量损失，在2050年抵消了2.1、1.7和1.1，在2080年抵消了1.1、-0.1和-1.8。此外，选择合适的品种、改变种植日期以及适当的灌溉和氮管理实践可以抵消产量损失。

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Climate change impact on potato (Solanum tuberosum) productivity and relative adaptation strategies

WOFOST and InfoCrop crop growth simulation models were used to assess the impact of climate change on potato cultivars and to develop adaptation strategies for future climatic scenarios (2030, 2050 and 2080) under representative concentration pathways (RCP’s) 4.5 and 6.0 in Bihar. Potato cultivars belonging to late (Kufri Badshah), medium (Kufri Jyoti) and early (Kufri Pukhraj) maturity groups were selected. The simulated results revealed variations in potential productivity of potato under both RCP’s (4.5 & 6.0) with baseline yields of 43.80 t ha-1 for Kufri Badshah, 41.5 t ha-1 for Kufri Jyoti and 43.6 t ha-1 for Kufri Pukhraj. Under RCP 4.5, elevated concentration of CO2 projected to increase the productivity of Kufri Badshah, Kufri Jyoti, and Kufri Pukhraj. However, a decline in yield is expected when individual effect of temperature is considered for future climatic scenarios (2030, 2050 & 2080). However, these yield loss is negated when combined effect of CO2 and temperature is considered by 1.3, 0.7 and 0.3 % in 2030, by -0.4, -1.1 and -2.2 % in 2050 and by 3.5, 4.4 and 5.9 % in 2080, respectively. Likewise, for RCP 6.0, combined effect of CO2 and temperature offset the yield losses by 2.6, 2.4 and 2.3% in 2030, 2.1, 1.7 and 1.1 in 2050 and 1.1, -0.1 and -1.8 in 2080. In addition, selection of suitable cultivars, shifting the date of planting and proper irrigation and nitrogen management practices can counterbalance the yield losses.

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来源期刊

Journal of Agrometeorology 农林科学-农艺学

CiteScore

1.40

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Agrometeorology (ISSN 0972-1665) , is a quarterly publication of Association of Agrometeorologists appearing in March, June, September and December. Since its beginning in 1999 till 2016, it was a half yearly publication appearing in June and December. In addition to regular issues, Association also brings out the special issues of the journal covering selected papers presented in seminar symposia organized by the Association.