Adaptation strategies for winter wheat production at farmer fields under a changing climate: Employing crop and multiple global climate models

IF 6.1 1区 农林科学 Q1 AGRICULTURE, MULTIDISCIPLINARY Agricultural Systems Pub Date : 2024-07-26 DOI:10.1016/j.agsy.2024.104066
Muhammad Rizwan Shoukat , Jingjing Wang , Muhammad Habib-ur-Rahman , Xin Hui , Gerrit Hoogenboom , Haijun Yan
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Abstract

CONTEXT

Climate change profoundly affects agriculture through increased occurrences of extreme weather events, directly affecting crop growth and food security. The North China Plain (NCP), a significant region for winter wheat production, faces challenges from the changing climate, which could threaten agricultural output and sustainability.

OBJECTIVE

This study aimed to evaluate the effects of a warming climate, fluctuating precipitation, and rising CO2 levels on winter wheat production in the NCP. Additionally, it developed adaptation strategies, such as modifying the timing of planting and adjusting irrigation and nitrogen fertilizer levels, to mitigate the negative impacts of a changing climate on grain production.

METHODS

Using the DSSAT CROPSIM CERES-Wheat and NWheat models, this study incorporated baseline climate data from 2001 to 2020 and future climate projections from 12 GCMs under the CMIP6 framework. The evaluation was segmented into four future terms (terms 1 to 4) spanning from 2021 to 2100, under two societal development scenarios known as Shared Socioeconomic Pathways (SSPs): SSP2–4.5 and SSP5–8.5.

RESULTS AND CONCLUSIONS

The projections indicated an increase in temperature and precipitation over the century, with the most substantial changes under the SSP5–8.5 scenario. Term 1 (2021–2040) forecasts predicted mild temperature increases (0.89 °C increase in average maximum temperature, 0.74 °C in average minimum temperature) and an 8% increase in precipitation. Term 4 (2081–2100) projections indicated a more severe climate impact, with maximum temperatures rising by 3.19 °C, minimum temperatures by 3.07 °C, and seasonal precipitation increasing by 23%. These climatic changes are expected to reduce the winter wheat growing season by 4–17%, decrease grain numbers by 3–21%, and reduce yield by 4–20% compared to the baseline. However, the increase in CO2 from terms 1 to 4 could enhance grain yield by 4–30% under SSP5–8.5, indicating a complex interaction between climatic factors and crop productivity. This study showed that adaptation strategies, including adjusting planting times (early October), irrigation levels (300–400 mm), and nitrogen fertilizer application (250–300 kg ha−1), can effectively minimize the negative impacts of warming on grain yield.

SIGNIFICANCE

This study underscores the critical need for immediate and effective adaptation strategies to address the impact of climate change on agriculture. By adjusting agricultural practices, the negative effects on winter wheat production in the NCP can be mitigated, thereby contributing to regional food security in the face of ongoing climate challenges.

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气候变化下农民田间冬小麦生产的适应战略:采用作物模型和多种全球气候模型
背景气候变化通过增加极端天气事件的发生率对农业产生了深远影响,直接影响到作物生长和粮食安全。华北平原(NCP)是冬小麦生产的重要地区,面临着气候变化带来的挑战,这可能威胁到农业产量和可持续性。此外,该研究还制定了适应战略,如修改播种时间、调整灌溉和氮肥水平,以减轻气候变化对粮食生产的负面影响。方法该研究利用 DSSAT CROPSIM CERES-Wheat 和 NWheat 模型,纳入了 2001 年至 2020 年的基线气候数据以及 CMIP6 框架下 12 个 GCMs 的未来气候预测。评估分为四个未来时段(时段 1 至 4),时间跨度为 2021 年至 2100 年,采用两种社会发展情景,即共享社会经济路径(SSP):结果与结论预测表明,本世纪气温和降水量都将上升,其中 SSP5-8.5 方案下的变化最为显著。第 1 阶段(2021-2040 年)预测气温温和上升(平均最高气温上升 0.89 °C,平均最低气温上升 0.74 °C),降水量增加 8%。第 4 阶段(2081-2100 年)预测显示气候影响更为严重,最高气温将上升 3.19 °C,最低气温将上升 3.07 °C,季节性降水量将增加 23%。与基线相比,这些气候变化预计将使冬小麦生长期缩短 4-17%,粒数减少 3-21%,产量降低 4-20%。然而,在 SSP5-8.5 条件下,从条件 1 到 4 增加的二氧化碳可使谷物产量提高 4-30%,这表明气候因素与作物生产力之间存在复杂的相互作用。这项研究表明,包括调整播种时间(10 月初)、灌溉水平(300-400 毫米)和氮肥施用量(250-300 千克/公顷)在内的适应策略可以有效地将气候变暖对谷物产量的负面影响降至最低。通过调整农业生产方式,可减轻对北大西洋公约组织(NCP)冬小麦生产的负面影响,从而在持续的气候挑战面前促进地区粮食安全。
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来源期刊
Agricultural Systems
Agricultural Systems 农林科学-农业综合
CiteScore
13.30
自引率
7.60%
发文量
174
审稿时长
30 days
期刊介绍: Agricultural Systems is an international journal that deals with interactions - among the components of agricultural systems, among hierarchical levels of agricultural systems, between agricultural and other land use systems, and between agricultural systems and their natural, social and economic environments. The scope includes the development and application of systems analysis methodologies in the following areas: Systems approaches in the sustainable intensification of agriculture; pathways for sustainable intensification; crop-livestock integration; farm-level resource allocation; quantification of benefits and trade-offs at farm to landscape levels; integrative, participatory and dynamic modelling approaches for qualitative and quantitative assessments of agricultural systems and decision making; The interactions between agricultural and non-agricultural landscapes; the multiple services of agricultural systems; food security and the environment; Global change and adaptation science; transformational adaptations as driven by changes in climate, policy, values and attitudes influencing the design of farming systems; Development and application of farming systems design tools and methods for impact, scenario and case study analysis; managing the complexities of dynamic agricultural systems; innovation systems and multi stakeholder arrangements that support or promote change and (or) inform policy decisions.
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