Regional detection and assessment of chilling damage on maize considering land surface temperature, crop growth status and solar radiation changes

IF 3.7 2区 农林科学 Q1 AGRONOMY
Jingxiao Zhang, Jiabing Cai, Di Xu, Hongfang Chang, Baozhong Zhang, Zheng Wei
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引用次数: 0

Abstract

Increased frequency and severity of chilling damage events pose potential risks to crop performance and productivity due to climate change. Accurate and real-time access to chilling damage is important for crop growth and yield stability based on field's actual environment. To precisely identify regional chilling events and evaluate the impacts on crops, this study presents a model to estimate field air temperature in view of field crop situations. Land surface temperature, enhanced vegetation index, solar-induced chlorophyll fluorescence and solar declination were involved in the model. With field simultaneous continuous monitoring and multisource fused remote sensing data, the model was calibrated and validated in Jiefangzha Irrigation Area (JIA) and Changchun City (CC) in North China, accompanied by the determination coefficient ≥0.756, root mean square error ≤0.782°C, relative error ≤0.041 and consistency index ≥0.902. Meanwhile, sensitivities of the model factors were determined through path analysis, where the factors performed according to the order solar-induced chlorophyll fluorescence >solar declination >land surface temperature > enhanced vegetation index. Using the validated model, chilling damage to maize was further detected in JIA and CC from 2010 to 2020. Results showed that the severity of chilling damage was greater in CC than in JIA, along with the sterile-type occurring three events in JIA and seven in CC, while the delayed-type only twice in JIA in 2012 and 2016, but five times in CC in 2013, 2014, 2016, 2017 and 2019, respectively, being consistent with local statistics. In response to chilling damage, enhanced vegetation index and solar-induced chlorophyll fluorescence demonstrated the negative chilling effects on greenness and light use efficiency for fluorescence. Serious yield losses were caused, with yield-reducing by 5.00% (Dehui, 2013), 19.00% (Jiutai, 2014), 21.65% (Suburban district, 2016), 8.83% (Shuangyang, 2017) and 2.19% (Jiutai, 2019) in CC. The linear relationship between yield and growing degree days was a bit weakened by chilling damage, with the determination coefficient varying from 0.614 to 0.531. The increasing rate of yield with growing degree days decreased from 20.365 kg/(°C·d) in non-chilling damage years to 9.670 kg/(°C·d) in chilling damage years. These findings indicate that the presented model is especially adaptive for agricultural field environments, enabling rapid precision detection of chilling damage on crops at regional scales. It will provide references for gauging the impact of chilling damage on crops, finding efficient solutions to the stress and ensuring sustainable development of agriculture.

考虑地表温度、作物生长状况和太阳辐射变化,对玉米寒害进行区域检测和评估
气候变化导致冷害事件发生的频率和严重程度增加,给作物的生长和产量带来了潜在风险。根据田间实际环境准确、实时地获取寒害信息对作物生长和产量稳定非常重要。为准确识别区域性寒害事件并评估其对作物的影响,本研究提出了一种针对田间作物情况的田间气温估算模型。该模型涉及地表温度、增强植被指数、太阳诱导叶绿素荧光和太阳倾角。利用田间同步连续监测和多源融合遥感数据,在华北解放闸灌区(JIA)和长春市(CC)对模型进行了校核和验证,确定系数≥0.756,均方根误差≤0.782°C,相对误差≤0.041,一致性指数≥0.902。同时,通过路径分析确定了模型各因子的敏感性,其中各因子按照太阳诱导叶绿素荧光>太阳偏角>地表温度>增强植被指数的顺序执行。利用验证后的模型,进一步检测了 2010 年至 2020 年 JIA 和 CC 地区的玉米冷害情况。结果表明,CC地区的寒害严重程度高于JIA地区,其中不育型寒害在JIA地区发生了3次,在CC地区发生了7次,而延迟型寒害在JIA地区仅在2012年和2016年发生了2次,在CC地区却分别在2013年、2014年、2016年、2017年和2019年发生了5次,与当地的统计数据一致。针对寒害,植被指数和太阳诱导叶绿素荧光增强,表明寒害对绿度和荧光的光利用效率有负面影响。造成了严重的产量损失,CC减产 5.00%(德惠,2013 年)、19.00%(九台,2014 年)、21.65%(郊区,2016 年)、8.83%(双阳,2017 年)和 2.19%(九台,2019 年)。产量与生长度日之间的线性关系因寒害而有所减弱,判定系数在 0.614 至 0.531 之间变化。产量随生长度日的增加率从非冷害年份的 20.365 kg/(℃-d)下降到冷害年份的 9.670 kg/(℃-d)。这些研究结果表明,该模型特别适用于农业田间环境,能够在区域范围内快速精确地检测作物遭受的寒害。它将为衡量寒害对农作物的影响、找到应对压力的有效解决方案以及确保农业的可持续发展提供参考。
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来源期刊
Journal of Agronomy and Crop Science
Journal of Agronomy and Crop Science 农林科学-农艺学
CiteScore
8.20
自引率
5.70%
发文量
54
审稿时长
7.8 months
期刊介绍: The effects of stress on crop production of agricultural cultivated plants will grow to paramount importance in the 21st century, and the Journal of Agronomy and Crop Science aims to assist in understanding these challenges. In this context, stress refers to extreme conditions under which crops and forages grow. The journal publishes original papers and reviews on the general and special science of abiotic plant stress. Specific topics include: drought, including water-use efficiency, such as salinity, alkaline and acidic stress, extreme temperatures since heat, cold and chilling stress limit the cultivation of crops, flooding and oxidative stress, and means of restricting them. Special attention is on research which have the topic of narrowing the yield gap. The Journal will give preference to field research and studies on plant stress highlighting these subsections. Particular regard is given to application-oriented basic research and applied research. The application of the scientific principles of agricultural crop experimentation is an essential prerequisite for the publication. Studies based on field experiments must show that they have been repeated (at least three times) on the same organism or have been conducted on several different varieties.
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